VAS. A Semantic Model for Earth Observation Remote Sensing
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VAS. A Semantic Model for Earth Observation Remote Sensing

Release 2025/12/05

This version:
https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas/1.1.0
Latest version:
https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#
Revision:
1.1
Issued on:
2024-10-10
Authors:
J. Javier Samper Zapater, IRTIC - (Instituto de Robótica y Tecnologías de la Información y la Comunicación)
Contributors:
David Garcia-Rodriguez, Ernesto López-Baeza, Julián Gutiérrez-Moret & Juan José Martínez-Durá
Publisher:
IRTIC - (Instituto de Robótica y Tecnologías de la Información y la Comunicación)
See also:
J. Javier Samper-Zapater, Juan J. Martinez-Dura, Javier Martinez-Plume, David García Rodríguez, Julian Gutiérrez Moret, and Ernesto López Baeza. 2025. VAS. A Semantic Model for Earth Observation data. In Proceedings of the 12th Euro American Conference on Telematics and Information Systems (EATIS 2024). Association for Computing Machinery, New York, NY, USA, Article 9, 1–8. https://doi.org/10.1145/3685243.3685295
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License:
https://creativecommons.org/licenses/by/4.0/
Visualization:
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Cite as:
J. Javier Samper Zapater, IRTIC - (Instituto de Robótica y Tecnologías de la Información y la Comunicación)
Revision: 1.1.0.
Retrieved from: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas/1.1.0
Ontology Specification Draft

Abstract

The VAS ontological model enables the semantic integration of the heterogeneous observations used in ASOTVAS project ( https://robotica.uv.es/proyectos/ASOTVAS/ ), including ground measurements, UAV acquisitions and satellite products. Built as an extension of the W3C SOSA ontology (Janowicz et al., 2018), it incorporates a domain-specific vocabulary tailored to the needs of the Valencia Anchor Station as a CEOS LPV supersite. The model provides additional classes and properties to represent, in a homogeneous way, the different observational platforms: field sensors installed at VAS stations, UAVs equipped with multispectral cameras, and satellite missions such as Sentinel-2 and Sentinel-3. All observations follow a common SOSA pattern and share the same structure for results, units and timestamps. By aligning field, UAV and satellite observations under a unified semantic framework, the VAS ontology supports interoperable data access, consistent representation across scales, and integrated analysis of the multi-source measurements collected in ASOTVAS.

Introduction back to ToC

The ASOTVAS (Artificial Intelligence and Semantics of Earth Observation (EO) data for the establishment of the Valencia Anchor Station as a supersite of the CEOS LPV Program) project has enabled the integration of satellite data and field sensors through data semantics, allowing for a more effective validation of data related to climate change and natural resource management. To achieve our objective, an exhaustive analysis of the conceptual and technical needs for the representation of EO data was carried out, which allowed for the definition of a specific semantic vocabulary based on existing ontologies, such as the Sensor, Observation, Sample, and Actuator (SOSA) ontology core of the W3C. The developed ontological model, called “vas”, includes a set of properties and relationships specific to the Valencia Anchor Station domain, allowing for the integration of data from both field sensors and satellites. The basic semantic vocabularies used to instantiate observations made by the sensor system during certain periods of time and to display the results together with their corresponding quantities and units of measurement have been analyzed. In addition, the geolocation of the stations and sensors involved has been included. As a conclusion, it was decided that the most suitable ones are: SOSA, QUDT, Climate and Forecast (CF) Standard Names, W3C TIME, GeoSparql and WGS84. The ontological model developed, called “vas”, includes a set of properties and relationships specific to the Valencia Anchor Station domain, allowing the integration of data from both field and satellite sensors. A representation based on RDF/OWL was used to define the relationships between the data, ensuring interoperability and standardized use of the same. The knowledge map includes information on climatic parameters, emissions, vegetation cover, surface temperature, among others, and allows advanced queries (SPARQL / SQWRL) for the validation and analysis of the EO data. This knowledge map not only facilitates the integration of large volumes of heterogeneous data, but also enables the ability to perform automatic inferences, which improves the ability to detect patterns and obtain new knowledge from existing data. The assertion part of the model is based on the instantiation of observations originating either from field sensors or from satellites. To provide a clearer overview of the structure and scope of the developed ontological model, Figure 1 illustrates the core classes, semantic patterns, and domain-specific extensions that compose the VAS ontology. The diagram summarizes how SOSA-aligned entities—such as Sensor, Observation, Observable Property, Feature of Interest, and Result—are integrated with geospatial, temporal, and unit-of-measure vocabularies, as well as with the VAS-specific concepts created to support satellite, UAV, and ground-based data representation. In addition, an example variable (FAPAR) is highlighted to demonstrate how the ontology enables a unified semantic pathway across different observation platforms. This visual representation serves as a conceptual guide to understand how heterogeneous EO data sources are harmonized within the VAS knowledge domain.

UML Ontology

Figure 1: Global ontology-driven workflow integrating multi-source environmental observations. The diagram depicts the unified semantic structure used to represent observations, sensors, platforms, and derived products across ground-based, satellite, and Unmanned Aerial Vehicle (UAV) systems. All classes involved in the FAPAR (Fraction of Absorbed Photosynthetically Active Radiation) example—covering ground measurements, Sentinel-3 satellite products, and UAV multispectral observations—are highlighted in green. Neutral (white) nodes represent the general ontology backbone shared across any environmental variable. The coloured subgraph illustrates how heterogeneous FAPAR observations converge into common semantic entities such as Observation, Result, Sensor, Platform, and Feature of Interest, enabling interoperability, cross-platform integration, and harmonised data retrieval.

Namespace declarations

Table 1: Namespaces used in the Ontology
dc<http://purl.org/dc/elements/1.1/>
owl<http://www.w3.org/2002/07/owl#>
rdf<http://www.w3.org/1999/02/22-rdf-syntax-ns#>
vas<https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#>
xml<http://www.w3.org/XML/1998/namespace>
xsd<http://www.w3.org/2001/XMLSchema#>
foaf<http://xmlns.com/foaf/0.1/>
qudt<http://qudt.org/schema/qudt/>
rdfs<http://www.w3.org/2000/01/rdf-schema#>
skos<http://www.w3.org/2004/02/skos/core#>
sosa<http://www.w3.org/ns/sosa/>
time<http://www.w3.org/2006/time#>
vann<http://purl.org/vocab/vann/>
terms<http://purl.org/dc/terms/>
schema<http://schema.org/>
geosparql<http://www.opengis.net/ont/geosparql#>
parameter<https://mmisw.org/ont/cf/parameter/>

VAS. A Semantic Model for Earth Observation Remote Sensing: Overview back to ToC

This ontology has the following classes and properties.

Classes

Object Properties

Data Properties

Annotation Properties

Named Individuals

VAS. A Semantic Model for Earth Observation Remote Sensing: Description back to ToC

The VAS ontological model enables the semantic integration of the heterogeneous observations used in ASOTVAS project ( https://robotica.uv.es/proyectos/ASOTVAS/ ), including ground measurements, UAV acquisitions and satellite products. Built as an extension of the W3C SOSA ontology (Janowicz et al., 2018), it incorporates a domain-specific vocabulary tailored to the needs of the Valencia Anchor Station as a CEOS LPV supersite. The model provides additional classes and properties to represent, in a homogeneous way, the different observational platforms: field sensors installed at VAS stations, UAVs equipped with multispectral cameras, and satellite missions such as Sentinel-2 and Sentinel-3. All observations follow a common SOSA pattern and share the same structure for results, units and timestamps. By aligning field, UAV and satellite observations under a unified semantic framework, the VAS ontology supports interoperable data access, consistent representation across scales, and integrated analysis of the multi-source measurements collected in ASOTVAS.

Cross-reference for VAS. A Semantic Model for Earth Observation Remote Sensing classes, object properties and data properties back to ToC

This section provides details for each class and property defined by VAS. A Semantic Model for Earth Observation Remote Sensing.

Classes

A G B Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AGB_Result

Result that normally is obtained by AGB sensors. Unit of measure Unit of measure Mg/ha (Milligram per Hectare)..
has super-classes
Result c

A G B U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AGB_UAV_Observation

Class that represents observations related to AGB (Aboveground Biomass) . Unit of measure Mg/ha (Milligram per Hectare).
has super-classes
U A V Observation c
has sub-classes
U A V Hyperspectral Observation c, U A V Li D A R Observation c

Abstract Curve Segmentc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractCurveSegment

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Geometry c
has sub-classes
Arc String c, Arc String by Bulge c, Arc by Center Point c, Clothoid c, Geodesic String c, Line String Segment c, Offset Curve c, Spline Curve c

Abstract Geometric Primitivec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractGeometricPrimitive

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometry c
has sub-classes
Curve c, Orientable Curve c, Orientable Surface c, Point c, Solid c, Surface c

Abstract Geometryc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractGeometry

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Geometry c
has sub-classes
Abstract Geometric Primitive c, Geometric Complex c, Multi-Geometry c

Abstract Gridded Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractGriddedSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Parametric Curve Surface c
has sub-classes
Cone c, Cylinder c, Sphere c

Abstract Parametric Curve Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractParametricCurveSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Surface Patch c
has sub-classes
Abstract Gridded Surface c

Abstract Surface Patchc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#AbstractSurfacePatch

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Geometry c
has sub-classes
Abstract Parametric Curve Surface c, Polygon Patch c

AdministrativeUnitc back to ToC or Class ToC

IRI: http://schema.org/AdministrativeArea

The European Union understands administrative units as those areas where the Member States have or exercise their jurisdictional rights for the purposes of local, regional and national administration. They are separated by administrative boundaries and are frequently organized hierarchically, reflecting the different degrees of responsibility involved ”[INSPIRE ANNEX 1. Topic 4]. They define the areas of each municipality or condominium, province, autonomous community and Spanish nation.
Is defined by
https://datos.ign.es/def/btn100
has super-classes
has sub-classes
Autonomy c, Country c, Jurisdictional Community c, Municipality c, Province c, Town c
is in range of
Located in op

AEMET_Stationc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/WeatherStation

A weather station is a facility intended to regularly measure and record various meteorological variables.
has super-classes
Ground Station c
has members
A E M E T U T I E L Station ni

Anemometerc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Anemometer

Measures the direction [0º-360º] and the intensity (m/s) of the wind
has super-classes
Ground Based Sensing c
has sub-classes
Anemometer Eddy Covariance c, Anemometer_AEMET c

Anemometer Eddy Covariancec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Anemometer_EddyCovariance

Measures the intensity (m/s) of the wind
has super-classes
Anemometer c
has members
Anemometer Eddy Covariance Sensor 1 ni

Anemometer_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Anemometer

Measures the intensity (m/s) of the wind
has super-classes
Anemometer c
has members
Anemometer A E M E T Sensor U T I E L ni

Arcc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Arc

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Arc String c
has sub-classes
Circle c

Arc by Bulgec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#ArcByBulge

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Arc String by Bulge c

Arc by Center Pointc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#ArcByCenterPoint

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
CircleByCenterPoint c

Arc Stringc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#ArcString

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
Arc c

Arc String by Bulgec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#ArcStringByBulge

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
Arc by Bulge c

Atmosphere Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmosphere_Property

Class that represents all Atmosphere properties
has super-classes
Observable Property c
has members
PWC ni, cloud mask ni, cloud type ni, duration of sunshine ni, precipitation amount ni

Atmospheric Humidity A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Humidity_AEMET_Observation

Class that represents observations related to Atmospheric humidity in AEMET Station. Percent Relative Humidity
has super-classes
Atmospheric Humidity Observation c

Atmospheric Humidity Eddy Covariance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Humidity_EddyCovariance_Observation

Class that represents observations related to Atmospheric humidity in EddyCovariance Station (Gram Per Cubic Metre )
has super-classes
Atmospheric Humidity Observation c

Atmospheric Humidity Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Humidity_Observation

Class that represents observations related to Atmospheric humidity.Unit of measure Percent Relative Humidity.
has super-classes
Ground based Observation c
has sub-classes
Atmospheric Humidity A E M E T Observation c, Atmospheric Humidity Eddy Covariance Observation c

Atmospheric Humidity Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Humidity_Result

Result that is normally obtained by Hygrometer sensors. Unit of measure Percent Relative Humidity.
has super-classes
Result c

Atmospheric Pressure A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Pressure_AEMET_Observation

Class that represents observations related to Atmospheric pressure in AEMET Station. Unit of measure Hectopascal (hPa).
has super-classes
Atmospheric Pressure Observation c

Atmospheric Pressure A E M E T Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Pressure_AEMET_Result

Result that is normally obtained by Barometer sensors. Unit of measure Hectopascal (hPa).
has super-classes
Result c

Atmospheric Pressure Eddy Covariance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Pressure_EddyCovariance_Observation

Class that represents observations related to Atmospheric pressure in EddyCovariance Station. Unit of measure Kilopascal (kPa).
has super-classes
Atmospheric Pressure Observation c

Atmospheric Pressure Eddy Covariance Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Pressure_EddyCovariance_Result

Result that is normally obtained by Barometer sensors. Unit of measure Kilopascal (kPa).
has super-classes
Result c

Atmospheric Pressure Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Atmospheric_Pressure_Observation

Class that represents observations related to Atmospheric pressure
has super-classes
Ground based Observation c
has sub-classes
Atmospheric Pressure A E M E T Observation c, Atmospheric Pressure Eddy Covariance Observation c

Autonomous Cityc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#CiudadAutonoma

Autonomous City to which a geographical phenomenon or an administrative entity belongs
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
Autonomy c

Autonomous Communityc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#ComunidadAutonoma

Autonomous Community to which a geographical phenomenon or an administrative entity belongs
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
Autonomy c
has members
Comunitat Valenciana ni

Autonomyc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#Autonomia

Autonomy (Autonomous Community or Autonomous City) to which a geographical phenomenon or an administrative entity belongs
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
AdministrativeUnit c
has sub-classes
Autonomous City c, Autonomous Community c
is disjoint with
Town c, Jurisdictional Community c, Municipality c, Country c, Province c

Barometerc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Barometer

Measures pressure in hPa
has super-classes
Ground Based Sensing c
has sub-classes
Barometer Eddy Covariance c, Barometer_AEMET c

Barometer Eddy Covariancec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Barometer_EddyCovariance

Measures pressure in kPa. EddyCovariance Station.
has super-classes
Barometer c
has members
Barometer Eddy Covariance Sensor 1 ni

Barometer_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Barometer

Measures pressure in hPa. AEMET Station.
has super-classes
Barometer c
has members
Barometer A E M E T S E N S O R U T I E L ni

Bezierc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Bezier

Is defined by
http://www.opengis.net/ont/gml
has super-classes
BSpline c

BSplinec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#BSpline

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Spline Curve c
has sub-classes
Bezier c

C H M Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CHM_Result

Result that normally is obtained by CHM sensors. Unit of measure Metre.
has super-classes
Result c

C H M U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CHM_UAV_Observation

Class that represents observations related to CHM (Canopy Height Model). Unit of measure Metre.
has super-classes
U A V Observation c

C R I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CRI_Result

Result that normally is obtained by CRI sensors. Dimensionless.
has super-classes
Result c

C R I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CRI_UAV_Observation

Class that represents observations related to CRI (Carotenoide). Dimensionless.
has super-classes
U A V Observation c

Carbon Dioxide Flux gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CarbonDioxideFlux_g

Sensor that takes carbon dioxide flow measurements
has super-classes
Ground Based Sensing c
has members
Carbon Dioxide Flux g Eddy Covariance Sensor 1 ni

Carbon Dioxide Flux Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Carbon_Dioxide_Flux_Observation

Class that represents observations related to Carbon dioxide flux (mg / (m2s))
has super-classes
Ground based Observation c

Carbon Dioxide flux Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Carbon_Dioxide_flux_Result

Result that is normally obtained by CarbonDioxideFlux (carbon dioxide flux) sensors. Unit of measure Milligrams per Square Metre per Second,
has super-classes
Result c

Chl gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_g

Sensor that takes Chlorophyll measurements. From Chl Station.
has super-classes
Ground Based Sensing c
has members
Chl g Sensor 1 ni

Chl L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_L8_Observation

Class that represents observations related to Chlorophyll content. Micromoles of chlorophyll per square metre of leaf surface.
has super-classes
Chl Satellite Observation c

Chl L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_L9_Observation

Class that represents observations related to Chlorophyll content. Micromoles of chlorophyll per square metre of leaf surface.
has super-classes
Chl Satellite Observation c

Chl Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Observation

Class that represents observations related to Chlorophyll content. Micromoles of chlorophyll per square metre of leaf surface.
has super-classes
Ground based Observation c

Chl Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Result

Result that is normally obtained by Chl (Chlorophyll content) sensors. Micromoles of chlorophyll per square metre of leaf surface.Unit of measure Micromoles per Square Metre.
has super-classes
Result c

Chl S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_S2_Observation

Class that represents observations related to Chlorophyll content. Micromoles of chlorophyll per square metre of leaf surface.
has super-classes
Chl Satellite Observation c

Chl Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Satellite_Observation

Class that represents observations related to Chlorophyll content. Micromoles of chlorophyll per square metre of leaf surface.
has super-classes
Satellite Observation c
has sub-classes
Chl L8 Observation c, Chl L9 Observation c, Chl S2 Observation c, O T C I S3 Observation c

Chl Satellite Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Satellite_Result

Result that is normally obtained by Chl (Chlorophyll content) sensors. Micromoles of chlorophyll per square metre of leaf surface. Dimensionless.
has super-classes
Result c

Chl_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Station

Class that represents Chlorophyll content stations
has super-classes
Ground Station c
has members
Chl Station 1 ni

Circlec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Circle

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Arc c

CircleByCenterPointc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#CircleByCenterPoint

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Arc by Center Point c

Clock_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Clock

Mide el tiempo en UTC
has super-classes
Ground Based Sensing c
has members
Clock A E M E T Sensor U T I E L ni

Clothoidc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Clothoid

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c

Cloud Mask M E T E O S A T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudMask_METEOSAT_Observation

Class that represents observations related to cloud mask. Dimensionless.
has super-classes
Satellite Observation c

Cloud Mask Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudMask_Result

Result that normally is obtained by CloudMask_METEOSAT sensors. Dimensionless.
has super-classes
Result c

Cloud Type M E T E O S A T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudType_METEOSAT_Observation

Class that represents observations related to cloud mask. Dimensionless.
has super-classes
Satellite Observation c

Cloud Type Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudType_Result

Result that normally is obtained by by CloudType_METEOSAT sensors. Dimensionless.
has super-classes
Result c

Collectionc back to ToC or Class ToC

IRI: http://www.w3.org/2004/02/skos/core#Collection

A meaningful collection of concepts.
Is defined by
http://www.w3.org/2004/02/skos/core
has sub-classes
Ordered Collection c
is in domain of
has member op
is in range of
has member op
is disjoint with
Concept c, Concept Scheme c

Compositec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Composite

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Geometric Complex c
has sub-classes
Composite Curve c, Composite Solid c, Composite Surface c

Composite Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#CompositeCurve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Composite c, Orientable Curve c
has sub-classes
Ring c

Composite Solidc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#CompositeSolid

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Composite c, Solid c

Composite Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#CompositeSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Composite c, Orientable Surface c
has sub-classes
Shell c

Conceptc back to ToC or Class ToC

IRI: http://www.w3.org/2004/02/skos/core#Concept

An idea or notion; a unit of thought.
Is defined by
http://www.w3.org/2004/02/skos/core
is in domain of
is in semantic relation with op, is top concept in scheme op
is in range of
has member op, has top concept op, is in semantic relation with op
is disjoint with
Collection c, Concept Scheme c

Concept Schemec back to ToC or Class ToC

IRI: http://www.w3.org/2004/02/skos/core#ConceptScheme

A set of concepts, optionally including statements about semantic relationships between those concepts.
Is defined by
http://www.w3.org/2004/02/skos/core
Example 
Thesauri, classification schemes, subject heading lists, taxonomies, 'folksonomies', and other types of controlled vocabulary are all examples of concept schemes. Concept schemes are also embedded in glossaries and terminologies.
is in domain of
has top concept op
is in range of
is in scheme op, is top concept in scheme op
is disjoint with
Collection c, Concept c

Conec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Cone

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Gridded Surface c

Control Areac back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#ControlArea

A Control Area is a spatially delimited region designated to enable consistent environmental observations, calibration activities, and cross-platform validation. It provides a reference zone where measurements can be collected under controlled or well-characterized conditions.
Example 
Examples include small reference plots such as 1×1 m areas, or larger experimental regions such as 10×10 m areas, commonly used in field stations to support calibration and validation workflows
has super-classes
Feature c
is in domain of
Coordinates location op, Located in op, Located in municipality op, Located in province op
is in range of
control Area op
has members
10x10 Area ni, 1x1 Area ni

Countryc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#Pais

A country is a territory with its own geographical and cultural characteristics, which may or may not constitute a sovereign State or a political entity within a State. It is also used as a synonym for State, a set of political institutions endowed with territory, population and sovereignty.
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
AdministrativeUnit c
is disjoint with
Town c, Autonomy c, Jurisdictional Community c, Municipality c, Province c

Cubic Splinec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#CubicSpline

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Polynomial Spline c

Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Curve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c, Orientable Curve c

Cylinderc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Cylinder

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Gridded Surface c

D B H Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DBH_Result

Result that normally is obtained by DBH sensors. Unit of measure Centimetre.
has super-classes
Result c

D B H U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DBH_UAV_Observation

Class that represents observations related to DBH (Diameter at Breast Height). Unit of measure Centimetre
has super-classes
U A V Observation c

D S M Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DSM_Result

Result that normally is obtained by DSM sensors. Unit of measure Metre.
has super-classes
Result c

D S M U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DSM_UAV_Observation

Class that represents observations related to DSM (Digital Surface Model).Unit of measure Metre.
has super-classes
U A V Observation c

D T M Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DTM_Result

Result that normally is obtained by DTM sensors.Unit of measure Metre.
has super-classes
Result c

D T M U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DTM_UAV_Observation

Class that represents observations related to DTM (Digital Terrain Model).Unit of measure Metre.
has super-classes
U A V Observation c

DHP_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DHP_Station

Class that represents Digital Hemispheric Picture (DHP) stations
has super-classes
Ground Station c
has members
D H P Station 1 ni, D H P Station 2 ni, D H P Station 3 ni

Diffuse Irradiance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Diffuse_Irradiance_Observation

Class that represents observations related to Diffuse radiation (W/m2)
has super-classes
Ground based Observation c

Diffuse Irradiance Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Diffuse_Irradiance_Result

Result that is normally obtained by I_dif sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Dimensionless Unitc back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/DimensionlessUnit

A Dimensionless Unit is a quantity for which all the exponents of the factors corresponding to the base quantities in its quantity dimension are zero.
Is defined by
http://qudt.org/2.1/schema/qudt
http://qudt.org/schema/qudt
has super-classes
Unit c

Direct Irradiance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Direct_Irradiance_Observation

Class that represents observations related to Direct solar radiation (W/m2)
has super-classes
Ground based Observation c

Direct Irradiance Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Direct_Irradiance_Result

Result that is normally obtained by I_dir sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Disease Status Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DiseaseStatus_Result

Result that normally is obtained by DiseaseStatus sensors. Dimensionless.
has super-classes
Result c

Disease Status U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DiseaseStatus_UAV_Observation

Class that represents observations related to DiseaseStatus. Dimensionless.
has super-classes
U A V Observation c

Duration of Sunshine A E M E T Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Duration_of_Sunshine_AEMET_Result

Result that is normally obtained by Heliograph sensors in AEMET Station. Unit of measure Hour.
has super-classes
Result c

E V I L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_L8_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI).
has super-classes
E V I Satellite Observation c

E V I L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_L9_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI).
has super-classes
E V I Satellite Observation c

E V I M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_MODIS-Aqua_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI).
has super-classes
E V I Satellite Observation c

E V I M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_MODIS-Terra_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI).
has super-classes
E V I Satellite Observation c

E V I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_Result

Result that is normally obtained by Enhanced Vegetation Index (EVI) sensors. Dimensionless.
has super-classes
Result c

E V I S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_S2_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI).
has super-classes
E V I Satellite Observation c

E V I Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_Satellite_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
E V I L8 Observation c, E V I L9 Observation c, E V I M O D I S Aqua Observation c, E V I M O D I S Terra Observation c, E V I S2 Observation c

E V I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_UAV_Observation

Class that represents observations related to Enhanced Vegetation Index (EVI). DImensionless.
has super-classes
U A V Observation c

EddyCovariance_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EddyCovariance_Station

Eddy covariance systems measure the exchange of CO2, H2O, CH4 , and energy between the earth’s surface and the atmosphere, empowering researchers to advance scientific understanding of climate and ecosystem dynamics
has super-classes
Ground Station c
has members
Eddy Covariance Station 1 ni

F A P A R dhpc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_dhp

Sensor that takes fraction of surface downwelling photosynthetic radiative measurements. From Digital Hemispheric Picture (DHP) Station.
has super-classes
Ground Based Sensing c
has members
F A P A R dhp Sensor 1 ni, F A P A R dhp Sensor 2 ni, F A P A R dhp Sensor 3 ni

F A P A R dhp Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_dhp_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Observation c

F A P A R gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g

Sensor that takes fraction of surface downwelling photosynthetic radiative measurements
has super-classes
Ground Based Sensing c
has members
F A P A R g Sensor 1 ni, F A P A R g Sensor 2 ni, F A P A R g Sensor 3 ni, F A P A R g Sensor 4 ni

F A P A R g Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Observation c

F A P A R L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_L8_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Satellite Observation c

F A P A R L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_L9_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Satellite Observation c

F A P A R M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_MODIS-Aqua_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Satellite Observation c

F A P A R M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_MODIS-Terra_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Satellite Observation c

F A P A R Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
Ground based Observation c
has sub-classes
F A P A R dhp Observation c, F A P A R g Observation c

F A P A R Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Result

Result that normally is obtained by fraction of absorved photosynthetically active radiation (FAPAR) sensors. Dimensionless.
has super-classes
Result c

F A P A R S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_S2_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
F A P A R Satellite Observation c

F A P A R Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Satellite_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
F A P A R L8 Observation c, F A P A R L9 Observation c, F A P A R M O D I S Aqua Observation c, F A P A R M O D I S Terra Observation c, F A P A R S2 Observation c

F A P A R U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_UAV_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
U A V Observation c

F C O V E R dhpc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_dhp

Sensor that takes vegetation area fraction measurements. From Digital Hemispheric Picture (DHP) Station
has super-classes
Ground Based Sensing c
has members
F C O V E R dhp Sensor 1 ni, F C O V E R dhp Sensor 2 ni, F C O V E R dhp Sensor 3 ni

F C O V E R dhp Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_dhp_Observation

Class that represents observations related to FCOVER. Dimensionless.
has super-classes
Ground based Observation c

F C O V E R Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_Result

Result that normally is obtained by FCOVER sensors. Dimensionless.
has super-classes
Result c

FAPAR_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Station

Class that represents fraction of absorved photosynthetically active radiation stations
has super-classes
Ground Station c
has members
FAPAR_Station_1 ni, FAPAR_Station_2 ni, FAPAR_Station_3 ni, FAPAR_Station_4 ni

Featurec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/geosparql#Feature

This class represents the top-level feature type. This class is equivalent to GFI_Feature defined in ISO 19156:2011, and it is superclass of all feature types.
This class represents the top-level feature type. This class is equivalent to GFI_Feature defined in ISO 19156:2011, and it is superclass of all feature types.
This class represents the top-level feature type. This class is equivalent to GFI_Feature defined in ISO 19156:2011, and it is superclass of all feature types.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/ont/gml
http://www.opengis.net/spec/geosparql/1.0
has super-classes
SpatialObject c
has sub-classes
Control Area c, Platform c, Satellite Product c
is in domain of
defaultGeometry op, hasGeometry op
is disjoint with
Geometry c

Feature Of Interestc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/FeatureOfInterest

The thing whose property is being estimated or calculated in the course of an Observation to arrive at a Result or whose property is being manipulated by an Actuator, or which is being sampled or transformed in an act of Sampling.
The thing whose property is being estimated or calculated in the course of an Observation to arrive at a Result or whose property is being manipulated by an Actuator, or which is being sampled or transformed in an act of Sampling.
Example 
When measuring the height of a tree, the height is the observed ObservableProperty, 20m may be the Result of the Observation, and the tree is the FeatureOfInterest. A window is a FeatureOfInterest for an automatic window control Actuator.
is equivalent to
{ Air ni , Atmosphere of Earth ni , Land surface ni , Radiation ni , Soil ni , Vegetation ni }
is in domain of
has sample op, is feature of interest of op
is in range of
has feature of interest op, is sample of op
has members
Air ni, Atmosphere of Earth ni, Land surface ni, Radiation ni, Soil ni, Vegetation ni

G I F A P A R Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GIFAPAR_Result

Result that normally is obtained by Green Instantaneous Fraction of Absorved photosynthetically active Radiation (GIFAPAR) sensors. In this ontology by the Remote Sensing from Sentinel-3 OLCI ( RS_Sentinel-3_OLCI). Dimesionless.
has super-classes
Result c

G I F A P A R S3 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GIFAPAR_S3_Observation

Class that represents observations related to Green Instantaneous Fraction of Absorbed Photosynthetically Active Radiation (GI-FAPAR) (300 m de resolution)). Dimensionless.
has super-classes
G I F A P A R Satellite Observation c

G I F A P A R Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GIFAPAR_Satellite_Observation

Class that represents observations related to fraction of absorved photosynthetically active radiation (FAPAR). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
G I F A P A R S3 Observation c

Geodesicc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Geodesic

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Geodesic String c

Geodesic Stringc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#GeodesicString

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
Geodesic c

Geometric Complexc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#GeometricComplex

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometry c
has sub-classes
Composite c

Geometryc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/geosparql#Geometry

The class represents the top-level geometry type. This class is equivalent to the UML class GM_Object defined in ISO 19107, and it is superclass of all geometry types.
The class represents the top-level geometry type. This class is equivalent to the UML class GM_Object defined in ISO 19107, and it is superclass of all geometry types.
The class represents the top-level geometry type. This class is equivalent to the UML class GM_Object defined in ISO 19107, and it is superclass of all geometry types.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/ont/gml
http://www.opengis.net/spec/geosparql/1.0
has super-classes
SpatialObject c
has sub-classes
Abstract Curve Segment c, Abstract Geometry c, Abstract Surface Patch c
is in domain of
as G M L dp, as W K T dp, coordinateDimension dp, dimension dp, has Serialization dp, isEmpty dp, isSimple dp, spatialDimension dp
is in range of
defaultGeometry op, hasGeometry op
is disjoint with
Feature c

Ground Based Sensingc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Ground_Based_Sensing

Ground Base Sensors
has super-classes
Sensor c
has sub-classes
Anemometer c, Barometer c, Carbon Dioxide Flux g c, Chl g c, Clock_AEMET c, F A P A R dhp c, F A P A R g c, F C O V E R dhp c, Heliograph_AEMET c, Hs g c, Hygrometer c, I dif g c, I dir g c, L A I dhp c, L A I g c, L E g c, L S E g c, L S T g c, L W down g c, L W up g c, N2 g c, Pluviometer c, R N g c, S M g c, S W down g c, S W up g c, SurfaceAlbedo_g c, Thermometer c, Water Vapour Flux g c, Wind Vane c

Ground Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Ground_Station

A Ground Station is defined as a physical platform located on the Earth’s surface that hosts one or more sensors used to perform in-situ environmental observations.
has super-classes
Platform c
has sub-classes
AEMET_Station c, Chl_Station c, DHP_Station c, EddyCovariance_Station c, FAPAR_Station c, LAI_Station c, LSE_Station c, LST_Station c, N2_Station c, RAD_Station c, SM_Station c

Heliograph_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Heliograph

Sensor belongs to AEMET Station.Measures the duration of sunshine in hours
has super-classes
Ground Based Sensing c
has members
Heliograph A E M E T Sensor U T I E L ni

Hs gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hs_g

Sensor that takes sensible heat flux measurements
has super-classes
Ground Based Sensing c
has members
Hs g Eddy Covariance Sensor 1 ni

Hygrometerc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hygrometer

Measures relative humidity in %
has super-classes
Ground Based Sensing c
has sub-classes
Hygrometer Eddy Covariance c, Hygrometer_AEMET c

Hygrometer Eddy Covariancec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hygrometer_EddyCovariance

Sensor belongs to EddyCovariance Station. Measures relative humidity in %
has super-classes
Hygrometer c
has members
Hygrometer Eddy Covariance Sensor 1 ni

Hygrometer_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Hygrometer

Sensor belongs to AEMET Station. Measures relative humidity in %
has super-classes
Hygrometer c
has members
Hygrometer A E M E T Sensor U T I E L ni

I dif gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#I_dif_g

Sensor that takes "diffuse irradiance at the surface" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
I dif g R A D Sensor 1 ni

I dir gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#I_dir_g

Sensor that takes "direct irradiance at the surface" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
I dir g R A D Sensor 1 ni

Image Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Image_Result

Image Result let us assign URIs to the image properties. Dimensionless.
has super-classes
Result c

Insolation A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Insolation_AEMET_Observation

Class that represents observations related to Heliograph (Duration of the sunshine in Hours).
has super-classes
Ground based Observation c

Jurisdictional Communityc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#ComunidadJurisdiccional

Jurisdictional Community
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
AdministrativeUnit c
is disjoint with
Town c, Autonomy c, Municipality c, Country c, Province c

L A I dhpc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_dhp

Leaf Area Index Sensor from Digital Hemispheric Picture (DHP) Station
has super-classes
Ground Based Sensing c
has members
L A I dhp Sensor 1 ni, L A I dhp Sensor 2 ni, L A I dhp Sensor 3 ni

L A I dhp Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_dhp_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
L A I Observation c

L A I gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_g

Leaf Area Index Sensor from Leaf Area Index (LAI) Station
has super-classes
Ground Based Sensing c
has members
L A I g Sensor 1 ni, L A I g Sensor 2 ni

L A I g Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_g_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
L A I Observation c

L A I L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_L8_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
L A I Satellite Observation c

L A I L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_L9_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
L A I Satellite Observation c

L A I Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
Ground based Observation c
has sub-classes
L A I dhp Observation c, L A I g Observation c

L A I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Result

Result that is normally obtained by Leaf Area Index (LAI) sensors. Dimensionless.
has super-classes
Result c

L A I S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_S2_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
L A I Satellite Observation c

L A I Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Satellite_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
L A I L8 Observation c, L A I L9 Observation c, L A I S2 Observation c

L A I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_UAV_Observation

Class that represents observations related to Leaf Area Index (LAI). Dimensionless.
has super-classes
U A V Observation c

L E gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LE_g

Sensor that takes evapotranspiration measurements
has super-classes
Ground Based Sensing c
has members
L E g Eddy Covariance Sensor 1 ni

L S E gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g

Sensor that takes Land Surface Emissivity measurements
has super-classes
Ground Based Sensing c
has members
L S E g Sensor 1 ni, L S E g Sensor 2 ni, L S E g Sensor 3 ni, L S E g Sensor 4 ni, L S E g Sensor 5 ni, L S E g Sensor 6 ni

L S E Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Observation

Class that represents observations related to Land Surface Emissivity. Dimensionless.
has super-classes
Ground based Observation c

L S E Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Result

Result that is normally obtained by Land Surface Emissivity (LSE) sensors. Dimensionless.
has super-classes
Result c

L S T 8days 1km M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_8days_1km_MODIS-Aqua_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T 8days 1km M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_8days_1km_MODIS-Terra_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T diary 1km M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_diary_1km_MODIS-Aqua_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T diary 1km M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_diary_1km_MODIS-Terra_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_g

Sensor that takes Land Surface Temperature measurements
has super-classes
Ground Based Sensing c
has members
L S T g Sensor 1 ni

L S T L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_L8_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_L9_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
Ground based Observation c

L S T Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_Result

Result that is normally obtained by Land Surface Temperature (LST) sensors. Unit of measure Degree Celsius .
has super-classes
Result c

L S T S3 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_S3_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
L S T Satellite Observation c

L S T Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_Satellite_Observation

Class that represents observations related to Land Surface Temperature (LST). Celsius Degree.
has super-classes
Satellite Observation c
has sub-classes
L S T 8days 1km M O D I S Aqua Observation c, L S T 8days 1km M O D I S Terra Observation c, L S T L8 Observation c, L S T L9 Observation c, L S T S3 Observation c, L S T diary 1km M O D I S Aqua Observation c, L S T diary 1km M O D I S Terra Observation c

L S T U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_UAV_Observation

Class that represents observations related to Land Surface Temperature (LST). Unit of measure Degree Celsius.
has super-classes
U A V Observation c

L W down gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LW_down_g

Sensor that takes "surface downwelling longwave flux in air" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
L W down g R A D Sensor 1 ni

L W up gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LW_up_g

Sensor that takes "upwelling longwave flux in air" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
L W up g R A D Sensor 1 ni

LAI_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Station

Class that represents Leaf Aea Index (LAI) stations
has super-classes
Ground Station c
has members
L A I Station 1 ni, L A I Station 2 ni

Land Atmosphere Interaction Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Land_Atmosphere_Interaction_Property

Class that represents all Land Atmosphere Interation properties
has super-classes
Observable Property c
has members
Carbon_Dioxide_Flux ni, PWC ni, sensible_heat_flux ni, surface water evaporation flux ni, water evapotranspiration flux ni

Land Cover Classesc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Land_Cover_Classes

Land Cover Classes, Level 3
is equivalent to
{ Artificial Surfaces ni , Bare Soils ni , Coniferous Forest ni , Non-irrigated arable land ni , Permanently irrigated land ni , Sclerophyllous vegetation ni , Vineyards ni , Fruit trees and berry plantations (olive, almond) ni }
is in domain of
code C L C dp
is in range of
has Type Of Cover op
has members
Artificial Surfaces ni, Bare Soils ni, Coniferous Forest ni, Fruit trees and berry plantations (olive, almond) ni, Non-irrigated arable land ni, Permanently irrigated land ni, Sclerophyllous vegetation ni, Vineyards ni

Land Cover Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Land_Cover_Property

Class that represents all Land Cover properties
has super-classes
Observable Property c

Land Cover Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LandCover_Result

Result that is normally obtained by LandCover_S2 sensors. Dimensionless.
has super-classes
Result c

Land Cover S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LandCover_S2_Observation

Class that represents observations related to Land Cover LCCS.
has super-classes
Satellite Observation c

Land Surface Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Land_Surface_Property

Class that represents all Land Surface properties (Temperature, Emissivity, Aspect , Slope, Elevation ...)
has super-classes
Observable Property c
has members
LST ni, surface longwave emissivity ni

Landsat-8c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-8

has super-classes
Satellite c
has members
Landsat 8 Satellite ni

Landsat-8_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-8_Product

Class that represents Landsat-8 products
has super-classes
Satellite Product c
is in domain of
Cloud cover dp, Cloud cover land dp, Collection category dp, Date acquired dp, Datum dp, Footprint dp, Image quality OLI dp, Image quality TIRS dp, Landsat product ID dp, Map projection dp, Orientation dp, Origin dp, UTM zone dp, landsat8 Product Properties dp
has members
Landsat 8 Product 1 ni

Landsat-8_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-9_Product

Class that represents Landsat-9 Products
has super-classes
Satellite Product c
has members
Landsat 9 Product 1 ni

Landsat-9c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-9

has super-classes
Satellite c
has members
Landsat 9 Satellite ni

Latent Heat Flux Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Latent_Heat_Flux_Observation

Class that represents observations related to Latent Heat Flux (W/m2).
has super-classes
Ground based Observation c

Latent Heat Flux Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Latent_Heat_Flux_Result

Result that is normally obtained by LE_g (evapotranspiration ground) sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Line Stringc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#LineString

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Line String Segment c

Line String Segmentc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#LineStringSegment

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
Line String c

Linear Ringc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#LinearRing

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Ring c

LSE_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station

Class that represents Land Surface Emissivity (LSE) stations
has super-classes
Ground Station c
has members
L S E Station 1 ni, L S E Station 2 ni, L S E Station 3 ni, L S E Station 4 ni, L S E Station 5 ni, L S E Station 6 ni

LST_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_Station

Class that represents Land Surface Temperature (LST) stations
has super-classes
Ground Station c
has members
L S T Station 1 ni

Meteorology Propertyc back to ToC or Class ToC

IRI: http://dbpedia.org/resource/Meteorology_Property

Class that represents all Meteorological properties
has super-classes
Observable Property c
has members
Humidity ni, air pressure ni, air temperature ni, relative humidity ni, wind from direction ni, wind speed ni

METEOSATc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#METEOSAT

has super-classes
Satellite c
has members
M E T E O S A T Satellite ni

METEOSAT_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#METEOSAT_Product

Class that represents METEOSAT Products
has super-classes
Satellite Product c
has members
M E T E O S A T Product 1 ni

MODIS-Aquac back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Aqua

has super-classes
Satellite c
has members
M O D I S Aqua Satellite ni

MODIS-Aqua_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Aqua_Product

Class that represents MODIS-Aqua Products
has super-classes
Satellite Product c
is in domain of
Longname dp, Scale Factor dp, Unit dp, modis Product Properties dp
has members
M O D I S Aqua Product 1 ni

MODIS-Terrac back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Terra

has super-classes
Satellite c
has members
M O D I S Terra Satellite ni

MODIS-Terra_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Terra_Product

Class that represents MODIS-Terra Products
has super-classes
Satellite Product c
is in domain of
Longname dp, Scale Factor dp, Unit dp, modis Product Properties dp
has members
M O D I S Terra Product 1 ni

Multi-Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#MultiCurve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Multi-Geometry c

Multi-Geometryc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#MultiGeometry

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometry c
has sub-classes
Multi-Curve c, Multi-Point c, Multi-Solid c, Multi-Surface c

Multi-Pointc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#MultiPoint

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Multi-Geometry c

Multi-Solidc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#MultiSolid

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Multi-Geometry c

Multi-Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#MultiSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Multi-Geometry c

Municipalityc back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#Municipio

A municipality is an administrative entity that can group a single locality or several, it can refer to a city or a town.
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
AdministrativeUnit c
is in range of
Located in municipality op
has members
Caudete de las Fuentes ni, Utiel ni
is disjoint with
Town c, Autonomy c, Jurisdictional Community c, Country c, Province c

N D V I 16days 1km M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_1km_MODIS-Aqua_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I 16days 1km M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_1km_MODIS-Terra_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I 16days 250m M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_250m_MODIS-Aqua_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I 16days 250m M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_250m_MODIS-Terra_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I 16days 500m M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_500m_MODIS-Aqua_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I 16days 500m M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_500m_MODIS-Terra_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I diary 500m M O D I S Aqua Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_diary_500m_MODIS-Aqua_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I diary 500m M O D I S Terra Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_diary_500m_MODIS-Terra_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_L8_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_L9_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_Result

Result that is normally obtained by Normalized Difference Vegetation Index (NDVI) sensors. Dimensionless.
has super-classes
Result c

N D V I S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_S2_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI).
has super-classes
N D V I Satellite Observation c

N D V I Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_Satellite_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
N D V I 16days 1km M O D I S Aqua Observation c, N D V I 16days 1km M O D I S Terra Observation c, N D V I 16days 250m M O D I S Aqua Observation c, N D V I 16days 250m M O D I S Terra Observation c, N D V I 16days 500m M O D I S Aqua Observation c, N D V I 16days 500m M O D I S Terra Observation c, N D V I L8 Observation c, N D V I L9 Observation c, N D V I S2 Observation c, N D V I diary 500m M O D I S Aqua Observation c, N D V I diary 500m M O D I S Terra Observation c

N D V I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_UAV_Observation

Class that represents observations related to Normalized Difference Vegetation Index (NDVI). Dimensionless.
has super-classes
U A V Observation c

N D W I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDWI_Result

Result that normally is obtained by NDWI sensors. Dimensionless.
has super-classes
Result c

N D W I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDWI_UAV_Observation

Class that represents observations related to NDWI – Normalized Difference Water Index. Dimensionless.
has super-classes
U A V Observation c

N R I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NRI_Result

Result that normally is obtained by NRI sensors. Dimensionless.
has super-classes
Result c

N R I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NRI_UAV_Observation

Class that represents observations related to NRI (Nitrogen Reflectance Index).Dimensionless.
has super-classes
U A V Observation c

N2 gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#N2_g

Sensor that takes nitrogen dioxide measurements. From N2 Station.
has super-classes
Ground Based Sensing c
has members
N2 g Sensor 1 ni

N2_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#N2_Station

Class that represents Nitrogen concentration stations
has super-classes
Ground Station c
has members
N2 Station 1 ni

Nitrogen Concentration Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Nitrogen_Concentration_Observation

Class that represents observations related to Nitrogen dioxide concentration (mg/g).
has super-classes
Ground based Observation c

Nitrogen Concentration Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Nitrogen_Concentration_Result

Result that is normally obtained by N2 (nitrogene dioxide) sensors. Unit of measure Milligram per Gram.
has super-classes
Result c

O R T H O P H O T O U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#ORTHOPHOTO_UAV_Observation

Class that represents observations related to Orthophoto. Dimensionless.
has super-classes
U A V Observation c

O T C I S3 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#OTCI_S3_Observation

Class that represents observations related to OLCI Terrestrial Chlorophyll Index (OTCI) (300 m de resolución)). µmol of chlorophyll per m²µ.
has super-classes
Chl Satellite Observation c

Observable Propertyc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/ObservableProperty

An observable quality (property, characteristic) of a FeatureOfInterest.
An observable quality (property, characteristic) of a FeatureOfInterest.
Example 
The height of a tree, the depth of a water body, or the temperature of a surface are examples of observable properties, while the value of a classic car is not (directly) observable but asserted.
has sub-classes
Atmosphere Property c, Land Atmosphere Interaction Property c, Land Cover Property c, Land Surface Property c, Meteorology Property c, Radiation Property c, Soil Property c, Vegetation Property c
is in domain of
is observed by op
is in range of
observed property op, observes op

Observationc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/Observation

Act of carrying out an (Observation) Procedure to estimate or calculate a value of a property of a FeatureOfInterest. Links to a Sensor to describe what made the Observation and how; links to an ObservableProperty to describe what the result is an estimate of, and to a FeatureOfInterest to detail what that property was associated with.
Act of carrying out an (Observation) Procedure to estimate or calculate a value of a property of a FeatureOfInterest. Links to a Sensor to describe what made the Observation and how; links to an ObservableProperty to describe what the result is an estimate of, and to a FeatureOfInterest to detail what that property was associated with.
Example 
The activity of estimating the intensity of an Earthquake using the Mercalli intensity scale is an Observation as is measuring the moment magnitude, i.e., the energy released by said earthquake.
has sub-classes
Ground based Observation c, Satellite Observation c, U A V Observation c
is in domain of
has feature of interest op, has result op, made by sensor op, observed property op, result time dp
is in range of
is feature of interest of op, is result of op, made observation op

Offset Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#OffsetCurve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c

Ordered Collectionc back to ToC or Class ToC

IRI: http://www.w3.org/2004/02/skos/core#OrderedCollection

An ordered collection of concepts, where both the grouping and the ordering are meaningful.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-classes
Collection c
is in domain of
has member list op

Orientable Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#OrientableCurve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c
has sub-classes
Composite Curve c, Curve c

Orientable Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#OrientableSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c
has sub-classes
Composite Surface c, Surface c

P W C M E T E O S A T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#PWC_METEOSAT_Observation

Class that represents observations related to precipitable_water_content . Unit of measure Millimetre (mm)..
has super-classes
Satellite Observation c

P W C Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#PWC_Result

Result that is normally obtained by PWC_METEOSAT sensors. Precipitable Water Content Result. Unit of measure Millimetre (mm).
has super-classes
Result c

Platformc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/Platform

A Platform is an entity that hosts other entities, particularly Sensors, Actuators, Samplers, and other Platforms.
A Platform is an entity that hosts other entities, particularly Sensors, Actuators, Samplers, and other Platforms.
Example 
A post, buoy, vehicle, ship, aircraft, satellite, cell-phone, human or animal may act as platforms for (technical or biological) sensors or actuators.
has super-classes
Feature c
has sub-classes
Ground Station c, Satellite c, UAV c
is in domain of
Coordinates location op, Located in op, Located in municipality op, Located in province op, hosts op, is hosted by op
is in range of
hosts op, is hosted by op

Pluviometerc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Pluviometer

has super-classes
Ground Based Sensing c
has members
Pluviometer A E M E T Sensor U T I E L ni

Pointc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Point

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c

Pointc back to ToC or Class ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#Point

Uniquely identified by lat/long/alt. i.e. spaciallyIntersects(P1, P2) :- lat(P1, LAT), long(P1, LONG), alt(P1, ALT), lat(P2, LAT), long(P2, LONG), alt(P2, ALT). sameThing(P1, P2) :- type(P1, Point), type(P2, Point), spaciallyIntersects(P1, P2).
Is defined by
http://www.w3.org/2003/01/geo/wgs84_pos#
has super-classes
Spatial thing c

Polygonc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Polygon

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Surface c

Polygon Patchc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#PolygonPatch

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Surface Patch c
has sub-classes
Rectangle c, Triangle c

Polyhedral Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#PolyhedralSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Surface c
has sub-classes
Triangulated Surface c

Polynomial Splinec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#PolynomialSpline

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Spline Curve c
has sub-classes
Cubic Spline c

Precipitation A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Precipitation_AEMET_Observation

Class that represents observations related to precipitation (mm).
has super-classes
Ground based Observation c

Precipitation A E M E T Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Precipitation_AEMET_Result

Result that is normally obtained by Pluviometer_AEMET sensors in AEMET Staion. Unit of measure Millimetre (mm).
has super-classes
Result c

Provincec back to ToC or Class ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#Provincia

A province is a subnational entity of the State
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has super-classes
AdministrativeUnit c
is in range of
Located in province op
has members
Valencia/València ni
is disjoint with
Town c, Autonomy c, Jurisdictional Community c, Municipality c, Country c

Quantifiablec back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/Quantifiable

Quantifiable ascribes to some thing the capability of being measured, observed, or counted.
Is defined by
<http://qudt.org/2.1/schema/shacl/qudt> <http://qudt.org/2.1/schema/qudt>
has sub-classes
Quantity value c

Quantity valuec back to ToC or Class ToC

IRI: http://qudt.org/schema/qudt/QuantityValue

A <i>Quantity Value</i> expresses the magnitude and kind of a quantity and is given by the product of a numerical value <code>n</code> and a unit of measure <code>U</code>. The number multiplying the unit is referred to as the numerical value of the quantity expressed in that unit. Refer to <a href=http://physics.nist.gov/Pubs/SP811/sec07.html>NIST SP 811 section 7</a> for more on quantity values.
Is defined by
http://qudt.org/2.1/schema/qudt
http://qudt.org/schema/qudt
has super-classes
Concept c, Quantifiable c
has sub-classes
Result c

R N gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RN_g

Sensor that takes "surface net radiation" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
R N g R A D Sensor 1 ni

R S Landsat 8c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Landsat-8

Represents the general sensorization of satellite Landsat-8. Observes Chl, EVI, FAPAR, LAI, LST, NDVI, ,SAVI, SR, TDVI ...
has super-classes
Remote Sensing Satellites c
has members
Chl L8 Sensor 1 ni, E V I L8 Sensor 1 ni, F A P A R L8 Sensor 1 ni, L A I L8 Sensor 1 ni, L S T L8 Sensor 1 ni, N D V I L8 Sensor 1 ni, S A V I L8 Sensor 1 ni, S R L8 Sensor 1 ni

R S Landsat 9c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Landsat-9

Represents the general sensorization of satellite Lansat-9.Observes Chl, EVI, FAPAR, LAI, LST, NDVI, ,SAVI, SR, TDVI ...
has super-classes
Remote Sensing Satellites c
has members
Chl L9 Sensor 1 ni, E V I L9 Sensor 1 ni, F A P A R L9 Sensor 1 ni, L A I L9 Sensor 1 ni, L S T L9 Sensor 1 ni, N D V I L9 Sensor 1 ni, S A V I L9 Sensor 1 ni, S R L9 Sensor 1 ni

R S M E T E O S A Tc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_METEOSAT

Represents the general sensorization of satellite METEOSAT. Observes CloudMask, CloudType and PWC.
has super-classes
Remote Sensing Satellites c
has members
Cloud Mask M E T E O S A T Sensor 1 ni, Cloud Type M E T E O S A T Sensor 1 ni, P W C M E T E O S A T Sensor 1 ni

R S M O D I S Aquac back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_MODIS-Aqua

Represents the general sensorization of satellite MODIS-Aqua. Observes EVI , FAPAR, LST, NDVI, ...
has super-classes
Remote Sensing Satellites c
has members
E V I diary 500m a Sensor 1 ni, F A P A R 8days 500m a Sensor 1 ni, L S T 8days 1km a Sensor 1 ni, L S T diary 1km a Sensor 1 ni, N D V I 16days 1km a Sensor 1 ni, N D V I 16days 250m a Sensor 1 ni, N D V I 16days 500m a Sensor 1 ni, N D V I diary 500m a Sensor 1 ni

R S M O D I S Terrac back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_MODIS-Terra

Represents the general sensorization of satellite MODIS-Terra. Observes EVI , FAPAR, LST, NDVI, ...
has super-classes
Remote Sensing Satellites c
has members
E V I diary 500m t Sensor 1 ni, F A P A R 8days 500m t Sensor 1 ni, L S T 8days 1km t Sensor 1 ni, L S T diary 1km t Sensor 1 ni, N D V I 16days 1km t Sensor 1 ni, N D V I 16days 250m t Sensor 1 ni, N D V I 16days 500m t Sensor 1 ni, N D V I diary 500m t Sensor 1 ni

R S S M A Pc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_SMAP

Represents the general sensorization of SMAP. Observes Soil Moisture.
has super-classes
Remote Sensing Satellites c
has members
S M S M A P 36km Sensor 1 ni, S M S M A P S1 3km Sensor 1 ni, S M S M A P S1 9km Sensor 1 ni

R S S M O Sc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_SMOS

Represents the general sensorization of satellite SMOS. Observes AGB, DroughtIndex, Soil Moisture.
has super-classes
Remote Sensing Satellites c
has members
A G B S M O S C A T D S Sensor 1 ni, Drought Index S M O S C A T D S Sensor 1 ni, Roughness S M O S C A T D S Sensor 1 ni, S M N R T S M O S E S A Sensor 1 ni, S M S M O S B E C Sensor 1 ni, S M S M O S E S A Sensor 1 ni, S M S M O S I C C A T D S Sensor 1 ni, S M freeze and Thaw S M O S E S A Sensor 1 ni

R S Sentinel 1c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Sentinel-1

Represents the general sensorization of satellite Sentinel 1 or S1. Observes Soil Moisture.
has super-classes
Remote Sensing Satellites c
has members
S M S1 Sensor 1 ni

R S Sentinel 2c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Sentinel-2

Represents the general sensorization of satellite Sentinel 2 or S2. Observes Chl, EVI, FAPAR, LAI, LandCover, NDVI, SAVI, SR ...
has super-classes
Remote Sensing Satellites c
has members
Chl S2 Sensor 1 ni, E V I S2 Sensor 1 ni, F A P A R S2 Sensor 1 ni, L A I S2 Sensor 1 ni, Land Cover S2 Sensor 1 ni, N D V I S2 Sensor 1 ni, S A V I S2 Sensor 1 ni, S R S2 Sensor 1 ni

R S Sentinel 3 O L C Ic back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Sentinel-3_OLCI

Represents the general sensorization of satellite Sentinel 3 ( S3) OLCI. Observes FAPAR , Chl.
has super-classes
Remote Sensing Satellites c
has members
G I F A P A R S3 Sensor 1 ni, O T C I S3 Sensor 1 ni

R S Sentinel 3 S L S T Rc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_Sentinel-3_SLSTR

Represents the general sensorization of satellite Sentinel 3 ( S3) SLSTR. Observes LST.
has super-classes
Remote Sensing Satellites c
has members
L S T S3 Sensor 1 ni

R S U A V Hyperspectralc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_Hyperspectral

Represents the general sensorization of RS_UAV_Hyperspectral. Observes NRI, CRI, NDWI, AGB. DiseaseStatus.
has super-classes
Remote Sensing U A Vs c
has members
A G B U A V Hyperspectral Sensor 1 ni, C R I U A V Hyperspectral Sensor 1 ni, Disease Status U A V Hyperspectral Sensor 1 ni, N D W I U A V Hyperspectral Sensor 1 ni, N R I U A V Hyperspectral Sensor 1 ni

R S U A V Li D A Rc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_LiDAR

Represents the general sensorization of RS_UAV_LiDAR. Observes CHM, DTM, DSM. DBH, AGB.
has super-classes
Remote Sensing U A Vs c
has members
A G B U A V Li D A R Sensor 1 ni, C H M U A V Li D A R Sensor 1 ni, D B H U A V Li D A R Sensor 1 ni, D S M U A V Li D A R Sensor 1 ni, D T M U A V Li D A R Sensor 1 ni

R S U A V Microwavec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_Microwave

Represents the general sensorization of RS_UAV_Microwave. Observes SM.
has super-classes
Remote Sensing U A Vs c
has members
S M U A V Microwave Sensor 1 ni

R S U A V Multispectralc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_Multispectral

Represents the general sensorization of RS_UAV_Multispectral. Observes EVI, FAPAR, LAI, NDVI, ,SAVI y SR.
has super-classes
Remote Sensing U A Vs c
has members
E V I U A V Multispectral Sensor 1 ni, F A P A R U A V Multispectral Sensor 1 ni, L A I U A V Multispectral Sensor 1 ni, N D V I U A V Multispectral Sensor 1 ni, S A V I U A V Multispectral Sensor 1 ni, S R U A V Multispectral Sensor 1 ni

R S U A V R G Bc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_RGB

Represents the general sensorization of RS_UAV_RGB. Observes ORTHOPHOTO
has super-classes
Remote Sensing U A Vs c
has members
Orthophoto U A V R G B Sensor 1 ni

R S U A V Thermalc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RS_UAV_Thermal

Represents the general sensorization of RS_UAV_Thermal. Observes LST.
has super-classes
Remote Sensing U A Vs c
has members
L S T U A V Thermal Sensor 1 ni

RAD_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RAD_Station

Class that represents solar radiation stations
has super-classes
Ground Station c
has members
R A D Station 1 ni

Radiation Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Radiation_Property

Class that represents all Radiation properties
has super-classes
Observable Property c
has members
diffuse_irradiance ni, direct_irradiance_at_the_surface ni, soil albedo ni, surface downwelling longwave flux in air ni, surface downwelling shortwave flux in air ni, surface net radiation ni, upwelling longwave flux in air ni, upwelling shortwave flux in air ni

Rectanglec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Rectangle

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Polygon Patch c

Remote Sensing Satellitesc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Remote_Sensing_Satellites

Satellite Sensors (remote sensing).
has super-classes
Sensor c
has sub-classes
R S Landsat 8 c, R S Landsat 9 c, R S M E T E O S A T c, R S M O D I S Aqua c, R S M O D I S Terra c, R S S M A P c, R S S M O S c, R S Sentinel 1 c, R S Sentinel 2 c, R S Sentinel 3 O L C I c, R S Sentinel 3 S L S T R c

Remote Sensing U A Vsc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Remote_Sensing_UAVs

Drone Sensors (remote sensing).
has super-classes
Sensor c
has sub-classes
R S U A V Hyperspectral c, R S U A V Li D A R c, R S U A V Microwave c, R S U A V Multispectral c, R S U A V R G B c, R S U A V Thermal c

Resultc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/Result

The Result of an Observation, Actuation, or act of Sampling. To store an observation's simple result value one can use the hasSimpleResult property.
The Result of an Observation, Actuation, or act of Sampling. To store an observation's simple result value one can use the hasSimpleResult property.
Example 
The value 20 as the height of a certain tree together with the unit, e.g., Meter.
has super-classes
Quantity value c
has sub-classes
A G B Result c, Atmospheric Humidity Result c, Atmospheric Pressure A E M E T Result c, Atmospheric Pressure Eddy Covariance Result c, C H M Result c, C R I Result c, Carbon Dioxide flux Result c, Chl Result c, Chl Satellite Result c, Cloud Mask Result c, Cloud Type Result c, D B H Result c, D S M Result c, D T M Result c, Diffuse Irradiance Result c, Direct Irradiance Result c, Disease Status Result c, Duration of Sunshine A E M E T Result c, E V I Result c, F A P A R Result c, F C O V E R Result c, G I F A P A R Result c, Image Result c, L A I Result c, L S E Result c, L S T Result c, Land Cover Result c, Latent Heat Flux Result c, N D V I Result c, N D W I Result c, N R I Result c, Nitrogen Concentration Result c, P W C Result c, Precipitation A E M E T Result c, S A V I Result c, S M Result c, S R Result c, Sensible Heat Flux Result c, Soil Result c, Surface Albedo Result c, Surface Downwelling Longwave Flux In Air Result c, Surface Downwelling Shortwave Flux In Air Result c, Surface Net Radiation Result c, Temperature Result c, Upwelling Longwave Flux In Air Result c, Upwelling Shortwave Flux In Air Result c, Vegetation Result c, Water Vapour Flux Result c, Wind Direction Result c, Wind Speed Result c
is in domain of
is result of op
is in range of
has result op

Ringc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Ring

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Composite Curve c
has sub-classes
Linear Ring c

S A V I L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_L8_Observation

Class that represents observations related to Soil Adjusted Vegetation Index (SAVI).
has super-classes
S A V I Satellite Observation c

S A V I L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_L9_Observation

Class that represents observations related to Soil Adjusted Vegetation Index (SAVI).
has super-classes
S A V I Satellite Observation c

S A V I Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_Result

Result that is normally obtained by Soil Adjusted Vegetation Index (SAVI) sensors. Dimensionless.
has super-classes
Result c

S A V I S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_S2_Observation

Class that represents observations related to Soil Adjusted Vegetation Index (SAVI).
has super-classes
S A V I Satellite Observation c

S A V I Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_Satellite_Observation

Class that represents observations related to Soil Adjusted Vegetation Index (SAVI). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
S A V I L8 Observation c, S A V I L9 Observation c, S A V I S2 Observation c

S A V I U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_UAV_Observation

Class that represents observations related to Soil Adjusted Vegetation Index (SAVI). Dimensionless.
has super-classes
U A V Observation c

S M gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g

Sensor that takes Soil Moisture measurements
has super-classes
Ground Based Sensing c
has members
S M g Sensor 1 ni, S M g Sensor 2 ni, S M g Sensor 3 ni, S M g Sensor 4 ni, S M g Sensor 5 ni, S M g Sensor 6 ni

S M Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Observation

Class that represents observations related to Soil Moisture (SM). Unit of measure Cubic Metre per Cubic Metre.
has super-classes
Ground based Observation c

S M Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Result

Result that is normally obtained by SM (Soil Moisture) sensors. Unit of measure Cubic Metre per Cubic Metre.
has super-classes
Result c

S M S M A P 36km Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP_36km_Observation

Class that represents observations related to Soil Moisture (SM). Dimensionless [0-1]
has super-classes
S M Satellite Observation c

S M S M A P S1 3km Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP_S1_3km_Observation

Class that represents observations related to Soil Moisture (SM). Dimensionless [0-1]
has super-classes
S M Satellite Observation c

S M S M A P S1 9km Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP_S1_9km_Observation

Class that represents observations related to Soil Moisture (SM). Dimensionless [0-1]
has super-classes
S M Satellite Observation c

S M S M O S E S A Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMOS_ESA_Observation

Class that represents observations related to Soil Moisture (SM). Dimensionless [0-1]
has super-classes
S M Satellite Observation c

S M S1 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_S1_Observation

Class that represents observations related to Soil Moisture (SM). Dimensionless [0-1]
has super-classes
S M Satellite Observation c

S M Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Satellite_Observation

Class that represents observations related to Soil Moisture (SM). Unit of measure Cubic Metre per Cubic Metre.
has super-classes
Satellite Observation c
has sub-classes
S M S M A P 36km Observation c, S M S M A P S1 3km Observation c, S M S M A P S1 9km Observation c, S M S M O S E S A Observation c, S M S1 Observation c

S M U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_UAV_Observation

Class that represents observations related to Soil Moisture (SM). Unit of measure cubic metre per cubic metre.
has super-classes
U A V Observation c

S R L8 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_L8_Observation

Class that represents observations related to Simple Ratio (SR). Dimensionless.
has super-classes
S R Satellite Observation c

S R L9 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_L9_Observation

Class that represents observations related to Simple Ratio (SR). Dimensionless.
has super-classes
S R Satellite Observation c

S R Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_Result

Result that is normally obtained by Simple Ratio (SR) sensors. Dimensionless.
has super-classes
Result c

S R S2 Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_S2_Observation

Class that represents observations related to Simple Ratio (SR). Dimensionless.
has super-classes
S R Satellite Observation c

S R Satellite Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_Satellite_Observation

Class that represents observations related to Simple Ratio (SR). Dimensionless.
has super-classes
Satellite Observation c
has sub-classes
S R L8 Observation c, S R L9 Observation c, S R S2 Observation c

S R U A V Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_UAV_Observation

Class that represents observations related to Simple Ratio (SR). Dimensionless.
has super-classes
U A V Observation c

S W down gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SW_down_g

Sensor that takes "surface downwelling shortwave flux in air" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
S W down g R A D Sensor 1 ni

S W up gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SW_up_g

Sensor that takes "upwelling shortwave flux in air" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
S W up g R A D Sensor 1 ni

Satellitec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Satellite

has super-classes
Platform c
has sub-classes
Landsat-8 c, Landsat-9 c, METEOSAT c, MODIS-Aqua c, MODIS-Terra c, SMAP c, SMOS c, Sentinel-1 c, Sentinel-2 c, Sentinel-3_OLCI c, Sentinel-3_SLSTR c
is in domain of
is Satellite Source Of op
is in range of
has Satellite Source op

Satellite Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Satellite_Product

A Satellite Product is a processed dataset generated from raw satellite measurements, typically including radiometric, geometric, and atmospheric corrections. These products provide georeferenced environmental variables (e.g., reflectance, vegetation indices, land surface temperature, soil moisture) at defined spatial, temporal, and spectral resolutions, and serve as inputs for environmental monitoring, modelling, and validation workflows.
Example 
Examples include NDVI, FAPAR, LST, or surface reflectance products obtained from Sentinel-2, Sentinel-3, Landsat, or other EO missions.
is equivalent to
(has Satellite Source op some Satellite c) and (has Satellite Source op only Satellite c)
(result time dp some date Time) and (result time dp only date Time)
has super-classes
Feature c
has sub-classes
Landsat-8_Product c, Landsat-8_Product c, METEOSAT_Product c, MODIS-Aqua_Product c, MODIS-Terra_Product c, SMAP_Product c, SMOS_Product c, Sentinel-1_Product c, Sentinel-2_Product c, Sentinel-3_Product c
is in domain of
Is Product Of op, has Satellite Source op
is in range of
has product op, is Satellite Source Of op

Sensible Heat Flux Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sensible_Heat_Flux_Observation

Class that represents observations related to Sensible heat flux (W/m2).
has super-classes
Ground based Observation c

Sensible Heat Flux Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sensible_Heat_Flux_Result

Result that is normally obtained by Hs (sensible heat flux) sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Sensorc back to ToC or Class ToC

IRI: http://www.w3.org/ns/sosa/Sensor

Device, agent (including humans), or software (simulation) involved in, or implementing, a Procedure. Sensors respond to a stimulus, e.g., a change in the environment, or input data composed from the results of prior Observations, and generate a Result. Sensors can be hosted by Platforms.
Device, agent (including humans), or software (simulation) involved in, or implementing, a Procedure. Sensors respond to a stimulus, e.g., a change in the environment, or input data composed from the results of prior Observations, and generate a Result. Sensors can be hosted by Platforms.
Example 
Accelerometers, gyroscopes, barometers, magnetometers, and so forth are Sensors that are typically mounted on a modern smart phone (which acts as Platform). Other examples of sensors include the human eyes.
has sub-classes
Ground Based Sensing c, Remote Sensing Satellites c, Remote Sensing U A Vs c
is in domain of
is hosted by op, made observation op, observes op
is in range of
hosts op, is observed by op, made by sensor op

Sentinel-1c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-1

has super-classes
Satellite c
has members
Sentinel 1 Satellite ni

Sentinel-1_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-1_Product

Class that represents Sentinel-1 satellite Products
has super-classes
Satellite Product c
has members
Sentinel 1 Product 1 ni

Sentinel-2c back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-2

has super-classes
Satellite c
has members
Sentinel 2 Satellite ni

Sentinel-2_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-2_Product

Class that represents Sentinel-2 satellite Products
has super-classes
Satellite Product c
is in domain of
Bare soil percentage dp, Filename dp, Footprint dp, High proba clouds percentage dp, Identifier dp, Instrument name dp, Link to product dp, Orbit direction dp, Platform name dp, Platform serial identifier dp, Processing level dp, Product download link dp, Size dp, Snow ice percentage dp, Title dp, Vegetation percentage dp, Water percentage dp, sentinel2 Product Properties dp
has members
Sentinel 2 Product 1 ni

Sentinel-3_OLCIc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_OLCI

has super-classes
Satellite c
has members
Sentinel 3 O L C I Satellite ni

Sentinel-3_OLCI_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_OLCI_Product

Class that represents Sentinel-3 OLCI satellite Products
has super-classes
Sentinel-3_Product c
has members
Sentinel 3 O L C I Product 1 ni

Sentinel-3_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_Product

Class that represents Sentinel-3 satellite Products
has super-classes
Satellite Product c
has sub-classes
Sentinel-3_OLCI_Product c, Sentinel-3_SLSTR_Product c
is in domain of
Filename dp, Footprint dp, sentinel3 Product Properties dp

Sentinel-3_SLSTRc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_SLSTR

has super-classes
Satellite c
has members
Sentinel 3 S L S T R Satellite ni

Sentinel-3_SLSTR_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_SLSTR_Product

Class that represents Sentinel-3 SLSTR satellite Products
has super-classes
Sentinel-3_Product c
has members
Sentinel 3 S L S T R Product 1 ni

Shellc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Shell

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Composite Surface c

SM_Stationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station

Class that represents Soil Moisture stations
has super-classes
Ground Station c
has members
S M Station 1 ni, S M Station 2 ni, S M Station 3 ni, S M Station 4 ni, S M Station 5 ni, S M Station 6 ni

SMAPc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMAP

has super-classes
Satellite c
has members
S M A P Satellite ni

SMAP_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMAP_Product

Class that represents SMAP satellite Products
has super-classes
Satellite Product c
is in domain of
Grid Mapping dp, Longname dp, Missing Value dp, Unit dp, Valid Max dp, Valid Min dp, smap Product Properties dp
has members
S M A P Product 1 ni

SMOSc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMOS

has super-classes
Satellite c
has members
S M O S Satellite ni

SMOS_Productc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMOS_Product

Class that represents SMOS satellite Products
has super-classes
Satellite Product c
is in domain of
File Description dp, Filename dp, Mission dp, smos Products Properties dp
has members
S M O S Product 1 ni

Snapshotc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Snapshot

is equivalent to
((control Area op some Control Area c) and (control Area op only Control Area c)) and ((has product op some Satellite Product c) and (has product op only Satellite Product c))
is in domain of
has Observation op, has product op
is in range of
Is Product Of op, is Observation Of op

Soil Propertyc back to ToC or Class ToC

IRI: http://dbpedia.org/resource/Soil_Property

Class that represents all Soil properties
has super-classes
Observable Property c
has members
CHM ni, DSM ni, DTM ni, Drought ni, NDWI ni, Orthophoto ni, SM ni, Surface_roughness ni, temperature in ground depth 05 ni, temperature in ground depth 20 ni, temperature in ground next ground ni

Soil Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Soil_Result

Result that is normally obtained by Land Cover sensors. Dimensionless.
has super-classes
Result c

Solidc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Solid

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c
has sub-classes
Composite Solid c

Spatial thingc back to ToC or Class ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#SpatialThing

Spatial thing
Is defined by
http://www.w3.org/2003/01/geo/wgs84_pos#
has super-classes
Geo W G S84 c
has sub-classes
Point c
is in range of
Coordinates location op, Located in op

SpatialObjectc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/geosparql#SpatialObject

The class spatial-object represents everything that can have a spatial representation. It is superclass of feature and geometry.
The class spatial-object represents everything that can have a spatial representation. It is superclass of feature and geometry.
The class spatial-object represents everything that can have a spatial representation. It is superclass of feature and geometry.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/ont/gml
http://www.opengis.net/spec/geosparql/1.0
has sub-classes
Feature c, Geometry c
is in domain of
contains op, contains op, coveredBy op, covers op, crosses op, disconnected op, disjoint op, disjoint op, equals op, equals op, equals op, externally connected op, inside op, intersects op, meet op, non-tangential proper part op, non-tangential proper part inverse op, overlap op, overlaps op, partially overlapping op, tangential proper part op, tangential proper part inverse op, touches op, within op
is in range of
contains op, contains op, coveredBy op, covers op, crosses op, disconnected op, disjoint op, disjoint op, equals op, equals op, equals op, externally connected op, inside op, intersects op, meet op, non-tangential proper part op, non-tangential proper part inverse op, overlap op, overlaps op, partially overlapping op, tangential proper part op, tangential proper part inverse op, touches op, within op

Spherec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Sphere

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Gridded Surface c

Spline Curvec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#SplineCurve

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Curve Segment c
has sub-classes
BSpline c, Polynomial Spline c

Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Surface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Abstract Geometric Primitive c, Orientable Surface c
has sub-classes
Polygon c, Polyhedral Surface c

Surface Albedo Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Albedo_Observation

Class that represents observations related to Surface albedo (dimensionless)
has super-classes
Ground based Observation c

Surface Albedo Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Albedo_Result

Result that is normally obtained by SurfaceAlbedo sensors. Dimensionless.
has super-classes
Result c

Surface Downwelling Longwave Flux In Air Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Downwelling_Longwave_Flux_In_Air_Observation

Class that represents observations related to Surface Downwelling Longwave Flux In Air (W/m2).
has super-classes
Ground based Observation c

Surface Downwelling Longwave Flux In Air Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Downwelling_Longwave_Flux_In_Air_Result

Result that is normally obtained by LW_down sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Surface Downwelling Shortwave Flux In Air Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Downwelling_Shortwave_Flux_In_Air_Observation

Class that represents observations related to Surface Downwelling Shortwave Flux In Air (W/m2)
has super-classes
Ground based Observation c

Surface Downwelling Shortwave Flux In Air Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Downwelling_Shortwave_Flux_In_Air_Result

Result that is normally obtained by SW_down sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Surface Net Radiation Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Net_Radiation_Observation

Class that represents observations related to Surface net radiation (W/m2)
has super-classes
Ground based Observation c

Surface Net Radiation Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Surface_Net_Radiation_Result

Result that is normally obtained by RN sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

SurfaceAlbedo_gc back to ToC or Class ToC

IRI: https://www.w3.org/2005/Incubator/ssn/ssnx/meteo/aws#Albedometer

Sensor that takes "soil albedo" measurements in RAD Station
has super-classes
Ground Based Sensing c
has members
Surface Albedo g R A D Sensor 1 ni

Temperature A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_AEMET_Observation

Class that represents observations related to temperature in AEMET Station. Celsius Degree.
has super-classes
Temperature Observation c
has sub-classes
Temperature in air A E M E T Observation c, Temperature in ground A E M E T Observation c

Temperature Eddy Covariance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_EddyCovariance_Observation

Class that represents observations related to temperature in EddyCovariance Station. Celsius Degree.
has super-classes
Temperature Observation c

Temperature in air A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_in_air_AEMET_Observation

Observation of Air Temperature. Air Temperature is a measure of the hotness or coldness of the air. It is also termed surface temperature in meteorology. Air temperature is the temperature indicated by a thermometer exposed to the air but sheltered from direct sun exposure.
has super-classes
Temperature A E M E T Observation c

Temperature in ground A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_in_ground_AEMET_Observation

Observation of the temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used.
has super-classes
Temperature A E M E T Observation c
has sub-classes
Temperature in ground depth 05 A E M E T Observation c, Temperature in ground depth 20 A E M E T Observation c, Temperature in ground next ground A E M E T Observation c

Temperature in ground depth 05 A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_in_ground_depth_05_AEMET_Observation

Observation of the Subsoil temperature at a depth of 5 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
has super-classes
Temperature in ground A E M E T Observation c

Temperature in ground depth 20 A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_in_ground_depth_20_AEMET_Observation

Observation of the Subsoil temperature at a depth of 20 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
has super-classes
Temperature in ground A E M E T Observation c

Temperature in ground next ground A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_in_ground_next_ground_AEMET_Observation

Observation of the Ground temperature, instantaneous temperature next to the ground and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
has super-classes
Temperature in ground A E M E T Observation c

Temperature Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_Observation

Class that represents observations related to temperature. Celsius Degree.
has super-classes
Ground based Observation c
has sub-classes
Temperature A E M E T Observation c, Temperature Eddy Covariance Observation c

Temperature Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Temperature_Result

Result that is normally obtained by Termometer sensors. Unit of measure Degree Celsius.
has super-classes
Result c

Thermometerc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Thermometer

Measures temperature in degrees Celsius
has super-classes
Ground Based Sensing c
has sub-classes
Thermometer Eddy Covariance c, Thermometer_AEMET c

Thermometer Eddy Covariancec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Thermometer_EddyCovariance

Sensor belongs to EddyCovariance Station. Measures temperature in degrees Celsius
has super-classes
Thermometer c
has members
Thermometer Eddy Covariance Sensor 1 ni

Thermometer_AEMETc back to ToC or Class ToC

IRI: http://aemet.linkeddata.es/ontology/Thermometer

Sensor belongs to AEMET Station. Measures temperature in degrees Celsius both on Ground or in Air.
has super-classes
Thermometer c
has members
Thermometer A E M E T Sensor U T I E L ni

Townc back to ToC or Class ToC

IRI: http://cef.uv.es/lodroadtran18/def/transporte/dtx_srti/administrativeUnit#Poblacion

DGT Rules for TPEG Location townname: first see if the literal is in town, if not, search in municipality other: first see if the literal is in towns, if not, search in province
has super-classes
AdministrativeUnit c
is disjoint with
Autonomy c, Jurisdictional Community c, Municipality c, Country c, Province c

Trianglec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Triangle

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Polygon Patch c

Triangulated Irregular Networkc back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#Tin

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Triangulated Surface c

Triangulated Surfacec back to ToC or Class ToC

IRI: http://www.opengis.net/ont/gml#TriangulatedSurface

Is defined by
http://www.opengis.net/ont/gml
has super-classes
Polyhedral Surface c
has sub-classes
Triangulated Irregular Network c

U A V Hyperspectral Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Hyperspectral_Observation

has super-classes
A G B U A V Observation c

U A V Li D A R Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_LiDAR_Observation

has super-classes
A G B U A V Observation c

UAVc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV

Unmanned aerial vehicle
has super-classes
Platform c
has sub-classes
UAV_Hyperspectral c, UAV_LiDAR c, UAV_Microwave c, UAV_Multispectral c, UAV_RGB c, UAV_Thermal c

UAV_Hyperspectralc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Hyperspectral

Unmanned aerial vehicle Hyperspectral
has super-classes
UAV c
has members
U A V Hyperspectral 1 ni

UAV_LiDARc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_LiDAR

Unmanned aerial vehicle LiDAR
has super-classes
UAV c
has members
U A V Li D A R 1 ni

UAV_Microwavec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Microwave

Unmanned aerial vehicle Microwave
has super-classes
UAV c
has members
U A V Microwave 1 ni

UAV_Multispectralc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Multispectral

Unmanned aerial vehicle Multispectral
has super-classes
UAV c
has members
U A V Multispectral 1 ni

UAV_RGBc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_RGB

Unmanned aerial vehicle RGB
has super-classes
UAV c
has members
U A V R G B 1 ni

UAV_Thermalc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Thermal

Unmanned aerial vehicle Thermal
has super-classes
UAV c
has members
U A V Thermal 1 ni

Upwelling Longwave Flux In Air Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Upwelling_Longwave_Flux_In_Air_Observation

Class that represents observations related to Upwelling Longwave Flux In Air (W/m2)
has super-classes
Ground based Observation c

Upwelling Longwave Flux In Air Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Upwelling_Longwave_Flux_In_Air__Result

Result that is normally obtained by LW_up sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Upwelling Shortwave Flux In Air Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Upwelling_Shortwave_Flux_In_Air_Observation

Class that represents observations related to Upwelling Shortwave Flux In Air (W/m2)
has super-classes
Ground based Observation c

Upwelling Shortwave Flux In Air Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Upwelling_Shortwave_Flux_In_Air_Result

Result that is normally obtained by SW_up sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Vegetation Propertyc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Vegetation_Property

Class that represents all Vegetation properties
has super-classes
Observable Property c
has members
AGB ni, CHM ni, CRI ni, Chl ni, DBH ni, DSM ni, DiseaseStatus ni, EVI ni, FAPAR ni, LAI ni, Landcover ni, NDVI ni, NRI ni, Nitrogen_Concentration ni, Orthophoto ni, SAVI ni, SR ni, upward latent heat flux in air ni, vegetation area fraction ni

Vegetation Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Vegetation_Result

Result that is normally obtained by Vegetation ( EVI. SAVI, TDVI ...) sensors. Dimensionless.
has super-classes
Result c

Water Vapour Flux gc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WaterVapourFlux_g

Sensor that takes water flow measurements
has super-classes
Ground Based Sensing c
has members
Water Vapour Flux g Eddy Covariance Sensor 1 ni

Water Vapour Flux Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Water_Vapour_Flux_Observation

Class that represents observations related to water vapour flux (W/m2)
has super-classes
Ground based Observation c

Water Vapour Flux Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Water_Vapour_Flux_Result

Result that is normally obtained by WatervapourFlux (water vapour flux) sensors. Unit of measure Watt per Square Metre (W/m2).
has super-classes
Result c

Wind Direction A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Direction_AEMET_Observation

Class that represents observations related to wind direction. Angle Degree.
has super-classes
Wind Direction Observation c

Wind Direction Eddy Covariance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Direction_EddyCovariance_Observation

Class that represents observations related to wind direction. Angle Degree.
has super-classes
Wind Direction Observation c

Wind Direction Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Direction_Observation

Class that represents observations related to wind direction. Angle Degree.
has super-classes
Ground based Observation c
has sub-classes
Wind Direction A E M E T Observation c, Wind Direction Eddy Covariance Observation c

Wind Direction Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Direction_Result

Result that is normally obtained by WindVane sensors. Unit of measure Angle Degree.
has super-classes
Result c

Wind Speed A E M E T Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Speed_AEMET_Observation

Class that represents observations related to wind speed in AEMET Station. (m/s)
has super-classes
Wind Speed Observation c

Wind Speed Eddy Covariance Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Speed_EddyCovariance_Observation

Class that represents observations related to wind speed in EddyCovariance Station. (m/s)
has super-classes
Wind Speed Observation c

Wind Speed Observationc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Speed_Observation

Class that represents observations related to wind speed. (m/s)
has super-classes
Ground based Observation c
has sub-classes
Wind Speed A E M E T Observation c, Wind Speed Eddy Covariance Observation c

Wind Speed Resultc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Wind_Speed_Result

Result that is normally obtained by Anemometer sensors. Unit of measure Metre per Second (m/s).
has super-classes
Result c

Wind Vanec back to ToC or Class ToC

IRI: http://purl.oclc.org/NET/ssnx/meteo/aws#WindVane

Sensor that takes wind direction measurements
has super-classes
Ground Based Sensing c
has sub-classes
WindVane_AEMET c, WindVane_EddyCovariance c

WindVane_AEMETc back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WindVane_AEMET

Sensor belongs to AEMET Station. Sensor that takes wind direction [0º-360º] measurements
has super-classes
Wind Vane c
has members
Wind Vane A E M E T Sensor U T I E L ni

WindVane_EddyCovariancec back to ToC or Class ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WindVane_EddyCovariance

Sensor belongs to EddyCovariance Station. Sensor that takes wind direction [0º-360º] measurements.
has super-classes
Wind Vane c
has members
Wind Vane Eddy Covariance Sensor 1 ni

Object Properties

acts on propertyop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/actsOnProperty

Relation between an Actuation and the property of a FeatureOfInterest it is acting upon.
Relation between an Actuation and the property of a FeatureOfInterest it is acting upon.
Example 
In the activity (Actuation) of automatically closing a window if the temperature in a room drops below 20 degrees Celsius, the property on which the Actuator acts upon is the state of the window as it changes from being open to being closed.
domain includes
Actuation ep
range includes
Actuatable Property ep
is inverse of
is acted on by op

containsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehContains

Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*TFF*FF*
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*TFF*FF*
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*TFF*FF*
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

containsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfContains

Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*****FF*
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*****FF*
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: T*****FF*
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

control Areaop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#controlArea

Control Area indicates if it is 1x1 km or 10x10 km in VAS.
has range
Control Area c

Coordinates locationop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#coordinatesLocation

Indicates the coordinates in which the station is located.
has super-properties
Located in op, location op
has domain
Platform c or Control Area c
has range
Spatial thing c

coveredByop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehCoveredBy

Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFF*TFT**
Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFF*TFT**
Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFF*TFT**
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

coversop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehCovers

Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: T*TFT*FF*
Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: T*TFT*FF*
Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: T*TFT*FF*
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

crossesop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfCrosses

Exists if the subject SpatialObject spatially crosses the object SpatialObject. DE-9IM: T*T******
Exists if the subject SpatialObject spatially crosses the object SpatialObject. DE-9IM: T*T******
Exists if the subject SpatialObject spatially crosses the object SpatialObject. DE-9IM: T*T******
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

defaultGeometryop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#defaultGeometry

The default geometry to be used in spatial calculations. It is Usually the most detailed geometry.
The default geometry to be used in spatial calculations. It is Usually the most detailed geometry.
The default geometry to be used in spatial calculations. It is Usually the most detailed geometry.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has super-properties
hasGeometry op
has domain
Feature c
has range
Geometry c

disconnectedop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8dc

Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FFTFFTTTT
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FFTFFTTTT
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FFTFFTTTT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

disjointop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehDisjoint

Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

disjointop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfDisjoint

Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Exists if the subject SpatialObject is spatially disjoint from the object SpatialObject. DE-9IM: FF*FF****
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

equalsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehEquals

Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

equalsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8eq

Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

equalsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfEquals

Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Exists if the subject SpatialObject spatially equals the object SpatialObject. DE-9IM: TFFFTFFFT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

externally connectedop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8ec

Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FFTFTTTTT
Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FFTFTTTTT
Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FFTFTTTTT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

has broaderop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#broader

Broader concepts are typically rendered as parents in a concept hierarchy (tree).
Relates a concept to a concept that is more general in meaning.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
has broader transitive op
has sub-properties
has broader match op
is inverse of
has narrower op

has broader matchop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#broadMatch

skos:broadMatch is used to state a hierarchical mapping link between two conceptual resources in different concept schemes.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
has broader op, is in mapping relation with op
is inverse of
has narrower match op

has broader transitiveop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#broaderTransitive

skos:broaderTransitive is a transitive superproperty of skos:broader.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: transitive

has super-properties
is in semantic relation with op
has sub-properties
has broader op
is inverse of
has narrower transitive op

has close matchop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#closeMatch

skos:closeMatch is used to link two concepts that are sufficiently similar that they can be used interchangeably in some information retrieval applications. In order to avoid the possibility of "compound errors" when combining mappings across more than two concept schemes, skos:closeMatch is not declared to be a transitive property.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: symmetric

has super-properties
is in mapping relation with op
has sub-properties
has exact match op

has exact matchop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#exactMatch

skos:exactMatch is disjoint with each of the properties skos:broadMatch and skos:relatedMatch.
skos:exactMatch is used to link two concepts, indicating a high degree of confidence that the concepts can be used interchangeably across a wide range of information retrieval applications. skos:exactMatch is a transitive property, and is a sub-property of skos:closeMatch.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: symmetric, transitive

has super-properties
has close match op

has feature of interestop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/hasFeatureOfInterest

A relation between an Observation and the entity whose quality was observed, or between an Actuation and the entity whose property was modified, or between an act of Sampling and the entity that was sampled.
A relation between an Observation and the entity whose quality was observed, or between an Actuation and the entity whose property was modified, or between an act of Sampling and the entity that was sampled.
Example 
For example, in an Observation of the weight of a person, the FeatureOfInterest is the person and the property is its weight.
domain includes
Actuation ep
Observation c
Sampling ep
range includes
Feature Of Interest c
Sample ep
is inverse of
is feature of interest of op

has memberop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#member

Relates a collection to one of its members.
Is defined by
http://www.w3.org/2004/02/skos/core
has domain
Collection c
has range
Collection c or Concept c

has member listop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#memberList

For any resource, every item in the list given as the value of the skos:memberList property is also a value of the skos:member property.
Relates an ordered collection to the RDF list containing its members.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: functional

has domain
Ordered Collection c
has range
List c

has narrowerop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#narrower

Narrower concepts are typically rendered as children in a concept hierarchy (tree).
Relates a concept to a concept that is more specific in meaning.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
has narrower transitive op
has sub-properties
has narrower match op
is inverse of
has broader op

has narrower matchop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#narrowMatch

skos:narrowMatch is used to state a hierarchical mapping link between two conceptual resources in different concept schemes.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
has narrower op, is in mapping relation with op
is inverse of
has broader match op

has narrower transitiveop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#narrowerTransitive

skos:narrowerTransitive is a transitive superproperty of skos:narrower.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: transitive

has super-properties
is in semantic relation with op
has sub-properties
has narrower op
is inverse of
has broader transitive op

has Observationop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#hasObservation

A Snapshot has a satellite observation
has domain
Snapshot c
has range
Satellite Observation c
is inverse of
is Observation Of op

has productop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#hasProduct

Someting (usually a snapshot) has product.
has domain
Snapshot c
has range
Satellite Product c
is inverse of
Is Product Of op

has relatedop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#related

skos:related is disjoint with skos:broaderTransitive
Relates a concept to a concept with which there is an associative semantic relationship.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: symmetric

has super-properties
is in semantic relation with op
has sub-properties
has related match op

has related matchop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#relatedMatch

skos:relatedMatch is used to state an associative mapping link between two conceptual resources in different concept schemes.
Is defined by
http://www.w3.org/2004/02/skos/core

has characteristics: symmetric

has super-properties
has related op, is in mapping relation with op

has resultop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/hasResult

Relation linking an Observation or Actuation or act of Sampling and a Result or Sample.
Relation linking an Observation or Actuation or act of Sampling and a Result or Sample.
domain includes
Actuation ep
Observation c
Sampling ep
range includes
Result c
Sample ep
is inverse of
is result of op

has sampleop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/hasSample

Relation between a FeatureOfInterest and the Sample used to represent it.
Relation between a FeatureOfInterest and the Sample used to represent it.
domain includes
Feature Of Interest c
range includes
Sample ep
is inverse of
is sample of op

has Satellite Sourceop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#hasSatelliteSource

The satellite products have satellite sources
has super-properties
top Object Property op
has domain
Satellite Product c
has range
Satellite c
is inverse of
is Satellite Source Of op

has top conceptop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#hasTopConcept

Relates, by convention, a concept scheme to a concept which is topmost in the broader/narrower concept hierarchies for that scheme, providing an entry point to these hierarchies.
Is defined by
http://www.w3.org/2004/02/skos/core
has domain
Concept Scheme c
has range
Concept c
is inverse of
is top concept in scheme op

has Type Of Coverop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#hasTypeOfCover

The property indicates the type of cover classes.
has range
Land Cover Classes c

hasGeometryop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#hasGeometry

A spatial representation for a given feature.
A spatial representation for a given feature.
A spatial representation for a given feature.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has sub-properties
defaultGeometry op
has domain
Feature c
has range
Geometry c

hostsop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/hosts

Relation between a Platform and a Sensor, Actuator, Sampler, or Platform, hosted or mounted on it.
Relation between a Platform and a Sensor, Actuator, Sampler, or Platform, hosted or mounted on it.
domain includes
Platform c
range includes
Actuator ep
Platform c
Sampler ep
Sensor c
is inverse of
is hosted by op

insideop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehInside

Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFF*FFT**
Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFF*FFT**
Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFF*FFT**
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

intersectsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfIntersects

Exists if the subject SpatialObject is not spatially disjoint from the object SpatialObject. DE-9IM: T******** ^ *T******* ^ ***T***** ^ ****T****
Exists if the subject SpatialObject is not spatially disjoint from the object SpatialObject. DE-9IM: T******** ^ *T******* ^ ***T***** ^ ****T****
Exists if the subject SpatialObject is not spatially disjoint from the object SpatialObject. DE-9IM: T******** ^ *T******* ^ ***T***** ^ ****T****
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

is acted on byop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isActedOnBy

Relation between an ActuatableProperty of a FeatureOfInterest and an Actuation changing its state.
Relation between an ActuatableProperty of a FeatureOfInterest and an Actuation changing its state.
Example 
In the activity (Actuation) of automatically closing a window if the temperature in a room drops below 20 degrees Celsius, the property on which the Actuator acts upon is the state of the window as it changes from being open to being closed.
domain includes
Actuatable Property ep
range includes
Actuation ep
is inverse of
acts on property op

is feature of interest ofop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isFeatureOfInterestOf

A relation between a FeatureOfInterest and an Observation about it, an Actuation acting on it, or an act of Sampling that sampled it.
A relation between a FeatureOfInterest and an Observation about it, an Actuation acting on it, or an act of Sampling that sampled it.
domain includes
Feature Of Interest c
Sample ep
range includes
Actuation ep
Observation c
Sampling ep
is inverse of
has feature of interest op

is hosted byop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isHostedBy

Relation between a Sensor, Actuator, Sampler, or Platform, and the Platform that it is mounted on or hosted by.
Relation between a Sensor, Actuator, Sampler, or Platform, and the Platform that it is mounted on or hosted by.
domain includes
Actuator ep
Platform c
Sampler ep
Sensor c
range includes
Platform c
is inverse of
hosts op

is in mapping relation withop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#mappingRelation

These concept mapping relations mirror semantic relations, and the data model defined below is similar (with the exception of skos:exactMatch) to the data model defined for semantic relations. A distinct vocabulary is provided for concept mapping relations, to provide a convenient way to differentiate links within a concept scheme from links between concept schemes. However, this pattern of usage is not a formal requirement of the SKOS data model, and relies on informal definitions of best practice.
Relates two concepts coming, by convention, from different schemes, and that have comparable meanings
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
is in semantic relation with op
has sub-properties
has broader match op, has close match op, has narrower match op, has related match op

is in schemeop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#inScheme

Relates a resource (for example a concept) to a concept scheme in which it is included.
Is defined by
http://www.w3.org/2004/02/skos/core
has sub-properties
is top concept in scheme op
has range
Concept Scheme c

is in semantic relation withop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#semanticRelation

Links a concept to a concept related by meaning.
Is defined by
http://www.w3.org/2004/02/skos/core
has sub-properties
has broader transitive op, has narrower transitive op, has related op, is in mapping relation with op
has domain
Concept c
has range
Concept c

is Observation Ofop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#isObservationOf

has super-properties
top Object Property op
has domain
Satellite Observation c
has range
Snapshot c
is inverse of
has Observation op

is observed byop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isObservedBy

Relation between an ObservableProperty and the Sensor able to observe it.
Relation between an ObservableProperty and the Sensor able to observe it.
domain includes
Observable Property c
range includes
Sensor c
is inverse of
observes op

Is Product Ofop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#IsProductOf

has domain
Satellite Product c
has range
Snapshot c
is inverse of
has product op

is result ofop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isResultOf

Relation linking a Result to the Observation or Actuation or act of Sampling that created or caused it.
Relation linking a Result to the Observation or Actuation or act of Sampling that created or caused it.
domain includes
Result c
Sample ep
range includes
Actuation ep
Observation c
Sampling ep
is inverse of
has result op

is sample ofop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/isSampleOf

Relation from a Sample to the FeatureOfInterest that it is intended to be representative of.
Relation from a Sample to the FeatureOfInterest that it is intended to be representative of.
domain includes
Sample ep
range includes
Feature Of Interest c
is inverse of
has sample op

is Satellite Source Ofop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#isSatelliteSourceOf

has domain
Satellite c
has range
Satellite Product c
is inverse of
has Satellite Source op

is top concept in schemeop back to ToC or Object Property ToC

IRI: http://www.w3.org/2004/02/skos/core#topConceptOf

Relates a concept to the concept scheme that it is a top level concept of.
Is defined by
http://www.w3.org/2004/02/skos/core
has super-properties
is in scheme op
has domain
Concept c
has range
Concept Scheme c
is inverse of
has top concept op

Located inop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#locatedIn

Indicates the location of the stations.
has equivalent properties
location op
has sub-properties
Coordinates location op, Located in municipality op, Located in province op
has domain
Platform c or Control Area c
has range
AdministrativeUnit c or Spatial thing c

Located in municipalityop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#locatedInMunicipality

Indicates the municipality in which a sensor is located.
has super-properties
Located in op, location op
has domain
Platform c or Control Area c
has range
Municipality c

Located in provinceop back to ToC or Object Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#locatedInProvince

Indicates the province in which a sensor is located.
has super-properties
Located in op, location op
has domain
Platform c or Control Area c
has range
Province c

locationop back to ToC or Object Property ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#location

has equivalent properties
Located in op
has sub-properties
Coordinates location op, Located in municipality op, Located in province op

made actuationop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeActuation

Relation between an Actuator and the Actuation it has made.
Relation between an Actuator and the Actuation it has made.
domain includes
Actuator ep
range includes
Actuation ep
is inverse of
made by actuator op

made by actuatorop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeByActuator

Relation linking an Actuation to the Actuator that made that Actuation.
Relation linking an Actuation to the Actuator that made that Actuation.
domain includes
Actuation ep
range includes
Actuator ep
is inverse of
made actuation op

made by samplerop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeBySampler

Relation linking an act of Sampling to the Sampler (sampling device or entity) that made it.
Relation linking an act of Sampling to the Sampler (sampling device or entity) that made it.
domain includes
Sampling ep
range includes
Sampler ep
is inverse of
made sampling op

made by sensorop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeBySensor

Relation between an Observation and the Sensor which made the Observation.
Relation between an Observation and the Sensor which made the Observation.
domain includes
Observation c
range includes
Sensor c
is inverse of
made observation op

made observationop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeObservation

Relation between a Sensor and an Observation made by the Sensor.
Relation between a Sensor and an Observation made by the Sensor.
domain includes
Sensor c
range includes
Observation c
is inverse of
made by sensor op

made samplingop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/madeSampling

Relation between a Sampler (sampling device or entity) and the Sampling act it performed.
Relation between a Sampler (sampling device or entity) and the Sampling act it performed.
domain includes
Sampler ep
range includes
Sampling ep
is inverse of
made by sampler op

meetop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehMeet

Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Exists if the subject SpatialObject spatially meets the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

non-tangential proper partop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8ntpp

Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFFTFFTTT
Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFFTFFTTT
Exists if the subject SpatialObject is spatially inside the object SpatialObject. DE-9IM: TFFTFFTTT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

non-tangential proper part inverseop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8ntppi

Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: TTTFFTFFT
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: TTTFFTFFT
Exists if the subject SpatialObject spatially contains the object SpatialObject. DE-9IM: TTTFFTFFT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

observed propertyop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/observedProperty

Relation linking an Observation to the property that was observed. The ObservableProperty should be a property of the FeatureOfInterest (linked by hasFeatureOfInterest) of this Observation.
Relation linking an Observation to the property that was observed. The ObservableProperty should be a property of the FeatureOfInterest (linked by hasFeatureOfInterest) of this Observation.
domain includes
Observation c
range includes
Observable Property c

observesop back to ToC or Object Property ToC

IRI: http://www.w3.org/ns/sosa/observes

Relation between a Sensor and an ObservableProperty that it is capable of sensing.
Relation between a Sensor and an ObservableProperty that it is capable of sensing.
domain includes
Sensor c
range includes
Observable Property c
is inverse of
is observed by op

overlapop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#ehOverlap

Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

overlapsop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfOverlaps

Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: T*T***T**
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

partially overlappingop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8po

Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: TTTTTTTTT
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: TTTTTTTTT
Exists if the subject SpatialObject spatially overlaps the object SpatialObject. DE-9IM: TTTTTTTTT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

tangential proper partop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8tpp

Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFFTTFTTT
Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFFTTFTTT
Exists if the subject SpatialObject is spatially covered by the object SpatialObject. DE-9IM: TFFTTFTTT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

tangential proper part inverseop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#rcc8tppi

Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: TTTFTTFFT
Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: TTTFTTFFT
Exists if the subject SpatialObject spatially covers the object SpatialObject. DE-9IM: TTTFTTFFT
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

touchesop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfTouches

Exists if the subject SpatialObject spatially touches the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Exists if the subject SpatialObject spatially touches the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Exists if the subject SpatialObject spatially touches the object SpatialObject. DE-9IM: FT******* ^ F**T***** ^ F***T****
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

withinop back to ToC or Object Property ToC

IRI: http://www.opengis.net/ont/geosparql#sfWithin

Exists if the subject SpatialObject is spatially within the object SpatialObject. DE-9IM: T*F**F***
Exists if the subject SpatialObject is spatially within the object SpatialObject. DE-9IM: T*F**F***
Exists if the subject SpatialObject is spatially within the object SpatialObject. DE-9IM: T*F**F***
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
SpatialObject c
has range
SpatialObject c

Data Properties

Abbreviationdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#abbreviation

has super-properties
Filename dp

Adquisition Perioddp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#acquisitionPeriod

has super-properties
sentinel3 Product Properties dp
has sub-properties
Start time dp, Stop time dp

altitudedp back to ToC or Data Property ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#alt

Altitude in WGS84
Is defined by
http://www.w3.org/2003/01/geo/wgs84_pos#
has super-properties
geo W G S84 dp

as G M Ldp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#asGML

has super-properties
has Serialization dp
has domain
Geometry c
has range
GML Literal ep

as W K Tdp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#asWKT

has super-properties
has Serialization dp
has domain
Geometry c
has range
Well-known Text Literal ep

Bare soil percentagedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#baresoilpercentage

Bare soil percentage Example: 35.747452

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
decimal

canonical unitsdp back to ToC or Data Property ToC

IRI: https://mmisw.org/ont/cf/parameter/canonical_units

canonical units

Cloud coverdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#cloudcover

Cloud coverage (percent) of a WRS scene. Values: 0.00 - 100.00 -1 = Cloud cover not calculated or assessed
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
decimal

Cloud cover landdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#cloudcoverland

All sensors = Cloud coverage over land (percent) assigned to a WRS scene. Values: -1 = Cloud cover land not calculated or assessed.
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
decimal

Cloudy pixelsdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#cloudyPixels

has super-properties
sentinel3 Product Properties dp
has range
decimal

code C L Cdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#code_CLC

Corine Land Cover (CLC) code.
has domain
Land Cover Classes c
has range
integer

code INEdp back to ToC or Data Property ToC

IRI: http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio#codigoINE

Coding assigned by the INE Nomenclature
Is defined by
http://vocab.linkeddata.es/datosabiertos/def/sector-publico/territorio
has range
Literal

Collection categorydp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#collectioncategory

Landsat Collection 1 is organized by a tiered inventory structure to indicate the quality and level of processing of the data. Values: T1 = Tier 1 is the highest available quality and processing level. This category is suitable for time-series analysis across the different Landsat sensors. T2 = Tier 2 scenes contain significant cloud cover and have insufficient ground control to generate precision and terrain corrected products. RT = Real-Time indicates initial processing with additional processing required to achieve Tier 1 or Tier 2.
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

CommonPropertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#commonProductProperties

has sub-properties
Filename dp, Footprint dp, Longname dp, Unit dp

coordinateDimensiondp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#coordinateDimension

The number of measurements or axes needed to describe the position of this geometry in a coordinate system.
The number of measurements or axes needed to describe the position of this geometry in a coordinate system.
The number of measurements or axes needed to describe the position of this geometry in a coordinate system.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
Geometry c
has range
integer

Date acquireddp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#dateacquired

Year, month and day that this scene was imaged. Format: YYYY/MM/DD
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
date Time

Datumdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#datum

Datum used in creating the image. Values: WGS84 = World Geodetic System 1984
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

dimensiondp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#dimension

The topological dimension of this geometric object, which must be less than or equal to the coordinate dimension. In non-homogeneous collections, this will return the largest topological dimension of the contained objects.
The topological dimension of this geometric object, which must be less than or equal to the coordinate dimension. In non-homogeneous collections, this will return the largest topological dimension of the contained objects.
The topological dimension of this geometric object, which must be less than or equal to the coordinate dimension. In non-homogeneous collections, this will return the largest topological dimension of the contained objects.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
Geometry c
has range
integer

File Descriptiondp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#file_description

has super-properties
smos Products Properties dp
has domain
SMOS_Product c

Filenamedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#filename

Package file name, with extension ‘.SAFE’. Example: S2B_MSIL2A_20180628T105619_N0208_R094_T30SUF_20180628T151421.SAFE

has characteristics: functional

has super-properties
CommonProperties dp
has sub-properties
Abbreviation dp
has domain
SMOS_Product c
Sentinel-2_Product c
Sentinel-3_Product c
has range
string

Footprintdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#footprint

Boundaries of the frame in a simplified form.The coordinates shall be declared in a counter-clockwise order. Example: POLYGON ((-5.248379903953922 37.02527578563511,-4.014302538465313 37.042247242200354,-4.001451962964202 36.05254100905861,-5.219917191699283 36.03616769808406,-5.248379903953922 37.02527578563511))

has characteristics: functional

has super-properties
CommonProperties dp
has sub-properties
Post List dp, SRS Name dp
has domain
Landsat-8_Product c
Sentinel-2_Product c
Sentinel-3_Product c
has range
Well-known Text Literal ep

Grid Mappingdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#gridMapping

has super-properties
smap Product Properties dp
has domain
SMAP_Product c
has range
string

Ground Track Directiondp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#groundTrackDirection

has super-properties
sentinel3 Product Properties dp
has range
string

has Serializationdp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#hasSerialization

has sub-properties
as G M L dp, as W K T dp
has domain
Geometry c
has range
Literal

High proba clouds percentagedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#highprobacloudspercentage

High proba clouds percentage Example: 0.232073

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
decimal

Identifierdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#identifier

Identifier Example: S2A_MSIL1C_20180603T110041_N0206_R094_T30SUF_20180603T130559

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

Image quality OLIdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#imagequalityoli

Composite image quality for the bands. For Landsat 8 or 9, if scene is OLI or OLI_TIRS combined, value will reflect OLI quality score. If TIRS, the TIRS quality score will be used Values: 9 = Best 0 = Worst -1 = Image quality not calculated or assessed
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
decimal

Image quality TIRSdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#imagequalitytirs

Composite image quality for the bands. For Landsat 8 or 9, if scene is OLI or OLI_TIRS combined, value will reflect OLI quality score. If TIRS, the TIRS quality score will be used Values: 9 = Best 0 = Worst -1 = Image quality not calculated or assessed
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
decimal

Instrument namedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#instrumentname

The instrument name used for acquiring the data. Example: Multi-Spectral Instrument

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

isEmptydp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#isEmpty

(true) if this geometric object is the empty Geometry. If true, then this geometric object represents the empty point set for the coordinate space.
(true) if this geometric object is the empty Geometry. If true, then this geometric object represents the empty point set for the coordinate space.
(true) if this geometric object is the empty Geometry. If true, then this geometric object represents the empty point set for the coordinate space.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
Geometry c
has range
boolean

isSimpledp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#isSimple

(true) if this geometric object has no anomalous geometric points, such as self intersection or self tangency.
(true) if this geometric object has no anomalous geometric points, such as self intersection or self tangency.
(true) if this geometric object has no anomalous geometric points, such as self intersection or self tangency.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
Geometry c
has range
boolean

Land pixelsdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#landPixels

has super-properties
sentinel3 Product Properties dp
has range
decimal

Landsat product IDdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#landsatproductid

The naming convention of each L7 ETM+ Collection 1 Level-1 image is based on acquisition and processing parameters. Format: LXSS_LLLL_PPPRRR_YYYYMMDD_yyyymmdd_CC_TX L = Landsat X = Sensor (E = Enhanced Thematic Mapper Plus) SS = Satellite (07 = Landsat 7) LLLL = Processing Correction Level (L1TP = precision and terrain, L1GT = systematic terrain, L1GS = systematic) PPP = WRS Path RRR = WRS Row YYYYMMDD = Acquisition Date expressed in Year, Month, Day yyyymmdd = Processing Date expressed in Year, Month, Day CC = Collection Number (01) TX = Collection Category (RT = Real Time, T1 = Tier 1, T2 = Tier 2) Example: LE07_L1TP_029030_20140715_20140805_02_T1
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

landsat8 Product Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#landsat8ProductProperties

Landsat 8 product properties
has sub-properties
Cloud cover dp, Cloud cover land dp, Collection category dp, Date acquired dp, Datum dp, Image quality OLI dp, Image quality TIRS dp, Landsat product ID dp, Map projection dp, Orientation dp, Origin dp, UTM zone dp
has domain
Landsat-8_Product c

latitudedp back to ToC or Data Property ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#lat

Latitude in WGS84
Is defined by
http://www.w3.org/2003/01/geo/wgs84_pos#
has super-properties
geo W G S84 dp
has range
float

longitudedp back to ToC or Data Property ToC

IRI: http://www.w3.org/2003/01/geo/wgs84_pos#lon

Longitude in WGS84
Is defined by
http://www.w3.org/2003/01/geo/wgs84_pos#
has super-properties
geo W G S84 dp
has range
float

Longnamedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#longName

has super-properties
CommonProperties dp
has domain
MODIS-Aqua_Product c
MODIS-Terra_Product c
SMAP_Product c
has range
string

Map projectiondp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#mapprojection

L0Ra map projection selectively applied to HDTs based on geographic location. Used for processed archive data. Values: HOM = Hotine Oblique Mercator UTM = Universal Transverse Mercator
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

Missing Valuedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#missingValue

has super-properties
smap Product Properties dp
has domain
SMAP_Product c
has range
float

Missiondp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#mission

has super-properties
smos Products Properties dp
has domain
SMOS_Product c

modis Product Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#modisProductProperties

MODIS Aqua / Terra product properties
has sub-properties
Scale Factor dp
has domain
MODIS-Aqua_Product c
MODIS-Terra_Product c

numberdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#number

has super-properties
sentinel3 Product Properties dp

numeric valuedp back to ToC or Data Property ToC

IRI: http://qudt.org/schema/qudt/numericValue

Is defined by
http://qudt.org/2.1/schema/qudt
http://qudt.org/schema/qudt

Orbit directiondp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#orbitdirection

Orbit direccion while taking he product Can be either 'ASCENDING' or 'DESCENDING' Example: 'ASCENDING'

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

Orientationdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#orientation

Orientation used in creating the image. Values: NOMINAL = Nominal Path NORTH_UP = North Up TRUE_NORTH = True North USER = User
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

Origindp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#origin

Origin of the image Values: Example: "Image courtesy of the U.S. Geological Survey"
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

Platform namedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#platformname

The mission full name of the platform. This name is not a perfect identifier. Example:Sentinel-2

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

Platform serial identifierdp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#platformserialidentifier

The platform serial identifier is the sequence number of the platform among the mission Example: Sentinel-2A

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

Post Listdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#postList

has super-properties
Footprint dp

Processing leveldp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#processinglevel

The level of the last processing Example: Level-2A

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

Product namedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#productName

has super-properties
sentinel3 Product Properties dp
has range
string

Product typedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#productType

has super-properties
sentinel3 Product Properties dp
has range
string

Relative Orbit Numberdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#relativeOrbitNumber

has super-properties
sentinel3 Product Properties dp
has range
integer

result timedp back to ToC or Data Property ToC

IRI: http://www.w3.org/ns/sosa/resultTime

The result time is the instant of time when the Observation, Actuation or Sampling activity was completed.
The result time is the instant of time when the Observation, Actuation or Sampling activity was completed.
Is defined by
http://www.w3.org/ns/sosa/
domain includes
Satellite Product ep
Actuation ep
Observation c
Sampling ep
has range
date Time

Scale Factordp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#scale_factor

has super-properties
modis Product Properties dp
has domain
MODIS-Aqua_Product c
MODIS-Terra_Product c

sentinel2 Product Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#sentinel2ProductProperties

Sentinel-2 product properties
has sub-properties
Bare soil percentage dp, High proba clouds percentage dp, Identifier dp, Instrument name dp, Link to product dp, Orbit direction dp, Platform name dp, Platform serial identifier dp, Processing level dp, Product download link dp, Size dp, Snow ice percentage dp, Title dp, Vegetation percentage dp, Water percentage dp
has domain
Sentinel-2_Product c

sentinel3 Product Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#sentinel3ProductProperties

Sentinel-3 product properties
has sub-properties
Adquisition Period dp, Cloudy pixels dp, Ground Track Direction dp, Land pixels dp, Product name dp, Product type dp, Relative Orbit Number dp, Timeliness dp, number dp
has domain
Sentinel-3_Product c

Sizedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#size

Size of the product Example: 634.50 MB

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

smap Product Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#smapProductProperties

SMAP product properties
has sub-properties
Grid Mapping dp, Missing Value dp, Valid Max dp, Valid Min dp
has domain
SMAP_Product c

smos Products Propertiesdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#smosProductsProperties

SMOS product properties
has sub-properties
File Description dp, Mission dp
has domain
SMOS_Product c

Snow ice percentagedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#snowicepercentage

Percentage of snow ice Example: 0.00018899999999999999

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
decimal

spatialDimensiondp back to ToC or Data Property ToC

IRI: http://www.opengis.net/ont/geosparql#spatialDimension

The number of measurements or axes needed to describe the spatial position of this geometry in a coordinate system.
The number of measurements or axes needed to describe the spatial position of this geometry in a coordinate system.
The number of measurements or axes needed to describe the spatial position of this geometry in a coordinate system.
Date:
16/06/2011
Authors:
OGC GeoSPARQL 1.0 Standard Working Group
Contributors:
Matthew Perry
Is defined by
http://www.opengis.net/ont/geosparql
http://www.opengis.net/spec/geosparql/1.0
has domain
Geometry c
has range
integer

SRS Namedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#srsName

has super-properties
Footprint dp

Start timedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#startTime

has super-properties
Adquisition Period dp
has range
date Time

Stop timedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#stopTime

has super-properties
Adquisition Period dp
has range
date Time

Timelinessdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#timeliness

has super-properties
sentinel3 Product Properties dp
has range
string

Titledp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#title

Title Example: S2A_MSIL2A_20170628T105651_N0205_R094_T30SUF_20170628T110445

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
string

U R L Imagedp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#URLImage

has super-properties
top Data Property dp
has range
any U R I

U R L10x10dp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#URL10x10

URL for 10x10 area
has range
any U R I

U R L1x1dp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#URL1x1

URL for 1x1 area
has range
any U R I

Unitdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#unit

has super-properties
CommonProperties dp
has domain
MODIS-Aqua_Product c
MODIS-Terra_Product c
SMAP_Product c
has range
string

UTM zonedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#utmzone

UTM (Universal Transverse Mercator) zone number in a map projection. A negative zone indicates that the false northing needs to be applied to the northing coordinate and a positive zone indicates that the false northing has been applied. Values: Negative Zone = Indicates that the false northing needs to be applied. Positive Zone = Indicates that the false northing has been applied.
has super-properties
landsat8 Product Properties dp
has domain
Landsat-8_Product c
has range
string

Valid Maxdp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#validMax

has super-properties
smap Product Properties dp
has domain
SMAP_Product c
has range
float

Valid Mindp back to ToC or Data Property ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#validMin

has super-properties
smap Product Properties dp
has domain
SMAP_Product c
has range
float

Vegetation percentagedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#vegetationpercentage

Percentage of vegetation Example: 10.589334000000001

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
decimal

Water percentagedp back to ToC or Data Property ToC

IRI: http://khaos.uma.es/green-senti/earth-observation#waterpercentage

Water of percentage Example: 15.87375

has characteristics: functional

has super-properties
sentinel2 Product Properties dp
has domain
Sentinel-2_Product c
has range
decimal

Annotation Properties

allowed Unit Of Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/allowedUnitOfSystem

alternative labelap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#altLabel

The range of skos:altLabel is the class of RDF plain literals.
An alternative lexical label for a resource.
Is defined by
http://www.w3.org/2004/02/skos/core
Example 
Acronyms, abbreviations, spelling variants, and irregular plural/singular forms may be included among the alternative labels for a concept. Mis-spelled terms are normally included as hidden labels (see skos:hiddenLabel).

applicable Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/applicableSystem

change noteap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#changeNote

Contributorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/contributor

An entity responsible for making contributions to the resource.

contributorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/contributor

conversion Multiplierap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/conversionMultiplier

conversion Offsetap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/conversionOffset

createdap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/created

Creatorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/creator

An entity primarily responsible for making the resource.

creatorap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/creator

Dateap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/date

A point or period of time associated with an event in the lifecycle of the resource.

dbpedia Matchap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/dbpediaMatch

defined Unit Of Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/definedUnitOfSystem

definitionap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#definition

A statement or formal explanation of the meaning of a concept.
Is defined by
http://www.w3.org/2004/02/skos/core

derived Coherent Unit Of Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/derivedCoherentUnitOfSystem

Descriptionap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/description

An account of the resource.

descriptionap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/description

domain Includesap back to ToC or Annotation Property ToC

IRI: http://schema.org/domainIncludes

exact Matchap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/exactMatch

exampleap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#example

An example of the use of a concept.
Is defined by
http://www.w3.org/2004/02/skos/core

expressionap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/expression

guidanceap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/guidance

has Beginningap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2006/time#hasBeginning

has Dimension Vectorap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/hasDimensionVector

has Endap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2006/time#hasEnd

has Quantity Kindap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/hasQuantityKind

iec61360 Codeap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/iec61360Code

in X S D Date Time Stampap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2006/time#inXSDDateTimeStamp

informative Referenceap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/informativeReference

is Scaling Ofap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/isScalingOf

is Unit Of Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/isUnitOfSystem

issuedap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/issued

latex Definitionap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/latexDefinition

licenseap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/license

modifiedap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/modified

nameap back to ToC or Annotation Property ToC

IRI: http://xmlns.com/foaf/0.1/name

noteap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#note

A general note, for any purpose.
Is defined by
http://www.w3.org/2004/02/skos/core

om Unitap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/omUnit

plain Text Descriptionap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/plainTextDescription

preferred labelap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#prefLabel

A resource has no more than one value of skos:prefLabel per language tag, and no more than one value of skos:prefLabel without language tag.
The preferred lexical label for a resource, in a given language.
Is defined by
http://www.w3.org/2004/02/skos/core

preferred Namespace Prefixap back to ToC or Annotation Property ToC

IRI: http://purl.org/vocab/vann/preferredNamespacePrefix

preferred Namespace Uriap back to ToC or Annotation Property ToC

IRI: http://purl.org/vocab/vann/preferredNamespaceUri

prefixap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/prefix

publisherap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/publisher

qkdv Denominatorap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/qkdvDenominator

qkdv Numeratorap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/qkdvNumerator

range Includesap back to ToC or Annotation Property ToC

IRI: http://schema.org/rangeIncludes

rightsap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/terms/rights

scope noteap back to ToC or Annotation Property ToC

IRI: http://www.w3.org/2004/02/skos/core#scopeNote

A note that helps to clarify the meaning and/or the use of a concept.
Is defined by
http://www.w3.org/2004/02/skos/core

Sourceap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/source

A related resource from which the described resource is derived.

symbolap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/symbol

Titleap back to ToC or Annotation Property ToC

IRI: http://purl.org/dc/elements/1.1/title

ucum Codeap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/ucumCode

udunits Codeap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/udunitsCode

unece Common Codeap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/uneceCommonCode

unit Of Systemap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/unitOfSystem

wikidata Matchap back to ToC or Annotation Property ToC

IRI: http://qudt.org/schema/qudt/wikidataMatch

Named Individuals

10x10 Areani back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#10km_x_10km

A Control Area is a spatially delimited region designated to enable consistent environmental observations, calibration activities, and cross-platform validation. It provides a reference zone where measurements can be collected under controlled or well-characterized conditions. Dimension 10 x10.
belongs to
Control Area c
has facts
hasGeometry op Geo Area10x10 ni
Located in province op Valencia/València ni

1x1 Areani back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#1km_x_1km

A Control Area is a spatially delimited region designated to enable consistent environmental observations, calibration activities, and cross-platform validation. It provides a reference zone where measurements can be collected under controlled or well-characterized conditions. Dimension 1 x1.
belongs to
Control Area c
has facts
hasGeometry op Geo Area1x1 ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

A E M E T U T I E L Stationni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AEMET_UTIEL_Station

The meteorological station named "La Cubera" is close to the municipality of 'Utiel', at an altitude of 758 meters above sea level, and near Vereda Real, Casa de la Cubera, Camino de la Solana, Camino de Cuenca, La Solana, Caz del Soto Magro, Rambla del Colmenar, Casas de Santa Bárbara, Cañada del Campo, La Vega….
belongs to
AEMET_Station c
has facts
hasGeometry op Geo A E M E T U T I E L Station ni
hosts op Anemometer A E M E T Sensor U T I E L ni
hosts op Barometer A E M E T S E N S O R U T I E L ni
hosts op Clock A E M E T Sensor U T I E L ni
hosts op Heliograph A E M E T Sensor U T I E L ni
hosts op Hygrometer A E M E T Sensor U T I E L ni
hosts op Pluviometer A E M E T Sensor U T I E L ni
hosts op Thermometer A E M E T Sensor U T I E L ni
hosts op Wind Vane A E M E T Sensor U T I E L ni
control Area op 10x10 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Utiel ni
Located in province op Valencia/València ni

A G B S M O S C A T D S Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AGB_SMOS_CATDS_Sensor_1

AGB_SMOS_CATDS Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op AGB ni

A G B U A V Hyperspectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AGB_UAV_Hyperspectral_Sensor_1

Sensor AGB UAV Hyperspectral hosted by UAV Hyperspectral 1.
belongs to
R S U A V Hyperspectral c
has facts
is hosted by op U A V Hyperspectral 1 ni
observes op AGB ni

A G B U A V Li D A R Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#AGB_UAV_LiDAR_Sensor_1

Sensor AGB UAV LiDAR hosted by UAV LiDAR 1.
belongs to
R S U A V Li D A R c
has facts
is hosted by op U A V Li D A R 1 ni
observes op AGB ni

AGBni back to ToC or Named Individual ToC

IRI: http://aims.fao.org/aos/agrovoc/c_1373987580598

Information All biomass of living vegetation, both woody and herbaceous, above the soil including stems, stumps, branches, bark, seeds, and foliage.
Aboveground Biomass (AGB) is defined as the total amount of plant-derived living and dead organic matter per unit of surface area, which is an important component of terrestrial carbon cycle.
belongs to
Vegetation Property c
has facts
is observed by op A G B S M O S C A T D S Sensor 1 ni
is observed by op A G B U A V Hyperspectral Sensor 1 ni
is observed by op A G B U A V Li D A R Sensor 1 ni
definition ap "Aboveground Biomass (AGB) is defined as the total amount of plant-derived living and dead organic matter per unit of surface area, which is an important component of terrestrial carbon cycle."@en

Airni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Air

Air
The element of air, along with fire, earth, and water, is one of the four traditional elements in cosmogonies in both Western and Eastern traditions. It is present in all religions and their rituals, in esoteric philosophy, in alchemy, and in astrology. It is considered 'active and masculine,' just like the element of fire, in contrast to earth and water, which are considered 'passive and feminine.
belongs to
Feature Of Interest c

air pressureni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/air_pressure

Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation.
belongs to
Meteorology Property c
has facts
is observed by op Barometer A E M E T S E N S O R U T I E L ni
is observed by op Barometer Eddy Covariance Sensor 1 ni
canonical units dp "Hectopascal or Kilopascal"
definition ap "Air pressure is the force per unit area which would be exerted when the moving gas molecules of which the air is composed strike a theoretical surface of any orientation."

air temperatureni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/air_temperature

Air temperature is the bulk temperature of the air, not the surface (skin) temperature.
belongs to
Meteorology Property c
has facts
is observed by op Thermometer A E M E T Sensor U T I E L ni
is observed by op Thermometer Eddy Covariance Sensor 1 ni
canonical units dp "Celsius"
definition ap "Air temperature is the bulk temperature of the air, not the surface (skin) temperature."

Anemometer A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Anemometer_AEMET_Sensor_UTIEL

Sensor Anemometer_AEMET hosted by AEMET_UTIEL_Station
belongs to
Anemometer_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op wind speed ni

Anemometer Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Anemometer_EddyCovariance_Sensor_1

Sensor Anemometer_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
Anemometer Eddy Covariance c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op wind speed ni

Artificial Surfacesni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Artificial_Surfaces

Class Level 1 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "100"^^integer

Atmosphere of Earthni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Atmosphere_of_Earth

The Earth's atmosphere is the gaseous part of the Earth, making it the outermost and least dense layer of the planet. It consists of various gases that vary in quantity depending on altitude. This mixture of gases that forms the atmosphere is commonly referred to as air. Approximately 75% of the atmospheric mass is located within the first 11 kilometers from the sea surface. The primary gases that make up the atmosphere are oxygen (21%) and nitrogen (78%), followed by argon, carbon dioxide, and water vapor.
belongs to
Feature Of Interest c

Bare Soilsni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Bare_Soils

A soil surface devoid of any plant material.
belongs to
Land Cover Classes c
has facts
code C L C dp "331"^^integer

Barometer A E M E T S E N S O R U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Barometer_AEMET_SENSOR_UTIEL

Sensor Barometer_AEMET hosted by AEMET_UTIEL_Station
belongs to
Barometer_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op air pressure ni

Barometer Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Barometer_EddyCovariance_Sensor_1

Sensor Barometer_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
Barometer Eddy Covariance c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op air pressure ni

C H M U A V Li D A R Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CHM_UAV_LiDAR_Sensor_1

Sensor CHM UAV LiDAR hosted by UAV LiDAR 1.
belongs to
R S U A V Li D A R c
has facts
is hosted by op U A V Li D A R 1 ni
observes op CHM ni

C R I U A V Hyperspectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CRI_UAV_Hyperspectral_Sensor_1

Sensor CRI UAV Hyperspectral hosted by UAV Hyperspectral 1.
belongs to
R S U A V Hyperspectral c
has facts
is hosted by op U A V Hyperspectral 1 ni
observes op CRI ni

Carbon Dioxide Flux g Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CarbonDioxideFlux_g_EddyCovariance_Sensor_1

Sensor CarbonDioxideFlux_g_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
Carbon Dioxide Flux g c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op Carbon_Dioxide_Flux ni

Carbon_Dioxide_Fluxni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/~mjuckes/cmip_variables_alpha/netAtmosLandCO2Flux

Carbon dioxide (CO2) flux refers to the movement or exchange of carbon dioxide between different parts of the Earth's environment, such as the atmosphere, land, and oceans.
belongs to
Land Atmosphere Interaction Property c
has facts
is observed by op Carbon Dioxide Flux g Eddy Covariance Sensor 1 ni

Caudete de las Fuentesni back to ToC or Named Individual ToC

IRI: https://sws.geonames.org/6361960/

belongs to
Municipality c

Centimetreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/CentiM

A centimetre is a unit of length in the metric system, equal to one hundredth of a metre, which is the SI base unit of length. Centi is the SI prefix for a factor of 10-2 . The centimetre is the base unit of length in the now deprecated centimetre-gram-second (CGS) system of units.
Is defined by
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
scaling Of op Metre ni
conversion Multiplier S N dp "0.01"^^double
description ap "A centimetre is a unit of length in the metric system, equal to one hundredth of a metre, which is the SI base unit of length. Centi is the SI prefix for a factor of $10^{-2}$. The centimetre is the base unit of length in the now deprecated centimetre-gram-second (CGS) system of units."^^Latex String ep
applicable System ap S I ni
conversion Multiplier ap "0.01"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Centimetre
has Quantity Kind ap Length ni
iec61360 Code ap "0112/2///62720#UAA375"
informative Reference ap http://en.wikipedia.org/wiki/Centimetre?oldid=494931891
informative Reference ap https://cdd.iec.ch/cdd/iec62720/iec62720.nsf/Units/0112-2---62720%23UAA375
symbol ap "cm"
ucum Code ap "cm"^^U C U Mcs ep
unece Common Code ap "CMT"
wikidata Match ap Q174728 ep

Chlni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Chlorophyll

Chlorophylls (from the Greek words χλωρος, chloros, meaning 'green,' and φύλλον, fýlon, meaning 'leaf') are a family of green-colored pigments found in cyanobacteria and in all organisms that possess chloroplasts or thylakoid membranes in their cells, which includes plants and various types of algae. Chlorophyll is a highly essential biomolecule, critical in the process of photosynthesis, which enables plants and algae to store energy from sunlight.
belongs to
Vegetation Property c
has facts
is observed by op Chl L8 Sensor 1 ni
is observed by op Chl L9 Sensor 1 ni
is observed by op Chl S2 Sensor 1 ni
is observed by op Chl g Sensor 1 ni
is observed by op O T C I S3 Sensor 1 ni

Chl g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_g_Sensor_1

Sensor Chl_g hosted by Chl_Station_1
belongs to
Chl g c
has facts
is hosted by op Chl Station 1 ni
observes op Chl ni

Chl L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_L8_Sensor_1

Chl_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op Chl ni

Chl L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_L9_Sensor_1

Chl_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op Chl ni

Chl S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_S2_Sensor_1

Chl_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op Chl ni

Chl Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Chl_Station_1

Chl Station number 1
belongs to
Chl_Station c
has facts
hasGeometry op Geo Chl Station1 ni
hosts op Chl g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

CHMni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Canopy_Height_Model

Canopy Height Model (CHM) The CHM is a derived LiDAR product that represents vegetation height above ground, computed as the difference between the DSM and the DTM: CHM = DSM − DTM It is delivered as a raster map in meters (m).
belongs to
Soil Property c
Vegetation Property c
has facts
is observed by op C H M U A V Li D A R Sensor 1 ni

Clock A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Clock_AEMET_Sensor_UTIEL

Sensor Clock_AEMET hosted by AEMET_UTIEL_Station
belongs to
Clock_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op time ni

cloud maskni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#cloud_mask

A 'cloud mask' in remote sensing refers to a technique or dataset used to identify and delineate areas covered by clouds in an image captured from a satellite or other observation platform. This technique is crucial in remote sensing as clouds can obstruct visibility of the Earth's surface, making it challenging to interpret images and analyze data."
belongs to
Atmosphere Property c
has facts
is observed by op Cloud Mask M E T E O S A T Sensor 1 ni

Cloud Mask M E T E O S A T Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudMask_METEOSAT_Sensor_1

CloudMask_METEOSAT Sensor hosted by METEOSAT Product_1
belongs to
R S M E T E O S A T c
has facts
is hosted by op M E T E O S A T Product 1 ni
observes op cloud mask ni

cloud typeni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#cloud_type

"'Cloud type' in remote sensing refers to the classification or categorization of clouds based on their visual characteristics and structural features observed in satellite or aerial imagery.
belongs to
Atmosphere Property c
has facts
is observed by op Cloud Type M E T E O S A T Sensor 1 ni

Cloud Type M E T E O S A T Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#CloudType_METEOSAT_Sensor_1

CloudType_METEOSAT Sensor hosted by METEOSAT Product_1
belongs to
R S M E T E O S A T c
has facts
is hosted by op M E T E O S A T Product 1 ni
observes op cloud type ni

Comunitat Valencianani back to ToC or Named Individual ToC

IRI: http://datos.gob.es/recurso/sector-publico/territorio/Autonomia/Comunitat-Valenciana

belongs to
Autonomous Community c

Coniferous Forestni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Coniferous_Forest

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "311"^^integer

CRIni back to ToC or Named Individual ToC

IRI: http://aims.fao.org/aos/agrovoc/c_1333

Carotenoid Reflectance Index 1 (CRI1) Carotenoids function in light absorption processes in plants, as well as in protecting plants from the harmful effects of too much light. Weakening vegetation contains higher concentrations of carotenoids, so this index is one measure of stressed vegetation. Higher CRI1 values mean greater carotenoid concentration relative to chlorophyll. The value of this index ranges from 0 to more than 15. The common range for green vegetation is 1 to 12. This index uses reflectance measurements in the visible spectrum to take advantage of the absorption signatures of stress-related pigments. See Narrowband Definitions for the allowable range of wavelengths.
belongs to
Vegetation Property c
has facts
is observed by op C R I U A V Hyperspectral Sensor 1 ni

Cubic Metre Per Cubic Metreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/M3-PER-M3

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "1.0"^^decimal
has Dimension Vector ap A0 E0 L0 I0 M0 H0 T0 D1 ep
has Quantity Kind ap Volume Fraction ep
iec61360 Code ap "0112/2///62720#UAA767"
is Unit Of System ap S I ni
plain Text Description ap "power of the SI base unit metre with the exponent 3 divided by the power of the SI base unit metre with the exponent 3"
symbol ap "m³/m³"
ucum Code ap "m3.m-3"^^U C U Mcs ep
unece Common Code ap "H60"

D B H U A V Li D A R Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DBH_UAV_LiDAR_Sensor_1

Sensor DBH UAV LiDAR hosted by UAV LiDAR 1.
belongs to
R S U A V Li D A R c
has facts
is hosted by op U A V Li D A R 1 ni
observes op DBH ni

D H P Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DHP_Station_1

DHP Station number 1
belongs to
DHP_Station c
has facts
hasGeometry op Geo D H P Station1 ni
hosts op F A P A R dhp Sensor 1 ni
hosts op F C O V E R dhp Sensor 1 ni
hosts op L A I dhp Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

D H P Station 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DHP_Station_2

DHP Station number 2
belongs to
DHP_Station c
has facts
hasGeometry op Geo D H P Station2 ni
hosts op F A P A R dhp Sensor 2 ni
hosts op F C O V E R dhp Sensor 2 ni
hosts op L A I dhp Sensor 2 ni
control Area op 1x1 Area ni
has Type Of Cover op Fruit trees and berry plantations (olive, almond) ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

D H P Station 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DHP_Station_3

DHP Station number 3
belongs to
DHP_Station c
has facts
hasGeometry op Geo D H P Station3 ni
hosts op F A P A R dhp Sensor 3 ni
hosts op F C O V E R dhp Sensor 3 ni
hosts op L A I dhp Sensor 3 ni
control Area op 10x10 Area ni
has Type Of Cover op Sclerophyllous vegetation ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

D S M U A V Li D A R Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DSM_UAV_LiDAR_Sensor_1

Sensor DSM UAV LiDAR hosted by UAV LiDAR 1.
belongs to
R S U A V Li D A R c
has facts
is hosted by op U A V Li D A R 1 ni
observes op DSM ni

D T M U A V Li D A R Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DTM_UAV_LiDAR_Sensor_1

Sensor DTM UAV LiDAR hosted by UAV LiDAR 1.
belongs to
R S U A V Li D A R c
has facts
is hosted by op U A V Li D A R 1 ni
observes op DTM ni

DBHni back to ToC or Named Individual ToC

IRI: http://aims.fao.org/aos/agrovoc/c_34790

Diameter at Breast Height (DBH). Diameter is generally measured 1.3 m. (4.5 feet) above the ground, which is roughly at breast height. DBH is measured on standing trees outside of the bark.
belongs to
Vegetation Property c
has facts
is observed by op D B H U A V Li D A R Sensor 1 ni

Degreeni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/DEG

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
description ap "A degree (in full, a degree of arc, arc degree, or arcdegree), usually denoted by \(^\circ\) (the degree symbol), is a measurement of plane angle, representing 1/360 of a full rotation; one degree is equivalent to \(2\pi /360 rad\), \(0.017453 rad\). It is not an SI unit, as the SI unit for angles is radian, but is an accepted SI unit."^^Latex String ep
conversion Multiplier ap "0.0174532925"^^decimal
has Dimension Vector ap A0 E0 L0 I0 M0 H0 T0 D1 ep
has Quantity Kind ap Angle ep
iec61360 Code ap "0112/2///62720#UAA024"
informative Reference ap http://www.oxfordreference.com/view/10.1093/acref/9780198605225.001.0001/acref-9780198605225-e-331
om Unit ap degree ep
symbol ap "°"
ucum Code ap "deg"^^U C U Mcs ep
udunits Code ap "°"
unece Common Code ap "DD"

Degree Celsiusni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/DEG_C

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "\(\textit{Celsius}\), also known as centigrade, is a scale and unit of measurement for temperature. It can refer to a specific temperature on the Celsius scale as well as a unit to indicate a temperature interval, a difference between two temperatures or an uncertainty. This definition fixes the magnitude of both the degree Celsius and the kelvin as precisely 1 part in 273.16 (approximately 0.00366) of the difference between absolute zero and the triple point of water. Thus, it sets the magnitude of one degree Celsius and that of one kelvin as exactly the same. Additionally, it establishes the difference between the two scales' null points as being precisely \(273.15\,^{\circ}{\rm C}\).</p>"^^Latex String ep
allowed Unit Of System ap S I ni
conversion Multiplier ap "1.0"^^decimal
conversion Offset ap "273.15"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Celsius
expression ap "\(degC\)"^^Latex String ep
guidance ap "<p>See NIST section <a href=http://physics.nist.gov/Pubs/SP811/sec04.html#4.2.1.1>SP811 section 4.2.1.1</a></p>"^^H T M L
guidance ap "<p>See NIST section <a href=http://physics.nist.gov/Pubs/SP811/sec06.html#6.2.8>SP811 section 6.2.8</a></p>"^^H T M L
has Dimension Vector ap A0 E0 L0 I0 M0 H1 T0 D0 ep
has Quantity Kind ap Boiling Point ep
has Quantity Kind ap Flash Point ep
has Quantity Kind ap Melting Point ep
has Quantity Kind ap Temperature ep
iec61360 Code ap "0112/2///62720#UAA033"
informative Reference ap http://en.wikipedia.org/wiki/Celsius?oldid=494152178
latex Definition ap "\(\,^{\circ}{\rm C}\)"^^Latex String ep
om Unit ap degree Celsius ep
symbol ap "°C"
ucum Code ap "Cel"^^U C U Mcs ep
udunits Code ap "°C"
udunits Code ap "℃"
unece Common Code ap "CEL"
alternative label ap "degree-centigrade"

diffuse_irradianceni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Diffuse_sky_radiation

Diffuse irradiation is the one that reaches the earth's surface from the sky except for the sun due to the scattering and reflection by the compositions of the atmosphere.
belongs to
Radiation Property c
has facts
is observed by op I dif g R A D Sensor 1 ni

direct_irradiance_at_the_surfaceni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Direct_insolation

Direct radiation is the solar radiation which travels on a straight line from the sun down to the earth׳s surface
belongs to
Radiation Property c
has facts
is observed by op I dir g R A D Sensor 1 ni

Disease Status U A V Hyperspectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DiseaseStatus_UAV_Hyperspectral_Sensor_1

Sensor Diseasestatus UAV Hyperspectral hosted by UAV Hyperspectral 1.
belongs to
R S U A V Hyperspectral c
has facts
is hosted by op U A V Hyperspectral 1 ni
observes op DiseaseStatus ni

DiseaseStatusni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Plant_disease

Spectral indicator of plant disease or pathogen-induced stress.
belongs to
Vegetation Property c
has facts
is observed by op Disease Status U A V Hyperspectral Sensor 1 ni

Droughtni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Drought

Drought is a transient climatological anomaly in which the availability of water falls below the usual levels in a geographical area. There is not enough water to meet the needs of plants, animals, and humans residing in that area. The primary cause of all droughts is a lack of rain or precipitation, known as meteorological drought. If it persists, it can lead to a condition characterized by an imbalance between the natural water supply and the natural water demand. In extreme cases, it can lead to aridity.
belongs to
Soil Property c
has facts
is observed by op Drought Index S M O S C A T D S Sensor 1 ni

Drought Index S M O S C A T D S Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#DroughtIndex_SMOS_CATDS_Sensor_1

DroughtIndex_SMOS_CATDS Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op Drought ni

DSMni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Digital_Surface_Model

Digital Surface Model (DSM). A DSM is a LiDAR-derived raster representing the elevation of the uppermost surfaces in the scene, including vegetation, buildings, and all above-ground objects. Pixel values correspond to absolute height in meters (m).
belongs to
Soil Property c
Vegetation Property c
has facts
is observed by op D S M U A V Li D A R Sensor 1 ni

DTMni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Digital_Terrain_Model

Digital Terrain Model (DTM). A DTM is a LiDAR-derived raster representing the elevation of the bare ground surface, with vegetation and artificial structures removed. Each pixel stores the ground height expressed in meters (m).
belongs to
Soil Property c
has facts
is observed by op D T M U A V Li D A R Sensor 1 ni

duration of sunshineni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/duration_of_sunshine

The WMO definition of sunshine is that the surface incident radiative flux from the solar beam (i.e. excluding diffuse skylight) exceeds 120 W m-2. 'Duration' is the length of time for which a condition holds.
belongs to
Atmosphere Property c
has facts
is observed by op Heliograph A E M E T Sensor U T I E L ni

E V I diary 500m a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_diary_500m_a_Sensor_1

EVI_diary_500m_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op EVI ni

E V I diary 500m t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_diary_500m_t_Sensor_1

EVI_diary_500m_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op EVI ni

E V I L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_L8_Sensor_1

EVI_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op EVI ni

E V I L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_L9_Sensor_1

EVI_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op EVI ni

E V I S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_S2_Sensor_1

EVI_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op EVI ni

E V I U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#EVI_UAV_Multispectral_Sensor_1

Sensor EVI UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op EVI ni

EVIni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Enhanced_vegetation_index

The enhanced vegetation index (EVI) is an 'optimized' vegetation index designed to enhance the vegetation signal with improved sensitivity in high biomass regions and improved vegetation monitoring through a de-coupling of the canopy background signal and a reduction in atmosphere influences. EVI is computed following this equation: where: * NIR/red/blue are atmospherically-corrected and partially atmosphere corrected (Rayleigh and ozone absorption) surface reflectances * L is the canopy background adjustment that addresses non-linear, differential NIR and red radiant transfer through a canopy, and * C1, C2 are the coefficients of the aerosol resistance term, which uses the blue band to correct for aerosol influences in the red band. The coefficients adopted in the MODIS-EVI algorithm are: L=1, C1 = 6, C2 = 7.5, and G (gain factor) = 2.5. Whereas the Normalized Difference Vegetation Index (NDVI) is chlorophyll sensitive, the EVI is more responsive to canopy structural variations, including leaf area index (LAI), canopy type, plant physiognomy, and canopy architecture. The two vegetation indices complement each other in global vegetation studies and improve upon the detection of vegetation changes and extraction of canopy biophysical parameters.. Another difference between Normalized Difference Vegetation Index (NDVI) and EVI is that in the presence of snow, NDVI decreases, while EVI increases (Huete, 2002). Starting 2000, and after the launch of the two MODIS sensors on Terra (satellite) and Aqua (satellite) by NASA, EVI was adopted as a standard product by NASA and became extremely popular with users due to its ability to eliminate background and atmosphere noises, as well as its non saturation, a typical NDVI problem. EVI is currently distributed for free by the USGS LP DAAC. (en)
belongs to
Vegetation Property c
has facts
is observed by op E V I L8 Sensor 1 ni
is observed by op E V I L9 Sensor 1 ni
is observed by op E V I S2 Sensor 1 ni
is observed by op E V I U A V Multispectral Sensor 1 ni
is observed by op E V I diary 500m a Sensor 1 ni
is observed by op E V I diary 500m t Sensor 1 ni

F A P A R 8days 500m a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_8days_500m_a_Sensor_1

FAPAR_8days_500m_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op FAPAR ni

F A P A R 8days 500m t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_8days_500m_t_Sensor_1

FAPAR_8days_500m_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op FAPAR ni

F A P A R dhp Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_dhp_Sensor_1

Sensor FAPAR_dhp hosted by DHP_Station_1
belongs to
F A P A R dhp c
has facts
is hosted by op D H P Station 1 ni
observes op FAPAR ni

F A P A R dhp Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_dhp_Sensor_2

Sensor FAPAR_dhp hosted by DHP_Station_2
belongs to
F A P A R dhp c
has facts
is hosted by op D H P Station 2 ni
observes op FAPAR ni

F A P A R dhp Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_dhp_Sensor_3

Sensor FAPAR_dhp hosted by DHP_Station_3
belongs to
F A P A R dhp c
has facts
is hosted by op D H P Station 3 ni
observes op FAPAR ni

F A P A R g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g_Sensor_1

Sensor FAPAR_g hosted by FAPAR_Station_1
belongs to
F A P A R g c
has facts
is hosted by op FAPAR_Station_1 ni
observes op FAPAR ni

F A P A R g Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g_Sensor_2

Sensor FAPAR_g hosted by FAPAR_Station_2
belongs to
F A P A R g c
has facts
is hosted by op FAPAR_Station_2 ni
observes op FAPAR ni

F A P A R g Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g_Sensor_3

Sensor FAPAR_g hosted by FAPAR_Station_3
belongs to
F A P A R g c
has facts
is hosted by op FAPAR_Station_3 ni
observes op FAPAR ni

F A P A R g Sensor 4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_g_Sensor_4

Sensor FAPAR_g hosted by FAPAR_Station_4
belongs to
F A P A R g c
has facts
is hosted by op FAPAR_Station_4 ni
observes op FAPAR ni

F A P A R L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_L8_Sensor_1

FAPAR_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op FAPAR ni

F A P A R L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_L9_Sensor_1

FAPAR_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op FAPAR ni

F A P A R S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_S2_Sensor_1

FAPAR_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op FAPAR ni

F A P A R U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_UAV_Multispectral_Sensor_1

Sensor FAPAR UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op FAPAR ni

F C O V E R dhp Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_dhp_Sensor_1

Sensor FCOVER_dhp hosted by DHP_Station_1
belongs to
F C O V E R dhp c
has facts
is hosted by op D H P Station 1 ni
observes op vegetation area fraction ni

F C O V E R dhp Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_dhp_Sensor_2

Sensor FCOVER_dhp hosted by DHP_Station_2
belongs to
F C O V E R dhp c
has facts
is hosted by op D H P Station 2 ni
observes op vegetation area fraction ni

F C O V E R dhp Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FCOVER_dhp_Sensor_3

Sensor FCOVER_dhp hosted by DHP_Station_3
belongs to
F C O V E R dhp c
has facts
is hosted by op D H P Station 3 ni
observes op vegetation area fraction ni

FAPARni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/fraction_of_surface_downwelling_photosynthetic_radiative_flux_absorbed_by_vegetation

Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The surface called surface means the lower boundary of the atmosphere. The quantity with standard name fraction_of_surface_downwelling_photosynthetic_radiative_flux_absorbed_by_vegetation, often called Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), is the fraction of incoming solar radiation in the photosynthetically active radiation spectral region that is absorbed by a vegetation canopy. Photosynthetic radiation is the part of the spectrum which is used in photosynthesis e.g. 400-700 nm. The range of wavelengths could be specified precisely by the bounds of a coordinate of radiation_wavelength. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Vegetation means any plants e.g. trees, shrubs, grass. The term plants refers to the kingdom of plants in the modern classification which excludes fungi. Plants are autotrophs i.e. producers of biomass using carbon obtained from carbon dioxide.
belongs to
Vegetation Property c
has facts
is observed by op F A P A R 8days 500m a Sensor 1 ni
is observed by op F A P A R 8days 500m t Sensor 1 ni
is observed by op F A P A R L8 Sensor 1 ni
is observed by op F A P A R L9 Sensor 1 ni
is observed by op F A P A R S2 Sensor 1 ni
is observed by op F A P A R U A V Multispectral Sensor 1 ni
is observed by op F A P A R dhp Sensor 1 ni
is observed by op F A P A R dhp Sensor 2 ni
is observed by op F A P A R dhp Sensor 3 ni
is observed by op F A P A R g Sensor 1 ni
is observed by op F A P A R g Sensor 2 ni
is observed by op F A P A R g Sensor 3 ni
is observed by op F A P A R g Sensor 4 ni
is observed by op G I F A P A R S3 Sensor 1 ni
canonical units dp "1"
definition ap "Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The surface called surface means the lower boundary of the atmosphere. The quantity with standard name fraction_of_surface_downwelling_photosynthetic_radiative_flux_absorbed_by_vegetation, often called Fraction of Absorbed Photosynthetically Active Radiation (FAPAR), is the fraction of incoming solar radiation in the photosynthetically active radiation spectral region that is absorbed by a vegetation canopy. Photosynthetic radiation is the part of the spectrum which is used in photosynthesis e.g. 400-700 nm. The range of wavelengths could be specified precisely by the bounds of a coordinate of radiation_wavelength. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Vegetation means any plants e.g. trees, shrubs, grass. The term plants refers to the kingdom of plants in the modern classification which excludes fungi. Plants are autotrophs i.e. producers of biomass using carbon obtained from carbon dioxide."

FAPAR_Station_1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Station_1

FAPAR Station number 1
belongs to
FAPAR_Station c
has facts
hasGeometry op Geo Fapar Station1 ni
hosts op F A P A R g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

FAPAR_Station_2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Station_2

FAPAR Station number 2
belongs to
FAPAR_Station c
has facts
hasGeometry op Geo Fapar Station2 ni
hosts op F A P A R g Sensor 2 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

FAPAR_Station_3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Station_3

FAPAR Station number 3
belongs to
FAPAR_Station c
has facts
hasGeometry op Geo Fapar Station3 ni
hosts op F A P A R g Sensor 3 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

FAPAR_Station_4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#FAPAR_Station_4

FAPAR Station number 4
belongs to
FAPAR_Station c
has facts
hasGeometry op Geo Fapar Station4 ni
hosts op F A P A R g Sensor 4 ni
control Area op 1x1 Area ni
has Type Of Cover op Fruit trees and berry plantations (olive, almond) ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

Fruit trees and berry plantations (olive, almond)ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Fruit_trees_and_berry_plantations_(olive,_almond)

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "222"^^integer

G I F A P A R S3 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GIFAPAR_S3_Sensor_1

GIFAPAR_S3 Sensor hosted by Sentinel-3_OLCI Product_1
belongs to
R S Sentinel 3 O L C I c
has facts
is hosted by op Sentinel 3 O L C I Product 1 ni
observes op FAPAR ni

Geo A E M E T U T I E L Stationni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoAEMET_UTIEL_Station

Geometry for AEMET_UTIEL Station
belongs to
Point c
has facts
as W K T dp "POINT(-1.2448266 39.5756304)"^^Well-known Text Literal ep

Geo Area10x10ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoArea10x10

Geometry for Area 10x10
belongs to
Polygon c
has facts
as W K T dp "POLYGON((-1.2988588877664713 39.521100154754095, -1.1847316828268102 39.54081490415228, -1.208750079178166 39.6344717942142, -1.3230642765111011 39.614845344562724, -1.2988588877664713 39.521100154754095))"^^Well-known Text Literal ep

Geo Area1x1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoArea1x1

Geometry for Area 1x1
belongs to
Polygon c
has facts
as W K T dp "POLYGON((-1.2939949897320053 39.56823169575823, -1.2848661251779374 39.56635759238152, -1.2822364330071265 39.574031452585494, -1.2913234744322741 39.57587693817528,-1.2939949897320053 39.56823169575823))"^^Well-known Text Literal ep

Geo Chl Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoChlStation1

Geometry for ChlStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.288622074710214 39.57021941427273)"^^Well-known Text Literal ep

Geo D H P Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoDHPStation1

Geometry for DHPStation1.
belongs to
Point c
has facts
as W K T dp "POINT(-1.288622074710214 39.57021941427273)"^^Well-known Text Literal ep

Geo D H P Station2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoDHPStation2

Geometry for DHPStation2.
belongs to
Point c
has facts
as W K T dp "POINT(-1.2847441664077326 39.570841503829705)"^^Well-known Text Literal ep

Geo D H P Station3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoDHPStation3

Geometry for DHPStation3.
belongs to
Point c
has facts
as W K T dp "POINT(-1.2951787557504284 39.5737892463047)"^^Well-known Text Literal ep

Geo Eddy Covariance Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoEddyCovariance_Station1

Geometry for EddyCovariance_Station1.
belongs to
Point c
has facts
as W K T dp "POINT(-1.2883633273781312 39.57131761093812)"^^Well-known Text Literal ep

Geo Fapar Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoFaparStation1

Geometry of FPARStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.28841896067973 39.571199347105676)"^^Well-known Text Literal ep

Geo Fapar Station2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoFaparStation2

Geometry of FAPAR Station 2
belongs to
Point c
has facts
as W K T dp "POINT(-1.2880175117684332 39.570549130066915)"^^Well-known Text Literal ep

Geo Fapar Station3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoFaparStation3

Geometry of FAPAR Station 2
belongs to
Point c
has facts
as W K T dp "POINT(-1.289300714535875 39.57036677348055)"^^Well-known Text Literal ep

Geo Fapar Station4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoFaparStation4

Geometry of FAPAR Station 4
belongs to
Point c
has facts
as W K T dp "POINT(-1.2913354241076542 39.56917563637111)"^^Well-known Text Literal ep

Geo L A I Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLAIStation1

Geometry of LAIStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.288622074710214 39.57021941427273)"^^Well-known Text Literal ep

Geo L A I Station2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLAIStation2

Geometry of LAIStation2
belongs to
Point c
has facts
as W K T dp "POINT(-1.2847441664077326 39.570841503829705)"^^Well-known Text Literal ep

Geo L S E Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation1

Geometry of LSEStation1
belongs to
Point c
has facts
has Serialization dp "POINT(-1.288301445220414 39.57061365081936)"^^Well-known Text Literal ep

Geo L S E Station2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation2

Geometry of LSEStation2
belongs to
Point c
has facts
as W K T dp "POINT(-1.2880338126128827 39.570644964498435)"^^Well-known Text Literal ep

Geo L S E Station3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation3

Geometry of LSEStation3
belongs to
Point c
has facts
as W K T dp "POINT(-1.2880816041499419 39.57087889565335)"^^Well-known Text Literal ep

Geo L S E Station4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation4

Geometry of LSEStation4
belongs to
Point c
has facts
as W K T dp "POINT(-1.2881771872240602 39.571355965404955)"^^Well-known Text Literal ep

Geo L S E Station5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation5

Geometry of LSEStation5
belongs to
Point c
has facts
as W K T dp "POINT(-1.2884519885621504 39.571306232418095)"^^Well-known Text Literal ep

Geo L S E Station6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSEStation6

Geometry of LSEStation6
belongs to
Point c
has facts
as W K T dp "POINT(-1.2883516263343262 39.57084574010458)"^^Well-known Text Literal ep

Geo L S T Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoLSTStation1

Geometry of LSTStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.2882106413000016 39.5707646931409)"^^Well-known Text Literal ep

Geo N2 Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoN2Station1

Geometry of N2Station1
belongs to
Point c
has facts
as W K T dp "POINT(-1.288622074710214 39.57021941427273)"^^Well-known Text Literal ep

Geo R A D Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoRADStation1

Geometry of RADStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.288153881964872 39.57070980677462)"^^Well-known Text Literal ep

Geo S M Station1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation1

Geometry of SMStation1
belongs to
Point c
has facts
as W K T dp "POINT(-1.2882082517231486 39.570737063472514)"^^Well-known Text Literal ep

Geo S M Station2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation2

Geometry of SMStation2
belongs to
Point c
has facts
as W K T dp "POINT(-1.28841896067973 39.571199347105676)"^^Well-known Text Literal ep

Geo S M Station3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation3

Geometry of SMStation3
belongs to
Point c
has facts
as W K T dp "POINT(-1.2880175117684332 39.570549130066915)"^^Well-known Text Literal ep

Geo S M Station4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation4

Geometry of SMStation4
belongs to
Point c
has facts
as W K T dp "POINT(-1.2913354241076542 39.56917563637111)"^^Well-known Text Literal ep

Geo S M Station5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation5

Geometry of SMStation5
belongs to
Point c
has facts
as W K T dp "POINT(-1.289300714535875 39.57036677348055)"^^Well-known Text Literal ep

Geo S M Station6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#GeoSMStation6

Geometry of SMStation6
belongs to
Point c
has facts
as W K T dp "POINT(-1.277015705423016 39.54823877922652)"^^Well-known Text Literal ep

Gram Per Cubic Metreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/GM-PER-M3

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "0.001"^^decimal
has Dimension Vector ap A0 E0 L 3 I0 M1 H0 T0 D0 ep
has Quantity Kind ap Mass Density ep
iec61360 Code ap "0112/2///62720#UAA487"
plain Text Description ap "0,001-fold of the SI base unit kilogram divided by the power of the SI base unit metre with the exponent 3"
symbol ap "g/m³"
ucum Code ap "g.m-3"^^U C U Mcs ep
ucum Code ap "g/m3"^^U C U Mcs ep
unece Common Code ap "A93"

Hectopascalni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/HectoPA

Hectopascal is commonly used in meteorology to report values for atmospheric pressure. It is equivalent to millibar.
Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "Hectopascal is a unit of pressure. 1 Pa is approximately the pressure exerted by a 10-g mass resting on a 1-cm2 area. 1013 hPa = 1 atm. There are 100 pascals in 1 hectopascal."^^H T M L
applicable System ap S I ni
conversion Multiplier ap "100.0"^^decimal
exact Match ap Milli B A R ep
has Dimension Vector ap A0 E0 L 1 I0 M1 H0 T 2 D0 ep
has Quantity Kind ap Force Per Area ep
has Quantity Kind ap Modulus Of Elasticity ep
has Quantity Kind ap Vapor Pressure ep
iec61360 Code ap "0112/2///62720#UAA527"
symbol ap "hPa"
ucum Code ap "hPa"^^U C U Mcs ep
unece Common Code ap "A97"

Heliograph A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Heliograph_AEMET_Sensor_UTIEL

Sensor Heliograph_AEMET hosted by AEMET_UTIEL_Station
belongs to
Heliograph_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op duration of sunshine ni

Hourni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/HR

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
description ap "The hour (common symbol: h or hr) is a unit of measurement of time. In modern usage, an hour comprises 60 minutes, or 3,600 seconds. It is approximately 1/24 of a mean solar day. An hour in the Universal Coordinated Time (UTC) time standard can include a negative or positive leap second, and may therefore have a duration of 3,599 or 3,601 seconds for adjustment purposes. Although it is not a standard defined by the International System of Units, the hour is a unit accepted for use with SI, represented by the symbol h."^^H T M L
applicable System ap I M P E R I A L ep
applicable System ap S I ni
applicable System ap U S C S ep
conversion Multiplier ap "3600.0"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Hour
defined Unit Of System ap U S C S ep
has Dimension Vector ap A0 E0 L0 I0 M0 H0 T1 D0 ep
has Quantity Kind ap Time ep
iec61360 Code ap "0112/2///62720#UAA525"
informative Reference ap http://en.wikipedia.org/wiki/Hour?oldid=495040268
om Unit ap hour ep
symbol ap "hr"
ucum Code ap "h"^^U C U Mcs ep
udunits Code ap "h"
unece Common Code ap "HUR"

Hs g Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hs_g_EddyCovariance_Sensor_1

Hs_g_EddyCovariance Sensor hosted by EddyCovariance_Station_1
belongs to
Hs g c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op sensible_heat_flux ni

Humidityni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Humidity

The humidity of the air is due to the water vapor present in the atmosphere. This vapor comes from the evaporation of terrestrial water bodies. The amount of water vapor that air can hold depends on its temperature. Warm air can hold more water vapor than cold air. One way to measure atmospheric humidity is through a hygrometer
belongs to
Meteorology Property c

Hygrometer A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hygrometer_AEMET_Sensor_UTIEL

Sensor Hygrometer_AEMET hosted by AEMET_UTIEL_Station
belongs to
Hygrometer_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op relative humidity ni

Hygrometer Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Hygrometer_EddyCovariance_Sensor_1

Hygrometer_EddyCovariance Sensor hosted by EddyCovariance_Station_1
belongs to
Hygrometer Eddy Covariance c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op relative humidity ni

I dif g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#I_dif_g_RAD_Sensor_1

I_dif_g_RAD Sensor hosted by RAD_Station_1
belongs to
I dif g c
has facts
is hosted by op R A D Station 1 ni
observes op diffuse_irradiance ni

I dir g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#I_dir_g_RAD_Sensor_1

I_dir_g_RAD Sensor hosted by RAD_Station_1
belongs to
I dir g c
has facts
is hosted by op R A D Station 1 ni
observes op direct_irradiance_at_the_surface ni

Kilopascalni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/KiloPA

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "Kilopascal is a unit of pressure. 1 kPa is approximately the pressure exerted by a 10-g mass resting on a 1-cm2 area. 101.3 kPa = 1 atm. There are 1,000 pascals in 1 kilopascal."^^H T M L
allowed Unit Of System ap S I ni
conversion Multiplier ap "1000.0"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Pascal_%28unit%29
has Dimension Vector ap A0 E0 L 1 I0 M1 H0 T 2 D0 ep
has Quantity Kind ap Force Per Area ep
has Quantity Kind ap Vapor Pressure ep
iec61360 Code ap "0112/2///62720#UAA575"
is Scaling Of ap P A ep
symbol ap "kPa"
ucum Code ap "kPa"^^U C U Mcs ep
unece Common Code ap "KPA"
unit Of System ap S I ni

L A I dhp Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_dhp_Sensor_1

Sensor LAI_dhp hosted by LAI_Station_1
belongs to
L A I dhp c
has facts
is hosted by op D H P Station 1 ni
observes op LAI ni

L A I dhp Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_dhp_Sensor_2

Sensor LAI_dhp hosted by LAI_Station_2
belongs to
L A I dhp c
has facts
is hosted by op D H P Station 2 ni
observes op LAI ni

L A I dhp Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_dhp_Sensor_3

Sensor LAI_dhp hosted by LAI_Station_3
belongs to
L A I dhp c
has facts
is hosted by op D H P Station 3 ni
observes op LAI ni

L A I g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_g_Sensor_1

Sensor LAI_g hosted by LAI_Station_1
belongs to
L A I g c
has facts
is hosted by op L A I Station 1 ni
observes op LAI ni

L A I g Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_g_Sensor_2

Sensor LAI_g hosted by LAI_Station_2
belongs to
L A I g c
has facts
is hosted by op L A I Station 2 ni
observes op LAI ni

L A I L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_L8_Sensor_1

LAI_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op LAI ni

L A I L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_L9_Sensor_1

LAI_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op LAI ni

L A I S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_S2_Sensor_1

LAI_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op LAI ni

L A I Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Station_1

LAI Station number 1
belongs to
LAI_Station c
has facts
hasGeometry op Geo L A I Station1 ni
hosts op L A I g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L A I Station 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_Station_2

LAI Station number 2
belongs to
LAI_Station c
has facts
hasGeometry op Geo L A I Station2 ni
hosts op L A I g Sensor 2 ni
control Area op 1x1 Area ni
has Type Of Cover op Fruit trees and berry plantations (olive, almond) ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L A I U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LAI_UAV_Multispectral_Sensor_1

Sensor LAI UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op LAI ni

L E g Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LE_g_EddyCovariance_Sensor_1

Sensor LE_g_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
L E g c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op upward latent heat flux in air ni

L S E g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_1

Sensor LSE_g hosted by LSE_Station_1
belongs to
L S E g c
has facts
is hosted by op L S E Station 1 ni
observes op surface longwave emissivity ni

L S E g Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_2

Sensor LSE_g hosted by LSE_Station_2
belongs to
L S E g c
has facts
is hosted by op L S E Station 2 ni
observes op surface longwave emissivity ni

L S E g Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_3

Sensor LSE_g hosted by LSE_Station_3
belongs to
L S E g c
has facts
is hosted by op L S E Station 3 ni
observes op surface longwave emissivity ni

L S E g Sensor 4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_4

Sensor LSE_g hosted by LSE_Station_4
belongs to
L S E g c
has facts
is hosted by op L S E Station 4 ni
observes op surface longwave emissivity ni

L S E g Sensor 5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_5

Sensor LSE_g hosted by LSE_Station_5
belongs to
L S E g c
has facts
is hosted by op L S E Station 5 ni
observes op surface longwave emissivity ni

L S E g Sensor 6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_g_Sensor_6

Sensor LSE_g hosted by LSE_Station_6
belongs to
L S E g c
has facts
is hosted by op L S E Station 6 ni
observes op surface longwave emissivity ni

L S E Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_1

LSE Station number 1
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station1 ni
hosts op L S E g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S E Station 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_2

LSE Station number 2
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station2 ni
hosts op L S E g Sensor 2 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S E Station 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_3

LSE Station number 3
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station3 ni
hosts op L S E g Sensor 3 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S E Station 4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_4

LSE Station number 4
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station4 ni
hosts op L S E g Sensor 4 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S E Station 5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_5

LSE Station number 5
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station5 ni
hosts op L S E g Sensor 5 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S E Station 6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LSE_Station_6

LSE Station number 6
belongs to
LSE_Station c
has facts
hasGeometry op Geo L S E Station6 ni
hosts op L S E g Sensor 6 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S T 8days 1km a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_8days_1km_a_Sensor_1

LST_8days_1km_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op LST ni

L S T 8days 1km t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_8days_1km_t_Sensor_1

LST_8days_1km_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op LST ni

L S T diary 1km a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_diary_1km_a_Sensor_1

LST_diary_1km_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op LST ni

L S T diary 1km t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_diary_1km_t_Sensor_1

LST_diary_1km_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op LST ni

L S T g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_g_Sensor_1

LST_g Sensor hosted by LST_Station_1
belongs to
L S T g c
has facts
is hosted by op L S T Station 1 ni
observes op LST ni

L S T L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_L8_Sensor_1

LST_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op LST ni

L S T L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_L9_Sensor_1

LST_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op LST ni

L S T S3 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_S3_Sensor_1

LST_S3 Sensor hosted by Sentinel-3_SLSTR Product_1
belongs to
R S Sentinel 3 S L S T R c
has facts
is hosted by op Sentinel 3 S L S T R Product 1 ni
observes op LST ni

L S T Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_Station_1

LST Station number 1
belongs to
LST_Station c
has facts
hasGeometry op Geo L S T Station1 ni
hosts op L S T g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

L S T U A V Thermal Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LST_UAV_Thermal_Sensor_1

Sensor LST UAV Thermal hosted by UAV Thermal 1.
belongs to
R S U A V Thermal c
has facts
is hosted by op U A V Thermal 1 ni
observes op LST ni

L W down g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LW_down_g_RAD_Sensor_1

LW_down_g_RAD Sensor hosted by RAD_Station_1
belongs to
L W down g c
has facts
is hosted by op R A D Station 1 ni
observes op surface downwelling longwave flux in air ni

L W up g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LW_up_g_RAD_Sensor_1

LW_up_g_RAD Sensor hosted by RAD_Station_1
belongs to
L W up g c
has facts
is hosted by op R A D Station 1 ni
observes op upwelling longwave flux in air ni

LAIni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/leaf_area_index

X_area means the horizontal area occupied by X within the grid cell.
belongs to
Vegetation Property c
has facts
is observed by op L A I L8 Sensor 1 ni
is observed by op L A I L9 Sensor 1 ni
is observed by op L A I S2 Sensor 1 ni
is observed by op L A I U A V Multispectral Sensor 1 ni
is observed by op L A I dhp Sensor 1 ni
is observed by op L A I dhp Sensor 2 ni
is observed by op L A I dhp Sensor 3 ni
is observed by op L A I g Sensor 1 ni
is observed by op L A I g Sensor 2 ni
canonical units dp "1"
definition ap "X_area means the horizontal area occupied by X within the grid cell."

Land Cover S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#LandCover_S2_Sensor_1

LandCover_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op Landcover ni

Land surfaceni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Land_surface

Earth's relief refers to the term that defines the shapes and features of the Earth's crust or lithosphere on the surface, both concerning landforms on emerged lands and the oceanic relief, which pertains to the seafloor. It is the subject of study in geomorphology and physical geography, especially when referring to continental and island lands. Pierre George provides a simple definition of Earth's relief: The Earth's relief is the raised part of the globe's surface, such as hills or mountains.
belongs to
Feature Of Interest c

Landcoverni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/land_cover_lccs

A variable with the standard name of land_cover_lccs contains strings which indicate the nature of the surface, e.g. cropland_..., tree_... . Each string should represent a land cover class constructed using the Land Cover Classification System (LCCS; Di Gregorio A., 2005, UN Land Cover Classification System (LCCS) - Classification concepts and user manual for Software version 2; available at www.fao.org/DOCREP/003/X0596E/X0596e00.htm). String values should represent the classifiers used to define each class.
belongs to
Vegetation Property c
has facts
is observed by op Land Cover S2 Sensor 1 ni
definition ap "A variable with the standard name of land_cover_lccs contains strings which indicate the nature of the surface, e.g. cropland_..., tree_... . Each string should represent a land cover class constructed using the Land Cover Classification System (LCCS; Di Gregorio A., 2005, UN Land Cover Classification System (LCCS) - Classification concepts and user manual for Software version 2; available at www.fao.org/DOCREP/003/X0596E/X0596e00.htm). String values should represent the classifiers used to define each class."

Landsat 8 Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-8_Product_1

Landsat-8 Product number 1
belongs to
Landsat-8_Product c
has facts
hosts op Chl L8 Sensor 1 ni
hosts op E V I L8 Sensor 1 ni
hosts op F A P A R L8 Sensor 1 ni
hosts op L A I L8 Sensor 1 ni
hosts op L S T L8 Sensor 1 ni
hosts op N D V I L8 Sensor 1 ni
hosts op S A V I L8 Sensor 1 ni
hosts op S R L8 Sensor 1 ni

Landsat 8 Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-8_Satellite

Landsat 8 satellite.
belongs to
Landsat-8 c

Landsat 9 Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-9_Product_1

Landsat-9 Product number 1
belongs to
Landsat-8_Product c
has facts
hosts op Chl L9 Sensor 1 ni
hosts op E V I L9 Sensor 1 ni
hosts op F A P A R L9 Sensor 1 ni
hosts op L A I L9 Sensor 1 ni
hosts op L S T L9 Sensor 1 ni
hosts op N D V I L9 Sensor 1 ni
hosts op S A V I L9 Sensor 1 ni
hosts op S R L9 Sensor 1 ni

Landsat 9 Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Landsat-9_Satellite

Landsat 9 satellite.
belongs to
Landsat-9 c

Lengthni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/quantitykind/Length

Length

LSTni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/surface_temperature

The surface called surface means the lower boundary of the atmosphere. The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies.
belongs to
Land Surface Property c
has facts
is observed by op L S T 8days 1km a Sensor 1 ni
is observed by op L S T 8days 1km t Sensor 1 ni
is observed by op L S T L8 Sensor 1 ni
is observed by op L S T L9 Sensor 1 ni
is observed by op L S T S3 Sensor 1 ni
is observed by op L S T U A V Thermal Sensor 1 ni
is observed by op L S T diary 1km a Sensor 1 ni
is observed by op L S T diary 1km t Sensor 1 ni
is observed by op L S T g Sensor 1 ni
canonical units dp "Celsius"
definition ap "The surface called surface means the lower boundary of the atmosphere. The surface temperature is the temperature at the interface, not the bulk temperature of the medium above or below. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies."

M E T E O S A T Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#METEOSAT_Product_1

METEOSAT Station number 1
belongs to
METEOSAT_Product c
has facts
hosts op Cloud Mask M E T E O S A T Sensor 1 ni
hosts op Cloud Type M E T E O S A T Sensor 1 ni
hosts op P W C M E T E O S A T Sensor 1 ni

M E T E O S A T Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#METEOSAT_Satellite

Meteosat satellite.
belongs to
METEOSAT c

M O D I S Aqua Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Aqua_Product_1

Modis-Aqua Product number 1
belongs to
MODIS-Aqua_Product c
has facts
hosts op E V I diary 500m a Sensor 1 ni
hosts op F A P A R 8days 500m a Sensor 1 ni
hosts op L S T 8days 1km a Sensor 1 ni
hosts op L S T diary 1km a Sensor 1 ni
hosts op N D V I 16days 1km a Sensor 1 ni
hosts op N D V I 16days 250m a Sensor 1 ni
hosts op N D V I 16days 500m a Sensor 1 ni
hosts op N D V I diary 500m a Sensor 1 ni

M O D I S Aqua Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Aqua_Satellite

Modis Aqua satellite.
belongs to
MODIS-Aqua c

M O D I S Terra Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Terra_Product_1

MODIS-TerraProduct number 1
belongs to
MODIS-Terra_Product c
has facts
hosts op E V I diary 500m t Sensor 1 ni
hosts op F A P A R 8days 500m t Sensor 1 ni
hosts op L S T 8days 1km t Sensor 1 ni
hosts op L S T diary 1km t Sensor 1 ni
hosts op N D V I 16days 1km t Sensor 1 ni
hosts op N D V I 16days 250m t Sensor 1 ni
hosts op N D V I 16days 500m t Sensor 1 ni
hosts op N D V I diary 500m t Sensor 1 ni

M O D I S Terra Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#MODIS-Terra_Satellite

Modis Terra satellite.
belongs to
MODIS-Terra c

Metreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/M

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
description ap "The metric and SI base unit of distance. The 17th General Conference on Weights and Measures in 1983 defined the meter as that distance that makes the speed of light in a vacuum equal to exactly 299 792 458 meters per second. The speed of light in a vacuum, \(c\), is one of the fundamental constants of nature. The meter is equal to approximately 1.093 613 3 yards, 3.280 840 feet, or 39.370 079 inches."^^Latex String ep
conversion Multiplier ap "1.0"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Metre
defined Unit Of System ap S I ni
has Quantity Kind ap Length ni
iec61360 Code ap "0112/2///62720#UAA726"
informative Reference ap http://en.wikipedia.org/wiki/Metre?oldid=495145797
is Unit Of System ap S I ni
om Unit ap metre ep
plain Text Description ap "The metric and SI base unit of distance. The meter is equal to approximately 1.093 613 3 yards, 3.280 840 feet, or 39.370 079 inches."
symbol ap "m"
ucum Code ap "m"^^U C U Mcs ep
udunits Code ap "m"
unece Common Code ap "MTR"

Metre per Secondni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/M-PER-SEC

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "Metre per second is an SI derived unit of both speed (scalar) and velocity (vector quantity which specifies both magnitude and a specific direction), defined by distance in metres divided by time in seconds. The official SI symbolic abbreviation is mu00b7s-1, or equivalently either m/s."^^H T M L
conversion Multiplier ap "1.0"^^decimal
defined Unit Of System ap S I ni
derived Coherent Unit Of System ap S I ni
expression ap "\(m/s\)"^^Latex String ep
has Dimension Vector ap A0 E0 L1 I0 M0 H0 T 1 D0 ep
has Quantity Kind ap Electromagnetic Wave Phase Speed ep
has Quantity Kind ap Speed ep
has Quantity Kind ap Velocity ep
iec61360 Code ap "0112/2///62720#UAA733"
symbol ap "m/s"
ucum Code ap "m.s-1"^^U C U Mcs ep
ucum Code ap "m/s"^^U C U Mcs ep
unece Common Code ap "MTS"

Microgram per square centimetreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MicroG-PER-CentiM2

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "0.01"^^double
conversion Offset ap "0.0"^^double
has Dimension Vector ap A0 E0 L 2 I0 M1 H0 T0 D0 ep
has Quantity Kind ap Mass Per Area ep
plain Text Description ap "A unit of mass per area, equivalent to 0.01 grammes per square metre"
symbol ap "µg/cm²"

Micromoles per square metreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MicroMOL-PER-M2

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
description ap "One part per 10**6 (million) of the SI unit of quantity of matter (the mole) per SI unit area."@en
conversion Multiplier ap "0.000001"^^decimal
has Dimension Vector ap A1 E0 L 2 I0 M0 H0 T0 D0 ep
symbol ap "µmol/m²"
ucum Code ap "umol.m-2"^^U C U Mcs ep
ucum Code ap "umol/m2"^^U C U Mcs ep

Milligram Per Gramni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MilliGM-PER-GM

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "0.001"^^decimal
has Dimension Vector ap A0 E0 L0 I0 M0 H0 T0 D1 ep
has Quantity Kind ap Mass Ratio ep
iec61360 Code ap "0112/2///62720#UAA822"
is Unit Of System ap S I ni
plain Text Description ap "0.000001-fold of the SI base unit kilogram divided by the 0.001-fold of the SI base unit kilogram"
qkdv Denominator ap A0 E0 L0 I0 M1 H0 T0 D0 ep
qkdv Numerator ap A0 E0 L0 I0 M1 H0 T0 D0 ep
symbol ap "mg/gm"
ucum Code ap "mg.g-1"^^U C U Mcs ep
ucum Code ap "mg/g"^^U C U Mcs ep
unece Common Code ap "H64"

Milligram Per Hectareni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MilliGM-PER-HA

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "0.0000000001"^^decimal
has Dimension Vector ap A0 E0 L 2 I0 M1 H0 T0 D0 ep
has Quantity Kind ap Mass Per Area ep
iec61360 Code ap "0112/2///62720#UAA818"
is Unit Of System ap S I ni
plain Text Description ap "0.000001-fold of the SI base unit kilogram divided by the 10,0000-fold of the power of the SI base unit metre with the exponent 2"
ucum Code ap "mg.har-1"^^U C U Mcs ep

Milligrams per square metre per secondni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MilliGM-PER-M2-SEC

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
conversion Multiplier ap "0.000001"^^decimal
has Dimension Vector ap A0 E0 L 2 I0 M1 H0 T 1 D0 ep
has Quantity Kind ap Mass Per Area Time ep
symbol ap "mg/(m²⋅s)"
ucum Code ap "mg.m-2.s-1"^^U C U Mcs ep

Millimetreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/MilliM

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "The millimetre (International spelling as used by the International Bureau of Weights and Measures) or millimeter (American spelling) (SI unit symbol mm) is a unit of length in the metric system, equal to one thousandth of a metre, which is the SI base unit of length. It is equal to 1000 micrometres or 1000000 nanometres. A millimetre is equal to exactly 5/127 (approximately 0.039370) of an inch."^^H T M L
applicable System ap S I ni
conversion Multiplier ap "0.001"^^decimal
dbpedia Match ap http://dbpedia.org/resource/Millimetre
expression ap "\(mm\)"^^Latex String ep
has Quantity Kind ap Length ni
iec61360 Code ap "0112/2///62720#UAA862"
informative Reference ap http://en.wikipedia.org/wiki/Millimetre?oldid=493032457
is Unit Of System ap S I ni
prefix ap Milli ep
symbol ap "mm"
ucum Code ap "mm"^^U C U Mcs ep
unece Common Code ap "MMT"
alternative label ap "mil"@en-gb

N D V I 16days 1km a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_1km_a_Sensor_1

NDVI_16days_1km_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op NDVI ni

N D V I 16days 1km t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_1km_t_Sensor_1

NDVI_16days_1km_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op NDVI ni

N D V I 16days 250m a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_250m_a_Sensor_1

NDVI_16days_250m_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op NDVI ni

N D V I 16days 250m t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_250m_t_Sensor_1

NDVI_16days_250m_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op NDVI ni

N D V I 16days 500m a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_500m_a_Sensor_1

NDVI_16days_500m_a Sensor hosted by MODIS-Aqua Product_1
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op NDVI ni

N D V I 16days 500m t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_16days_500m_t_Sensor_1

NDVI_16days_500m_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op NDVI ni

N D V I diary 500m a Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_diary_500m_a_Sensor_1

NDVI_diary_500m_a Sensor hosted by MODIS-Aqua Product_11
belongs to
R S M O D I S Aqua c
has facts
is hosted by op M O D I S Aqua Product 1 ni
observes op NDVI ni

N D V I diary 500m t Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_diary_500m_t_Sensor_1

NDVI_diary_500m_t Sensor hosted by MODIS-TerraProduct_1
belongs to
R S M O D I S Terra c
has facts
is hosted by op M O D I S Terra Product 1 ni
observes op NDVI ni

N D V I L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_L8_Sensor_1

NDVI_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op NDVI ni

N D V I L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_L9_Sensor_1

NDVI_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op NDVI ni

N D V I S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_S2_Sensor_1

NDVI_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op NDVI ni

N D V I U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDVI_UAV_Multispectral_Sensor_1

Sensor NDVI UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op NDVI ni

N D W I U A V Hyperspectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NDWI_UAV_Hyperspectral_Sensor_1

Sensor NDWI UAV Hyperspectral hosted by UAV Hyperspectral 1.
belongs to
R S U A V Hyperspectral c
has facts
is hosted by op U A V Hyperspectral 1 ni
observes op NDWI ni

N R I U A V Hyperspectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#NRI_UAV_Hyperspectral_Sensor_1

Sensor NRI UAV Hyperspectral hosted by UAV Hyperspectral 1.
belongs to
R S U A V Hyperspectral c
has facts
is hosted by op U A V Hyperspectral 1 ni
observes op NRI ni

N2 g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#N2_g_Sensor_1

N2_g Sensor hosted by N2_Station_1
belongs to
N2 g c
has facts
is hosted by op N2 Station 1 ni
observes op Nitrogen_Concentration ni

N2 Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#N2_Station_1

N2 Station number 1
belongs to
N2_Station c
has facts
hasGeometry op Geo N2 Station1 ni
hosts op N2 g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

NDVIni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/normalized_difference_vegetation_index

NDVI quantifies the liveliness of green vegetation in an area.
Normalized_difference_vegetation_index, usually abbreviated to NDVI, is an index calculated from reflectances measured in the visible and near infrared channels. It is calculated as NDVI = (NIR - R) / (NIR + R) where NIR is the reflectance in the near-infrared band and R is the reflectance in the red visible band. Reflectance is the ratio of the reflected over the incoming radiation in each spectral band. The calculated value of NDVI depends on the precise definitions of the spectral bands and these definitions may vary between different models and remote sensing instruments.
belongs to
Vegetation Property c
has facts
is observed by op N D V I 16days 1km a Sensor 1 ni
is observed by op N D V I 16days 1km t Sensor 1 ni
is observed by op N D V I 16days 250m a Sensor 1 ni
is observed by op N D V I 16days 250m t Sensor 1 ni
is observed by op N D V I 16days 500m a Sensor 1 ni
is observed by op N D V I 16days 500m t Sensor 1 ni
is observed by op N D V I L8 Sensor 1 ni
is observed by op N D V I L9 Sensor 1 ni
is observed by op N D V I S2 Sensor 1 ni
is observed by op N D V I U A V Multispectral Sensor 1 ni
is observed by op N D V I diary 500m a Sensor 1 ni
is observed by op N D V I diary 500m t Sensor 1 ni
canonical units dp "1"
definition ap "Normalized_difference_vegetation_index, usually abbreviated to NDVI, is an index calculated from reflectances measured in the visible and near infrared channels. It is calculated as NDVI = (NIR - R) / (NIR + R) where NIR is the reflectance in the near-infrared band and R is the reflectance in the red visible band. Reflectance is the ratio of the reflected over the incoming radiation in each spectral band. The calculated value of NDVI depends on the precise definitions of the spectral bands and these definitions may vary between different models and remote sensing instruments."

NDWIni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Normalized_Difference_Water_Index

NDWI – Normalized Difference Water Index Estimates leaf water content and moisture conditions using narrowband reflectance in the NIR and SWIR (or Green–NIR). It is sensitive to vegetation water status and widely used in stress detection.
belongs to
Soil Property c
has facts
is observed by op N R I U A V Hyperspectral Sensor 1 ni

Nitrogen_Concentrationni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/leaf_mass_content_of_nitrogen

Nitrogen dioxide or nitrogen(IV) oxide (NO2) is a chemical compound composed of the elements nitrogen and oxygen, one of the major pollutants among the various nitrogen oxides. Nitrogen dioxide has a brownish-yellow color. It forms as a byproduct in high-temperature combustion processes, such as those in motor vehicles and power plants. Therefore, it is a common pollutant in urban areas.
belongs to
Vegetation Property c
has facts
is observed by op N2 g Sensor 1 ni

Non-irrigated arable landni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Non-irrigated_arable_land

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "211"^^integer

NRIni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Nitrogen_Reflectance_Index

The Nitrogen Reflectance Index (NRI) is a spectral index designed to estimate the nitrogen status of vegetation using reflectance measurements in the visible region. It exploits the sensitivity of chlorophyll‐related absorption features to nitrogen concentration.
belongs to
Vegetation Property c

O T C I S3 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#OTCI_S3_Sensor_1

OTCI_S3 Sensor hosted by Sentinel-3_OLCI Product_1
belongs to
R S Sentinel 3 O L C I c
has facts
is hosted by op Sentinel 3 O L C I Product 1 ni
observes op Chl ni

Orthophotoni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Orthophoto

geometrically corrected aerial photograph
belongs to
Soil Property c
Vegetation Property c
has facts
is observed by op Orthophoto U A V R G B Sensor 1 ni

Orthophoto U A V R G B Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Orthophoto_UAV_RGB_Sensor_1

Sensor Orthophoto UAV RGB hosted by UAV RGB 1.
belongs to
R S U A V R G B c
has facts
is hosted by op U A V R G B 1 ni
observes op Orthophoto ni

P W C M E T E O S A T Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#PWC_METEOSAT_Sensor_1

PWC_METEOSAT Sensor hosted by METEOSAT_Station_1
belongs to
R S M E T E O S A T c
has facts
is hosted by op M E T E O S A T Product 1 ni
observes op PWC ni

Percent Relative Humidityni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/PERCENT_RH

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Unit c
has facts
description ap "Percent relative humidity is the ratio of the partial pressure of water vapor to the equilibrium vapor pressure of water at a given temperature, expressed as a percentage."^^H T M L
applicable System ap A S U ep
applicable System ap C G S E S U ep
applicable System ap I M P E R I A L ep
applicable System ap P L A N C K ep
applicable System ap S I ni
conversion Multiplier ap "0.01"^^decimal
has Dimension Vector ap A0 E0 L0 I0 M0 H0 T0 D1 ep
has Quantity Kind ap Relative Humidity ep
plain Text Description ap "Percent relative humidity is the ratio of the partial pressure of water vapor to the equilibrium vapor pressure of water at a given temperature, expressed as a percentage."
symbol ap "%RH"

Permanently irrigated landni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Permanently_irrigated_land

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "212"^^integer

Pluviometer A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Pluviometer_AEMET_Sensor_UTIEL

Sensor Pluviometer_AEMET hosted by AEMET_UTIEL_Station
belongs to
Pluviometer c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op precipitation amount ni

precipitation amountni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/ioos/parameter/precipitation_amount

The deposit of atmospheric moisture as rain, hail, sleet, snow, frost or dew. Precipition amount is often measured as depth of liquid equivalent moisture at a point but also can be expressed as liquid volume or mass per unit area.
belongs to
Atmosphere Property c
has facts
is observed by op Pluviometer A E M E T Sensor U T I E L ni

PWCni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#precipitable_water_content

Precipitable Water Content (PWC) refers to the amount of water vapor present in a vertical column of the Earth's atmosphere. It is typically expressed in terms of thickness or depth, such as millimeters (mm) or inches (inches), and represents the total depth of liquid water that would result if all the water vapor in the column were condensed and collected.
belongs to
Atmosphere Property c
Land Atmosphere Interaction Property c
has facts
is observed by op P W C M E T E O S A T Sensor 1 ni

R N g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#RN_g_RAD_Sensor_1

RN_g_RAD Sensor hosted by RAD_Station_1
belongs to
R N g c
has facts
is hosted by op R A D Station 1 ni
observes op surface net radiation ni

Radiationni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Radiation

The phenomenon of radiation is the propagation of energy in the form of electromagnetic waves or subatomic particles through a vacuum or a material medium. There are different forms of radiation with distinct properties and effects.
belongs to
Feature Of Interest c

relative humidityni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/ioos/parameter/relative_humidity

Amount of moisture in the air as vapor relative to how much it can possibly hold at the same temperature.
belongs to
Meteorology Property c
has facts
is observed by op Hygrometer A E M E T Sensor U T I E L ni
is observed by op Hygrometer Eddy Covariance Sensor 1 ni

Roughness S M O S C A T D S Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Roughness_SMOS_CATDS_Sensor_1

Roughness_SMOS_CATDS Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op Surface_roughness ni

S A V I L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_L8_Sensor_1

SAVI_L8 Sensor hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op SAVI ni

S A V I L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_L9_Sensor_1

SAVI_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op SAVI ni

S A V I S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_S2_Sensor_1

SAVI_S2_Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op SAVI ni

S A V I U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SAVI_UAV_Multispectral_Sensor_1

Sensor SAVI UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op SAVI ni

S Ini back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/sou/SI

System International of measures.

S M A P Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMAP_Product_1

SMAP Product number 1
belongs to
SMAP_Product c
has facts
hosts op S M S M A P S1 3km Sensor 1 ni
hosts op S M S M A P S1 9km Sensor 1 ni
hosts op S M S M A P 36km Sensor 1 ni

S M A P Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMAP_Satellite

SMAP satellite.
belongs to
SMAP c

S M freeze and Thaw S M O S E S A Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_freeze_and_Thaw_SMOS_ESA_Sensor_1

SM_freeze_and_Thaw_SMOS_ESA Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op SM ni

S M g Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_1

Sensor SM_g hosted by SM_Station_1
belongs to
S M g c
has facts
is hosted by op S M Station 1 ni
observes op SM ni

S M g Sensor 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_2

Sensor SM_g hosted by SM_Station_2
belongs to
S M g c
has facts
is hosted by op S M Station 2 ni
observes op SM ni

S M g Sensor 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_3

Sensor SM_g hosted by SM_Station_3
belongs to
S M g c
has facts
is hosted by op S M Station 3 ni
observes op SM ni

S M g Sensor 4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_4

Sensor SM_g hosted by SM_Station_4
belongs to
S M g c
has facts
is hosted by op S M Station 4 ni
observes op SM ni

S M g Sensor 5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_5

Sensor SM_g hosted by SM_Station_5
belongs to
S M g c
has facts
is hosted by op S M Station 5 ni
observes op SM ni

S M g Sensor 6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_g_Sensor_6

Sensor SM_g hosted by SM_Station_6
belongs to
S M g c
has facts
is hosted by op S M Station 6 ni
observes op SM ni

S M N R T S M O S E S A Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_NRT_SMOS_ESA_Sensor_1

SM_NRT_SMOS_ESA Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op SM ni

S M O S Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMOS_Product_1

SMOS Product number 1
belongs to
SMOS_Product c
has facts
hosts op A G B S M O S C A T D S Sensor 1 ni
hosts op Drought Index S M O S C A T D S Sensor 1 ni
hosts op Roughness S M O S C A T D S Sensor 1 ni
hosts op S M N R T S M O S E S A Sensor 1 ni
hosts op S M S M O S I C C A T D S Sensor 1 ni
hosts op S M S M O S B E C Sensor 1 ni
hosts op S M S M O S E S A Sensor 1 ni
hosts op S M freeze and Thaw S M O S E S A Sensor 1 ni

S M O S Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SMOS_Satellite

SMOS satellite.
belongs to
SMOS c

S M S M A P 36km Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP_36km_Sensor_1

SM_SMAP_36km Sensor hosted by SMAP Product_1
belongs to
R S S M A P c
has facts
is hosted by op S M A P Product 1 ni
observes op SM ni

S M S M A P S1 3km Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP-S1_3km_Sensor_1

SM_SMAP-S1_3km Sensor hosted by SMAP Product_1
belongs to
R S S M A P c
has facts
is hosted by op S M A P Product 1 ni
observes op SM ni

S M S M A P S1 9km Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMAP-S1_9km_Sensor_1

SM_SMAP-S1_9km Sensor hosted by SMAP Product_1
belongs to
R S S M A P c
has facts
is hosted by op S M A P Product 1 ni
observes op SM ni

S M S M O S B E C Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMOS_BEC_Sensor_1

SM_SMOS_BEC Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op SM ni

S M S M O S E S A Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMOS_ESA_Sensor_1

SM_SMOS_ESA Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op SM ni

S M S M O S I C C A T D S Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_SMOS-IC_CATDS_Sensor_1

SM_SMOS-IC_CATDS Sensor hosted by SMOS Product_1
belongs to
R S S M O S c
has facts
is hosted by op S M O S Product 1 ni
observes op SM ni

S M S1 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_S1_Sensor_1

SM_S1 Sensor hosted by Sentinel-1 Product_1
belongs to
R S Sentinel 1 c
has facts
is hosted by op Sentinel 1 Product 1 ni
observes op SM ni

S M Station 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_1

SM Station number 1
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station1 ni
hosts op S M g Sensor 1 ni
control Area op 1x1 Area ni
has Type Of Cover op Bare Soils ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M Station 2ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_2

SM Station number 2
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station2 ni
hosts op S M g Sensor 2 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M Station 3ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_3

SM Station number 3
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station3 ni
hosts op S M g Sensor 3 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M Station 4ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_4

SM Station number 4
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station4 ni
hosts op S M g Sensor 4 ni
control Area op 1x1 Area ni
has Type Of Cover op Fruit trees and berry plantations (olive, almond) ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M Station 5ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_5

SM Station number 5
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station5 ni
hosts op S M g Sensor 5 ni
control Area op 1x1 Area ni
has Type Of Cover op Vineyards ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M Station 6ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_Station_6

SM Station number 6
belongs to
SM_Station c
has facts
hasGeometry op Geo S M Station6 ni
hosts op S M g Sensor 6 ni
control Area op 10x10 Area ni
has Type Of Cover op Sclerophyllous vegetation ni
Located in municipality op Caudete de las Fuentes ni
Located in province op Valencia/València ni

S M U A V Microwave Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SM_UAV_Microwave_Sensor_1

Sensor SM UAV Microwave hosted by UAV Microwave 1.
belongs to
R S U A V Microwave c
has facts
is hosted by op U A V Microwave 1 ni
observes op SM ni

S R L8 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_L8_Sensor_1

Sensor SR_L8 hosted by Landsat-8 Product_1
belongs to
R S Landsat 8 c
has facts
is hosted by op Landsat 8 Product 1 ni
observes op SR ni

S R L9 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_L9_Sensor_1

SR_L9 Sensor hosted by Landsat-9 Product_1
belongs to
R S Landsat 9 c
has facts
is hosted by op Landsat 9 Product 1 ni
observes op SR ni

S R S2 Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_S2_Sensor_1

SR_S2 Sensor hosted by Sentinel-2 Product_1
belongs to
R S Sentinel 2 c
has facts
is hosted by op Sentinel 2 Product 1 ni
observes op SR ni

S R U A V Multispectral Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SR_UAV_Multispectral_Sensor_1

Sensor SR UAV Multispectral hosted by UAV Multispectral 1.
belongs to
R S U A V Multispectral c
has facts
is hosted by op U A V Multispectral 1 ni
observes op SR ni

S W down g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SW_down_g_RAD_Sensor_1

SW_down_g_RAD Sensor hosted by RAD_Station_1
belongs to
S W down g c
has facts
is hosted by op R A D Station 1 ni
observes op surface downwelling shortwave flux in air ni

S W up g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SW_up_g_RAD_Sensor_1

Sensor SW_up_g_RAD hosted by RAD_Station_1
belongs to
S W up g c
has facts
is hosted by op R A D Station 1 ni
observes op upwelling shortwave flux in air ni

SAVIni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Soil-adjusted_vegetation_index

Empirically derived NDVI products have been shown to be unstable, varying with soil colour, soil moisture, and saturation effects from high density vegetation. In an attempt to improve NDVI, Huete developed a vegetation index that accounted for the differential red and near-infrared extinction through the vegetation canopy. The index is a transformation technique that minimizes soil brightness influences from spectral vegetation indices involving red and near-infrared (NIR) wavelengths. The index is given as: where L is a canopy background adjustment factor. An L value of 0.5 in reflectance space was found to minimize soil brightness variations and eliminate the need for additional calibration for different soils.The transformation was found to nearly eliminate soil-induced variations in vegetation indices. (en)
belongs to
Vegetation Property c
has facts
is observed by op S A V I L8 Sensor 1 ni
is observed by op S A V I L9 Sensor 1 ni
is observed by op S A V I S2 Sensor 1 ni
is observed by op S A V I U A V Multispectral Sensor 1 ni

Sclerophyllous vegetationni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sclerophyllous_vegetation

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "321"^^integer

sensible_heat_fluxni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/mmi/usglobec/heat_flux_sens

Sensible heat flux refers to the transfer of heat energy between the Earth's surface and the atmosphere due to a difference in temperature. A positive sensible heat flux means heat is flowing from the atmosphere to the surface. A negative sensible heat flux means heat is flowing from the surface to the atmosphere.
belongs to
Land Atmosphere Interaction Property c
has facts
is observed by op Hs g Eddy Covariance Sensor 1 ni

Sentinel 1 Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-1_Product_1

Sentinel-1 Product number 1
belongs to
Sentinel-1_Product c
has facts
hosts op S M S1 Sensor 1 ni

Sentinel 1 Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-1_Satellite

Sentinel 1 satellite.
belongs to
Sentinel-1 c

Sentinel 2 Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-2_Product_1

Sentinel-2 Product number 1
belongs to
Sentinel-2_Product c
has facts
hosts op Chl S2 Sensor 1 ni
hosts op E V I S2 Sensor 1 ni
hosts op F A P A R S2 Sensor 1 ni
hosts op L A I S2 Sensor 1 ni
hosts op Land Cover S2 Sensor 1 ni
hosts op N D V I S2 Sensor 1 ni
hosts op S A V I S2 Sensor 1 ni
hosts op S R S2 Sensor 1 ni

Sentinel 2 Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-2_Satellite

Sentinel 2 satellite.
belongs to
Sentinel-2 c

Sentinel 3 O L C I Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_OLCI_Product_1

Sentinel-3_OLCI Product number 1
belongs to
Sentinel-3_OLCI_Product c
has facts
hosts op G I F A P A R S3 Sensor 1 ni
hosts op O T C I S3 Sensor 1 ni

Sentinel 3 O L C I Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_OLCI_Satellite

Sentinel 3 OLCI satellite.
belongs to
Sentinel-3_OLCI c

Sentinel 3 S L S T R Product 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_SLSTR_Product_1

Sentinel-3_SLSTR Product number 1
belongs to
Sentinel-3_SLSTR_Product c
has facts
hosts op L S T S3 Sensor 1 ni

Sentinel 3 S L S T R Satelliteni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Sentinel-3_SLSTR_Satellite

Sentinel 3 SLSTR satellite.
belongs to
Sentinel-3_SLSTR c

SMni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Soil_moisture

Soil moisture is the water content of the soil. It can be expressed in terms of volume or weight. Soil moisture measurement can be based on in situ probes (e.g., capacitance probes, neutron probes) or remote sensing methods. Water that enters a field is removed from a field by runoff, drainage, evaporation or transpiration.
belongs to
Soil Property c
has facts
is observed by op S M N R T S M O S E S A Sensor 1 ni
is observed by op S M S1 Sensor 1 ni
is observed by op S M S M A P S1 3km Sensor 1 ni
is observed by op S M S M A P S1 9km Sensor 1 ni
is observed by op S M S M A P 36km Sensor 1 ni
is observed by op S M S M O S I C C A T D S Sensor 1 ni
is observed by op S M S M O S B E C Sensor 1 ni
is observed by op S M S M O S E S A Sensor 1 ni
is observed by op S M U A V Microwave Sensor 1 ni
is observed by op S M freeze and Thaw S M O S E S A Sensor 1 ni
is observed by op S M g Sensor 1 ni
is observed by op S M g Sensor 2 ni
is observed by op S M g Sensor 3 ni
is observed by op S M g Sensor 4 ni
is observed by op S M g Sensor 5 ni
is observed by op S M g Sensor 6 ni

Soilni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Soil

The term 'soil' refers to the surface layer of the Earth's crust that is biologically active and originates from the physical or chemical disintegration or alteration of rocks, as well as from the residues of living organisms that settle upon it. Many processes can contribute to the formation of a specific type of soil, including aeolian deposition, sedimentation in watercourses, weathering, and the deposition of organic material
belongs to
Feature Of Interest c

soil albedoni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/soil_albedo

Soil albedo is the albedo of the soil surface assuming no snow. Albedo is the ratio of outgoing to incoming shortwave irradiance, where 'shortwave irradiance' means that both the incoming and outgoing radiation are integrated across the solar spectrum.
belongs to
Radiation Property c
has facts
is observed by op Surface Albedo g R A D Sensor 1 ni
canonical units dp "1"
definition ap "Soil albedo is the albedo of the soil surface assuming no snow. Albedo is the ratio of outgoing to incoming shortwave irradiance, where 'shortwave irradiance' means that both the incoming and outgoing radiation are integrated across the solar spectrum."

SRni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#simple_ratio

Simplest ratio-based index is called the Simple Ratio (SR) or Ratio Vegetation Index (RVI). This index is simply the reflectance in the NIR band divided by the reflectance in the red band. A larger SR value indicates healthy vegetation, while lower values indicate soil, water or ice. SR = Near Infrared / Red
belongs to
Vegetation Property c
has facts
is observed by op S R L8 Sensor 1 ni
is observed by op S R L9 Sensor 1 ni
is observed by op S R S2 Sensor 1 ni
is observed by op S R U A V Multispectral Sensor 1 ni

Surface Albedo g R A D Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#SurfaceAlbedo_g_RAD_Sensor_1

Sensor SurfaceAlbedo_g_RAD hosted by RAD_Station_1
belongs to
SurfaceAlbedo_g c
has facts
is hosted by op R A D Station 1 ni
observes op soil albedo ni

surface downwelling longwave flux in airni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/surface_downwelling_longwave_flux_in_air

The surface called surface means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The term longwave means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics.
belongs to
Radiation Property c
has facts
is observed by op L W down g R A D Sensor 1 ni
canonical units dp "W m-2"
definition ap "The surface called surface means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The term longwave means longwave radiation. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics."

surface downwelling shortwave flux in airni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/surface_downwelling_shortwave_flux_in_air

The surface called surface means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The term shortwave means shortwave radiation. Surface downwelling shortwave is the sum of direct and diffuse solar radiation incident on the surface, and is sometimes called global radiation. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics.
belongs to
Radiation Property c
has facts
is observed by op S W down g R A D Sensor 1 ni
canonical units dp "W m-2"
definition ap "The surface called surface means the lower boundary of the atmosphere. Downwelling radiation is radiation from above. It does not mean net downward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. The term shortwave means shortwave radiation. Surface downwelling shortwave is the sum of direct and diffuse solar radiation incident on the surface, and is sometimes called global radiation. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics."

surface longwave emissivityni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/surface_longwave_emissivity

Emissivity is the ratio of the power emitted by an object to the power that would be emitted by a perfect black body having the same temperature as the object. The emissivity is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength or radiation_frequency is included to specify either the wavelength or frequency. The surface called surface means the lower boundary of the atmosphere. longwave means longwave radiation.
belongs to
Land Surface Property c
has facts
is observed by op L S E g Sensor 1 ni
is observed by op L S E g Sensor 2 ni
is observed by op L S E g Sensor 3 ni
is observed by op L S E g Sensor 4 ni
is observed by op L S E g Sensor 5 ni
is observed by op L S E g Sensor 6 ni
canonical units dp "1"
definition ap "Emissivity is the ratio of the power emitted by an object to the power that would be emitted by a perfect black body having the same temperature as the object. The emissivity is assumed to be an integral over all wavelengths, unless a coordinate of radiation_wavelength or radiation_frequency is included to specify either the wavelength or frequency. The surface called surface means the lower boundary of the atmosphere. longwave means longwave radiation."

surface net radiationni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#surface_net_radiation

Earth's net radiation, sometimes called net flux, is the balance between incoming and outgoing energy at the top of the atmosphere.
belongs to
Radiation Property c
has facts
is observed by op R N g R A D Sensor 1 ni

surface water evaporation fluxni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/surface_water_evaporation_flux

The surface called surface means the lower boundary of the atmosphere. Water means water in all phases, including frozen i.e. ice and snow. Evaporation is the conversion of liquid or solid into vapor. (The conversion of solid alone into vapor is called sublimation). The quantity with standard name surface_water_evaporation_flux does not include transpiration from vegetation. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies.
belongs to
Land Atmosphere Interaction Property c
has facts
is observed by op Water Vapour Flux g Eddy Covariance Sensor 1 ni
canonical units dp "kg m-2 s-1"
definition ap "The surface called surface means the lower boundary of the atmosphere. Water means water in all phases, including frozen i.e. ice and snow. Evaporation is the conversion of liquid or solid into vapor. (The conversion of solid alone into vapor is called sublimation). The quantity with standard name surface_water_evaporation_flux does not include transpiration from vegetation. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box. Previously, the qualifier where_type was used to specify that the quantity applies only to the part of the grid box of the named type. Names containing the where_type qualifier are deprecated and newly created data should use the cell_methods attribute to indicate the horizontal area to which the quantity applies."

Surface_roughnessni back to ToC or Named Individual ToC

IRI: http://codes.wmo.int/grib2/codeflag/4.2/2-0-1

Surface roughness refers to the measure of small, finely spaced deviations in the shape or texture of a surface
belongs to
Soil Property c
has facts
is observed by op Roughness S M O S C A T D S Sensor 1 ni

temperature in ground depth 05ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#temperature_in_ground_depth_05

Subsoil temperature at a depth of 5 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
belongs to
Soil Property c
has facts
is observed by op Thermometer A E M E T Sensor U T I E L ni
definition ap "Subsoil temperature at a depth of 5 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)"@en
definition ap "The temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used."@en

temperature in ground depth 20ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#temperature_in_ground_depth_20

Subsoil temperature at a depth of 20 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
belongs to
Soil Property c
has facts
is observed by op Thermometer A E M E T Sensor U T I E L ni
definition ap "Subsoil temperature at a depth of 20 cm and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)"@en
definition ap "The temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used."@en

temperature in ground next groundni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#temperature_in_ground_next_ground

Ground temperature, instantaneous temperature next to the ground and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)
belongs to
Soil Property c
has facts
is observed by op Thermometer A E M E T Sensor U T I E L ni
definition ap "Ground temperature, instantaneous temperature next to the ground and corresponding to the 10 minutes prior to the date given by 'fint' (degrees Celsius)"@en
definition ap "The temperature at any given depth (or in a layer) below the surface of the ground, excluding surficial snow and ice (but not permafrost or soil). For temperatures in surface lying snow and ice, the more specific standard names temperature_in_surface_snow and land_ice_temperature should be used. For temperatures measured or modelled specifically for the soil layer (the near-surface layer where plants sink their roots) the standard name soil_temperature should be used."@en

Thermometer A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Thermometer_AEMET_Sensor_UTIEL

Sensor Thermometer_AEMET hosted by AEMET_UTIEL_Station
belongs to
Thermometer_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op air temperature ni
observes op temperature in ground depth 05 ni
observes op temperature in ground depth 20 ni
observes op temperature in ground next ground ni

Thermometer Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Thermometer_EddyCovariance_Sensor_1

Thermometer_EddyCovariance Sensor hosted by EddyCovariance_Station_1
belongs to
Thermometer Eddy Covariance c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op air temperature ni

timeni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/time

has facts
is observed by op Clock A E M E T Sensor U T I E L ni

U A V Hyperspectral 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Hyperspectral_1

UAV Hyperspectral platform.
belongs to
UAV_Hyperspectral c

U A V Li D A R 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_LiDAR_1

UAV LiDAR platform.
belongs to
UAV_LiDAR c

U A V Microwave 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Microwave_1

UAV Microwave platform.
belongs to
UAV_Microwave c

U A V Multispectral 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Multispectral_1

UAV Multispectral platform.
belongs to
UAV_Multispectral c

U A V R G B 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_RGB_1

UAV RGB platform.
belongs to
UAV_RGB c

U A V Thermal 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#UAV_Thermal_1

UAV Thermal platform.
belongs to
UAV_Thermal c

upward latent heat flux in airni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/upward_latent_heat_flux_in_air

"Upward" indicates a vector component which is positive when directed upward (negative downward). The latent heat flux is the exchange of heat across a surface on account of evaporation and condensation (including sublimation and deposition). In accordance with common usage in geophysical disciplines, "flux" implies per unit area, called "flux density" in physics.
belongs to
Vegetation Property c
has facts
is observed by op L E g Eddy Covariance Sensor 1 ni

upwelling longwave flux in airni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/upwelling_longwave_flux_in_air

The term longwave means longwave radiation. Upwelling radiation is radiation from below. It does not mean net upward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics.
belongs to
Radiation Property c
has facts
is observed by op L W up g R A D Sensor 1 ni
canonical units dp "W m-2"
definition ap "The term longwave means longwave radiation. Upwelling radiation is radiation from below. It does not mean net upward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics."

upwelling shortwave flux in airni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/upwelling_shortwave_flux_in_air

The term shortwave means shortwave radiation. Upwelling radiation is radiation from below. It does not mean net upward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics.
belongs to
Radiation Property c
has facts
is observed by op S W up g R A D Sensor 1 ni
canonical units dp "W m-2"
definition ap "The term shortwave means shortwave radiation. Upwelling radiation is radiation from below. It does not mean net upward. The sign convention is that upwelling is positive upwards and downwelling is positive downwards. When thought of as being incident on a surface, a radiative flux is sometimes called irradiance. In addition, it is identical with the quantity measured by a cosine-collector light-meter and sometimes called vector irradiance. In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics."

Utielni back to ToC or Named Individual ToC

IRI: https://sws.geonames.org/6362114/

belongs to
Municipality c

Valencia/Valènciani back to ToC or Named Individual ToC

IRI: http://datos.gob.es/recurso/sector-publico/territorio/Provincia/Valencia

belongs to
Province c

vasni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas

has facts
title dp "VAS. A Semantic Model for Earth Observation Remote Sensing"@en

Vegetationni back to ToC or Named Individual ToC

IRI: http://dbpedia.org/resource/Vegetation

Vegetation refers to the coverage of wild or cultivated plants (flora) that grow spontaneously in a geographic area, whether on the land surface or in an aquatic environment. It is also referred to as vegetation cover. Its distribution on Earth depends on climatic factors and soils. Vegetation is so important that climate types are even categorized based on the type of vegetation that grows in the areas where they dominate. This is why we talk about a jungle climate, a savanna climate, a taiga climate, among other rainy climates, etc.
belongs to
Feature Of Interest c

vegetation area fractionni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/vegetation_area_fraction

Area fraction is the fraction of a grid cell's horizontal area that has some characteristic of interest. It is evaluated as the area of interest divided by the grid cell area. It may be expressed as a fraction, a percentage, or any other dimensionless representation of a fraction. Vegetation means any plants e.g. trees, shrubs, grass. The term plants refers to the kingdom of plants in the modern classification which excludes fungi. Plants are autotrophs i.e. producers of biomass using carbon obtained from carbon dioxide.
belongs to
Vegetation Property c
has facts
is observed by op F C O V E R dhp Sensor 1 ni
is observed by op F C O V E R dhp Sensor 2 ni
is observed by op F C O V E R dhp Sensor 3 ni
canonical units dp "1"
definition ap "Area fraction is the fraction of a grid cell's horizontal area that has some characteristic of interest. It is evaluated as the area of interest divided by the grid cell area. It may be expressed as a fraction, a percentage, or any other dimensionless representation of a fraction. Vegetation means any plants e.g. trees, shrubs, grass. The term plants refers to the kingdom of plants in the modern classification which excludes fungi. Plants are autotrophs i.e. producers of biomass using carbon obtained from carbon dioxide."

Vineyardsni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#Vineyards

Class Level 3 CORINE Land Cover - CLC
belongs to
Land Cover Classes c
has facts
code C L C dp "221"^^integer

water evapotranspiration fluxni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/water_evapotranspiration_flux

Water means water in all phases. Evapotranspiration means all water vapor fluxes into the atmosphere from the surface: liquid evaporation, sublimation and transpiration. Evaporation is the conversion of liquid or solid into vapor. Transpiration is the process by which water is carried from the roots of plants and evaporates from the stomata. (The conversion of solid alone into vapor is called sublimation.) In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box.
belongs to
Land Atmosphere Interaction Property c
has facts
canonical units dp "kg m-2 s-1"
definition ap "Water means water in all phases. Evapotranspiration means all water vapor fluxes into the atmosphere from the surface: liquid evaporation, sublimation and transpiration. Evaporation is the conversion of liquid or solid into vapor. Transpiration is the process by which water is carried from the roots of plants and evaporates from the stomata. (The conversion of solid alone into vapor is called sublimation.) In accordance with common usage in geophysical disciplines, flux implies per unit area, called flux density in physics. Unless indicated in the cell_methods attribute, a quantity is assumed to apply to the whole area of each horizontal grid box."

Water Vapour Flux g Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WaterVapourFlux_g_EddyCovariance_Sensor_1

Sensor WaterVapourFlux_g_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
Water Vapour Flux g c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op surface water evaporation flux ni

Watt per Square Metreni back to ToC or Named Individual ToC

IRI: http://qudt.org/vocab/unit/W-PER-M2

Is defined by
http://qudt.org/2.1/vocab/unit
http://qudt.org/vocab/unit
belongs to
Derived Unit c
Unit c
has facts
description ap "Watt per Square Meter} is a unit of irradiance defined as the power received per area. This is a unit in the category of Energy flux. It is also known as watts per square meter, watt per square metre, watts per square metre, watt/square meter, watt/square metre. This unit is commonly used in the SI unit system. Watt Per Square Meter (\(W/m^2\)) has a dimension of \(MT^{-3\) where M is mass, and T is time. This unit is the standard SI unit in this category."^^Latex String ep
conversion Multiplier ap "1.0"^^decimal
defined Unit Of System ap S I ni
derived Coherent Unit Of System ap S I ni
expression ap "\(W/m^2\)"^^Latex String ep
has Dimension Vector ap A0 E0 L0 I0 M1 H0 T 3 D0 ep
has Quantity Kind ap Power Per Area ep
has Quantity Kind ap Poynting Vector ep
iec61360 Code ap "0112/2///62720#UAA310"
informative Reference ap http://www.efunda.com/glossary/units/units--energy_flux--watt_per_square_meter.cfm
symbol ap "W/m²"
ucum Code ap "W.m-2"^^U C U Mcs ep
ucum Code ap "W/m2"^^U C U Mcs ep
unece Common Code ap "D54"

wind from directionni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/wind_from_direction

Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) In meteorological reports, the direction of the wind vector is usually (but not always) given as the direction from which it is blowing (wind_from_direction) (westerly, northerly, etc.). In other contexts, such as atmospheric modelling, it is often natural to give the direction in the usual manner of vectors as the heading or the direction to which it is blowing (wind_to_direction) (eastward, southward, etc.) from_direction is used in the construction X_from_direction and indicates the direction from which the velocity vector of X is coming.
belongs to
Meteorology Property c
has facts
is observed by op Wind Vane A E M E T Sensor U T I E L ni
is observed by op Wind Vane Eddy Covariance Sensor 1 ni
canonical units dp "degree"
definition ap "Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) In meteorological reports, the direction of the wind vector is usually (but not always) given as the direction from which it is blowing (wind_from_direction) (westerly, northerly, etc.). In other contexts, such as atmospheric modelling, it is often natural to give the direction in the usual manner of vectors as the heading or the direction to which it is blowing (wind_to_direction) (eastward, southward, etc.) from_direction is used in the construction X_from_direction and indicates the direction from which the velocity vector of X is coming."

wind speedni back to ToC or Named Individual ToC

IRI: https://mmisw.org/ont/cf/parameter/wind_speed

Speed is the magnitude of velocity. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) The wind speed is the magnitude of the wind velocity.
belongs to
Meteorology Property c
has facts
is observed by op Anemometer A E M E T Sensor U T I E L ni
is observed by op Anemometer Eddy Covariance Sensor 1 ni
canonical units dp "m s-1"
definition ap "Speed is the magnitude of velocity. Wind is defined as a two-dimensional (horizontal) air velocity vector, with no vertical component. (Vertical motion in the atmosphere has the standard name upward_air_velocity.) The wind speed is the magnitude of the wind velocity."

Wind Vane A E M E T Sensor U T I E Lni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WindVane_AEMET_Sensor_UTIEL

Sensor WindVane_AEMET hosted by AEMET_UTIEL_Station
belongs to
WindVane_AEMET c
has facts
is hosted by op A E M E T U T I E L Station ni
observes op wind from direction ni

Wind Vane Eddy Covariance Sensor 1ni back to ToC or Named Individual ToC

IRI: https://robotica.uv.es/proyectos/ASOTVAS/def/ciencia-tecnologia/vas#WindVane_EddyCovariance_Sensor_1

Sensor WindVane_EddyCovariance hosted by EddyCovariance_Station_1
belongs to
WindVane_EddyCovariance c
has facts
is hosted by op Eddy Covariance Station 1 ni
observes op wind from direction ni

Legend back to ToC

c: Classes
op: Object Properties
dp: Data Properties
ni: Named Individuals
ep: External Properties

References back to ToC

ASOTVAS Main Web Page: https://robotica.uv.es/proyectos/ASOTVAS

Acknowledgments back to ToC

The authors would like to thank Silvio Peroni for developing LODE, a Live OWL Documentation Environment, which is used for representing the Cross Referencing Section of this document and Daniel Garijo for developing Widoco, the program used to create the template used in this documentation.