ShapeChangeApplication Schema 'Geophysics' (version 3.0) | | Application Schema <provide name of source schema> |
Type | Documentation | Attribute
Association role
Constraint | Attribute / Association role / Constraint documentation | Values / Enumerations | Multiplicity | Voidable / Non-Voidable | | Type | Documentation | Attribute
Association role
Constraint | Attribute / Association role / Constraint documentation | Values / Enumerations | Multiplicity | Voidable / Non-Voidable | Status | Remarks |
GeophStation
Supertypes:
GeophMeasurement
GeophObject
SF_SpatialSamplingFeature
SF_SamplingFeature
GFI_Feature | Geophysical measurement spatially referenced to a single point location
Used to collect data at a single location. The source-sensor setup may be elongated or two dimensional, but the collected data is spatially referenced to a single point. Example: Gravity station, Magnetic station
NOTE 1. Processing results of geophStations are often vertical curve coverages | | | | | | | | | | | | | | | |
sampledFeature | A sampling feature is established in order to make observations concerning some domain feature. The association Intention shall link the SF_SamplingFeature to the feature which the sampling feature was designed to sample. The target of this association has the role sampledFeature with respect to the sampling feature, and is usually a real-world feature from an application domain (Figure 5; Figure 10).
EXAMPLE A profile typically samples a water- or atmospheric-column; a well samples the water in an aquifer; a tissue specimen samples a part of an organism | GFI_Feature
| 1..* | | | | | | | | | | | |
sampledFeature | | GFI_DomainFeature
| 1..* | | | | | | | | | | | |
relatedSamplingFeature | | SF_SamplingFeature
| 0..* | | | | | | | | | | | |
relatedObservation | Sampling features are distinctive compared with other features from application domains by having navigable associations to observations. If present, the association Design shall link the SF_SamplingFeature to an OM_Observation that was made utilizing the sampling feature, and the description of the sampling feature provides an intrinsic element of the observation protocol, along with the observation procedure (6.2.2.10) and the decomposition of the domain geometry in the case of a coverage-valued result (7.3.1). The OM_Observation has the role relatedObservation with respect to the sampling feature. Multiple observations may be made on a single sampling feature.
This association complements the Domain association owned by OM_Observation. The featureOfInterest of a relatedObservation shall be the SF_SamplingFeature (modelled as a UML constraint). | OM_Observation
| 0..* | | | | | | | | | | | |
lineage | If present, the attribute lineage:LI_Lineage shall describe the history and provenance of the SF_SamplingFeature. This might include information relating to the handling of the specimen, or details of the survey procedure of a spatial sampling feature. | LI_Lineage
| 0..1 | | | | | | | | | | | |
parameter | If present, the attributes <i>parameter:NamedValue</i> shall describe an arbitrary parameter associated with the SF_SamplingFeature. This might be a parameter that qualifies the interaction with the sampled feature, or an environmental parameter associated with the sampling process. | NamedValue
| 0..* | | | | | | | | | | | |
shape | The association Geometry shall link a SF_SpatialSamplingFeature to a GM_Object that describes its shape. | GM_Object
| 0..* | | | | | | | | | | | |
hostedProcedure | A common role for a spatial sampling feature is to host instruments or procedures deployed repetitively or permanently. If present, the association Platform shall link the SF_SpatialSamplingFeature to an OM_Process deployed at it. The OM_Process has the role hostedProcedure with respect to the sampling feature. | OM_Process
| 0..* | | | | | | | | | | | |
positionalAccuracy | Positioning metadata is commonly associated with sampling features defined in the context of field surveys. If present, <i>positionalAccuracy:DQ_PositionalAccuracy</i> shall describe the accuracy of the positioning of the sampling feature. Up to two instances of the attribute support the independent description of horizontal and vertical accuracy. | DQ_PositionalAccuracy
| 0..2 | | | | | | | | | | | |
inspireId | External object identifier of the measurement.
NOTE An external object identifier is a unique object identifier published by the responsible body, which may be used by external applications to reference the spatial object. The identifier is an identifier of the spatial object, not an identifier of the real-world phenomenon. | Identifier
| 1 | | | | | | | | | | | |
citation | Citation of geophysical documentation
Used for title, date of related documentation and URL for online access. At the minimum a short name (title) shall be given. | DocumentCitation
| 1 | | | | | | | | | | | |
projectedGeometry | 2D projection of the feature to the ground surface (as a representative point, curve or bounding polygon) to be used by an INSPIRE view service to display the spatial object location on a map.
When measurement setup is 3 dimensional, it is necessary to define a 2D geometry for displaying purposes. It shall be the 2D projection of the spatial object on the ground surface. Allowed types: point, track and outline. Examples: projected geometry of a borehole logging measurement is a point coincident with the borehole collar location. Projected geometry of a 3D multielectrode DC measurement is a polygon | GM_Object
| 1..* | | | | | | | | | | | |
verticalExtent | Vertical extent of the range of interest.
This parameter serves discovery purposes. It may refer both to the vertical extent of the measurement setup (p.e. borehole logging) or the extent of the range where processed data is spatially referenced to (Vertical Electric Sounding). The aim is to give an idea to the user about the estimated depth of investigation. | EX_VerticalExtent
| 1 | voidable | | | | | | | | | | |
distributionInfo | Distribution metadata
Data providers may use external services to provide information on a geophysical measurement. Links to the access points, description of ordering procedures or external services can be added in distributionInfo, that is an ISO MD_Distributor record. | MD_Distributor
| 1 | voidable | | | | | | | | | | |
largerWork | Identifier of a larger work dataset, typically a campaign or project
Measurements are usually made in campaigns. The largerWork identifier points to the parent Campaign or Project | Identifier
| 1..* | voidable | | | | | | | | | | |
relatedModel | Identifier of the geophysical model that was created from the measurement
Results of the measurement can be referenced by these identifiers. | Identifier
| 1..* | voidable | | | | | | | | | | |
platformType | Platform from which the measurement was carried out
Values to be used are defined in codelist PlatformTypeValue. | PlatformTypeValue
| 1 | | | | | | | | | | | |
relatedNetwork | Name of a national or international observation network to which the facility belongs, or to which measured data is reported.
Permanent measuring installations maz be part of larger observation networks. It means that observation data is regularly sent to the archives of the related network in an official way. | NetworkNameValue
| 1..* | voidable | | | | | | | | | | |
stationType | Type of geophysical station | StationTypeValue
| 1 | | | | | | | | | | | |
stationRank | Geophysical stations may be part of a hierarchical system. Rank is proportional to the importance of a station
Significance of stations can be very different even for the same geophysical method. Rank maz take the following values: 1stOrderBase, 2ndOrderBase, secularStation, observatory. Base stations are used to tie local measurements to higher level networks. Secular stations are visited from time to time to detect long term temporal changes of physical parameters. Observatories are important facilities that collect data continuously, or on a regular basis. | StationRankValue
| 1..* | voidable | | | | | | | | | | |
| | | | | | | | | | | | | | | | |
Campaign
Supertypes:
GeophObjectSet
SF_SpatialSamplingFeature
SF_SamplingFeature
GFI_Feature | Geophysical activity extending over a limited time range and limited area for producing similar geophysical measurements, processing results or models.
Campaigns can be considered as parents of geophysical measurements or models. Children may refer to parent campaigns through the largerWork identifier. | | | | | | | | | | | | | | | |
sampledFeature | A sampling feature is established in order to make observations concerning some domain feature. The association Intention shall link the SF_SamplingFeature to the feature which the sampling feature was designed to sample. The target of this association has the role sampledFeature with respect to the sampling feature, and is usually a real-world feature from an application domain (Figure 5; Figure 10).
EXAMPLE A profile typically samples a water- or atmospheric-column; a well samples the water in an aquifer; a tissue specimen samples a part of an organism | GFI_Feature
| 1..* | | | | | | | | | | | |
sampledFeature | | GFI_DomainFeature
| 1..* | | | | | | | | | | | |
relatedSamplingFeature | | SF_SamplingFeature
| 0..* | | | | | | | | | | | |
relatedObservation | Sampling features are distinctive compared with other features from application domains by having navigable associations to observations. If present, the association Design shall link the SF_SamplingFeature to an OM_Observation that was made utilizing the sampling feature, and the description of the sampling feature provides an intrinsic element of the observation protocol, along with the observation procedure (6.2.2.10) and the decomposition of the domain geometry in the case of a coverage-valued result (7.3.1). The OM_Observation has the role relatedObservation with respect to the sampling feature. Multiple observations may be made on a single sampling feature.
This association complements the Domain association owned by OM_Observation. The featureOfInterest of a relatedObservation shall be the SF_SamplingFeature (modelled as a UML constraint). | OM_Observation
| 0..* | | | | | | | | | | | |
lineage | If present, the attribute lineage:LI_Lineage shall describe the history and provenance of the SF_SamplingFeature. This might include information relating to the handling of the specimen, or details of the survey procedure of a spatial sampling feature. | LI_Lineage
| 0..1 | | | | | | | | | | | |
parameter | If present, the attributes <i>parameter:NamedValue</i> shall describe an arbitrary parameter associated with the SF_SamplingFeature. This might be a parameter that qualifies the interaction with the sampled feature, or an environmental parameter associated with the sampling process. | NamedValue
| 0..* | | | | | | | | | | | |
shape | The association Geometry shall link a SF_SpatialSamplingFeature to a GM_Object that describes its shape. | GM_Object
| 0..* | | | | | | | | | | | |
hostedProcedure | A common role for a spatial sampling feature is to host instruments or procedures deployed repetitively or permanently. If present, the association Platform shall link the SF_SpatialSamplingFeature to an OM_Process deployed at it. The OM_Process has the role hostedProcedure with respect to the sampling feature. | OM_Process
| 0..* | | | | | | | | | | | |
positionalAccuracy | Positioning metadata is commonly associated with sampling features defined in the context of field surveys. If present, <i>positionalAccuracy:DQ_PositionalAccuracy</i> shall describe the accuracy of the positioning of the sampling feature. Up to two instances of the attribute support the independent description of horizontal and vertical accuracy. | DQ_PositionalAccuracy
| 0..2 | | | | | | | | | | | |
inspireId | External object identifier of the spatial object.
NOTE An external object identifier is a unique object identifier published by the responsible body, which may be used by external applications to reference the spatial object. The identifier is an identifier of the spatial object, not an identifier of the real-world phenomenon. | Identifier
| 1 | | | | | | | | | | | |
citation | Citation of geophysical documentation
Used for title, date of related documentation and URL for online access. At the minimum a short name (title) shall be given. | DocumentCitation
| 1 | | | | | | | | | | | |
verticalExtent | Vertical extent of the range of interest.
This parameter serves discovery purposes. It may refer both to the vertical extent of the setup of measurements within the survey, or the extent of the range where processed data is spatially referenced to (estimated depth of investigation). The aim is to give an idea to the user about the estimated depth of investigation. | EX_VerticalExtent
| 1 | voidable | | | | | | | | | | |
distributionInfo | Distribution metadata
Data providers may use external services to provide access to data or information on a survey. Links to the access points, description of ordering procedures, fees can be added in distributionInfo that is an ISO MD_Distributor record. | MD_Distributor
| 1 | voidable | | | | | | | | | | |
projectedGeometry | 2D projection of the feature to the ground surface (as a representative point, curve or bounding polygon) to be used by an INSPIRE view service to display the spatial object on a map..
Projected geometry of the object set (survey), that is usually the bounding polygon of the working area. | GM_Object
| 1..* | | | | | | | | | | | |
largerWork | Identifier of a larger work dataset
The largerWork identifier points to the parent Campaign or Project | Identifier
| 1..* | voidable | | | | | | | | | | |
campaignType | Type of activity to produce data
Value shall be one of the items defined in codelist CampaignTypeValue | CampaignTypeValue
| 1 | | | | | | | | | | | |
surveyType | Type of geophysical survey
The geophysical method is specified by this attribute. Value shall be one of the items defined in codelist SurveyTypeValue. | SurveyTypeValue
| 1 | | | | | | | | | | | |
client | Party for which data was created. | RelatedParty
| 1 | voidable | | | | | | | | | | |
contractor | Party by which data was created
Party responsible for creating the data related to the campaign | RelatedParty
| 1 | voidable | | | | | | | | | | |
| | | | | | | | | | | | | | | | |
GeophProfile
Supertypes:
GeophMeasurement
GeophObject
SF_SpatialSamplingFeature
SF_SamplingFeature
GFI_Feature | Geophysical measurement spatially referenced to a curve
Used to collect data along a curve. Examples: 2D seismic line (field measurement), borehole logging, airborne geophysical flight line
NOTE1. Processing results of geophProfiles are often vertical surface coverages | | | | | | | | | | | | | | | |
sampledFeature | A sampling feature is established in order to make observations concerning some domain feature. The association Intention shall link the SF_SamplingFeature to the feature which the sampling feature was designed to sample. The target of this association has the role sampledFeature with respect to the sampling feature, and is usually a real-world feature from an application domain (Figure 5; Figure 10).
EXAMPLE A profile typically samples a water- or atmospheric-column; a well samples the water in an aquifer; a tissue specimen samples a part of an organism | GFI_Feature
| 1..* | | | | | | | | | | | |
sampledFeature | | GFI_DomainFeature
| 1..* | | | | | | | | | | | |
relatedSamplingFeature | | SF_SamplingFeature
| 0..* | | | | | | | | | | | |
relatedObservation | Sampling features are distinctive compared with other features from application domains by having navigable associations to observations. If present, the association Design shall link the SF_SamplingFeature to an OM_Observation that was made utilizing the sampling feature, and the description of the sampling feature provides an intrinsic element of the observation protocol, along with the observation procedure (6.2.2.10) and the decomposition of the domain geometry in the case of a coverage-valued result (7.3.1). The OM_Observation has the role relatedObservation with respect to the sampling feature. Multiple observations may be made on a single sampling feature.
This association complements the Domain association owned by OM_Observation. The featureOfInterest of a relatedObservation shall be the SF_SamplingFeature (modelled as a UML constraint). | OM_Observation
| 0..* | | | | | | | | | | | |
lineage | If present, the attribute lineage:LI_Lineage shall describe the history and provenance of the SF_SamplingFeature. This might include information relating to the handling of the specimen, or details of the survey procedure of a spatial sampling feature. | LI_Lineage
| 0..1 | | | | | | | | | | | |
parameter | If present, the attributes <i>parameter:NamedValue</i> shall describe an arbitrary parameter associated with the SF_SamplingFeature. This might be a parameter that qualifies the interaction with the sampled feature, or an environmental parameter associated with the sampling process. | NamedValue
| 0..* | | | | | | | | | | | |
shape | The association Geometry shall link a SF_SpatialSamplingFeature to a GM_Object that describes its shape. | GM_Object
| 0..* | | | | | | | | | | | |
hostedProcedure | A common role for a spatial sampling feature is to host instruments or procedures deployed repetitively or permanently. If present, the association Platform shall link the SF_SpatialSamplingFeature to an OM_Process deployed at it. The OM_Process has the role hostedProcedure with respect to the sampling feature. | OM_Process
| 0..* | | | | | | | | | | | |
positionalAccuracy | Positioning metadata is commonly associated with sampling features defined in the context of field surveys. If present, <i>positionalAccuracy:DQ_PositionalAccuracy</i> shall describe the accuracy of the positioning of the sampling feature. Up to two instances of the attribute support the independent description of horizontal and vertical accuracy. | DQ_PositionalAccuracy
| 0..2 | | | | | | | | | | | |
inspireId | External object identifier of the measurement.
NOTE An external object identifier is a unique object identifier published by the responsible body, which may be used by external applications to reference the spatial object. The identifier is an identifier of the spatial object, not an identifier of the real-world phenomenon. | Identifier
| 1 | | | | | | | | | | | |
citation | Citation of geophysical documentation
Used for title, date of related documentation and URL for online access. At the minimum a short name (title) shall be given. | DocumentCitation
| 1 | | | | | | | | | | | |
projectedGeometry | 2D projection of the feature to the ground surface (as a representative point, curve or bounding polygon) to be used by an INSPIRE view service to display the spatial object location on a map.
When measurement setup is 3 dimensional, it is necessary to define a 2D geometry for displaying purposes. It shall be the 2D projection of the spatial object on the ground surface. Allowed types: point, track and outline. Examples: projected geometry of a borehole logging measurement is a point coincident with the borehole collar location. Projected geometry of a 3D multielectrode DC measurement is a polygon | GM_Object
| 1..* | | | | | | | | | | | |
verticalExtent | Vertical extent of the range of interest.
This parameter serves discovery purposes. It may refer both to the vertical extent of the measurement setup (p.e. borehole logging) or the extent of the range where processed data is spatially referenced to (Vertical Electric Sounding). The aim is to give an idea to the user about the estimated depth of investigation. | EX_VerticalExtent
| 1 | voidable | | | | | | | | | | |
distributionInfo | Distribution metadata
Data providers may use external services to provide information on a geophysical measurement. Links to the access points, description of ordering procedures or external services can be added in distributionInfo, that is an ISO MD_Distributor record. | MD_Distributor
| 1 | voidable | | | | | | | | | | |
largerWork | Identifier of a larger work dataset, typically a campaign or project
Measurements are usually made in campaigns. The largerWork identifier points to the parent Campaign or Project | Identifier
| 1..* | voidable | | | | | | | | | | |
relatedModel | Identifier of the geophysical model that was created from the measurement
Results of the measurement can be referenced by these identifiers. | Identifier
| 1..* | voidable | | | | | | | | | | |
platformType | Platform from which the measurement was carried out
Values to be used are defined in codelist PlatformTypeValue. | PlatformTypeValue
| 1 | | | | | | | | | | | |
relatedNetwork | Name of a national or international observation network to which the facility belongs, or to which measured data is reported.
Permanent measuring installations maz be part of larger observation networks. It means that observation data is regularly sent to the archives of the related network in an official way. | NetworkNameValue
| 1..* | voidable | | | | | | | | | | |
profileType | Type of geophysical profile | ProfileTypeValue
| 1 | | | | | | | | | | | |
| | | | | | | | | | | | | | | | |
GeophSwath
Supertypes:
GeophMeasurement
GeophObject
SF_SpatialSamplingFeature
SF_SamplingFeature
GFI_Feature | Geophysical measurement spatially referenced to a surface
Used to collect data over a surface. Example: 3D seismic swath
NOTE1. Processing results of geophSwaths can be both surface and solid coverages | | | | | | | | | | | | | | | |
sampledFeature | A sampling feature is established in order to make observations concerning some domain feature. The association Intention shall link the SF_SamplingFeature to the feature which the sampling feature was designed to sample. The target of this association has the role sampledFeature with respect to the sampling feature, and is usually a real-world feature from an application domain (Figure 5; Figure 10).
EXAMPLE A profile typically samples a water- or atmospheric-column; a well samples the water in an aquifer; a tissue specimen samples a part of an organism | GFI_Feature
| 1..* | | | | | | | | | | | |
sampledFeature | | GFI_DomainFeature
| 1..* | | | | | | | | | | | |
relatedSamplingFeature | | SF_SamplingFeature
| 0..* | | | | | | | | | | | |
relatedObservation | Sampling features are distinctive compared with other features from application domains by having navigable associations to observations. If present, the association Design shall link the SF_SamplingFeature to an OM_Observation that was made utilizing the sampling feature, and the description of the sampling feature provides an intrinsic element of the observation protocol, along with the observation procedure (6.2.2.10) and the decomposition of the domain geometry in the case of a coverage-valued result (7.3.1). The OM_Observation has the role relatedObservation with respect to the sampling feature. Multiple observations may be made on a single sampling feature.
This association complements the Domain association owned by OM_Observation. The featureOfInterest of a relatedObservation shall be the SF_SamplingFeature (modelled as a UML constraint). | OM_Observation
| 0..* | | | | | | | | | | | |
lineage | If present, the attribute lineage:LI_Lineage shall describe the history and provenance of the SF_SamplingFeature. This might include information relating to the handling of the specimen, or details of the survey procedure of a spatial sampling feature. | LI_Lineage
| 0..1 | | | | | | | | | | | |
parameter | If present, the attributes <i>parameter:NamedValue</i> shall describe an arbitrary parameter associated with the SF_SamplingFeature. This might be a parameter that qualifies the interaction with the sampled feature, or an environmental parameter associated with the sampling process. | NamedValue
| 0..* | | | | | | | | | | | |
shape | The association Geometry shall link a SF_SpatialSamplingFeature to a GM_Object that describes its shape. | GM_Object
| 0..* | | | | | | | | | | | |
hostedProcedure | A common role for a spatial sampling feature is to host instruments or procedures deployed repetitively or permanently. If present, the association Platform shall link the SF_SpatialSamplingFeature to an OM_Process deployed at it. The OM_Process has the role hostedProcedure with respect to the sampling feature. | OM_Process
| 0..* | | | | | | | | | | | |
positionalAccuracy | Positioning metadata is commonly associated with sampling features defined in the context of field surveys. If present, <i>positionalAccuracy:DQ_PositionalAccuracy</i> shall describe the accuracy of the positioning of the sampling feature. Up to two instances of the attribute support the independent description of horizontal and vertical accuracy. | DQ_PositionalAccuracy
| 0..2 | | | | | | | | | | | |
inspireId | External object identifier of the measurement.
NOTE An external object identifier is a unique object identifier published by the responsible body, which may be used by external applications to reference the spatial object. The identifier is an identifier of the spatial object, not an identifier of the real-world phenomenon. | Identifier
| 1 | | | | | | | | | | | |
citation | Citation of geophysical documentation
Used for title, date of related documentation and URL for online access. At the minimum a short name (title) shall be given. | DocumentCitation
| 1 | | | | | | | | | | | |
projectedGeometry | 2D projection of the feature to the ground surface (as a representative point, curve or bounding polygon) to be used by an INSPIRE view service to display the spatial object location on a map.
When measurement setup is 3 dimensional, it is necessary to define a 2D geometry for displaying purposes. It shall be the 2D projection of the spatial object on the ground surface. Allowed types: point, track and outline. Examples: projected geometry of a borehole logging measurement is a point coincident with the borehole collar location. Projected geometry of a 3D multielectrode DC measurement is a polygon | GM_Object
| 1..* | | | | | | | | | | | |
verticalExtent | Vertical extent of the range of interest.
This parameter serves discovery purposes. It may refer both to the vertical extent of the measurement setup (p.e. borehole logging) or the extent of the range where processed data is spatially referenced to (Vertical Electric Sounding). The aim is to give an idea to the user about the estimated depth of investigation. | EX_VerticalExtent
| 1 | voidable | | | | | | | | | | |
distributionInfo | Distribution metadata
Data providers may use external services to provide information on a geophysical measurement. Links to the access points, description of ordering procedures or external services can be added in distributionInfo, that is an ISO MD_Distributor record. | MD_Distributor
| 1 | voidable | | | | | | | | | | |
largerWork | Identifier of a larger work dataset, typically a campaign or project
Measurements are usually made in campaigns. The largerWork identifier points to the parent Campaign or Project | Identifier
| 1..* | voidable | | | | | | | | | | |
relatedModel | Identifier of the geophysical model that was created from the measurement
Results of the measurement can be referenced by these identifiers. | Identifier
| 1..* | voidable | | | | | | | | | | |
platformType | Platform from which the measurement was carried out
Values to be used are defined in codelist PlatformTypeValue. | PlatformTypeValue
| 1 | | | | | | | | | | | |
relatedNetwork | Name of a national or international observation network to which the facility belongs, or to which measured data is reported.
Permanent measuring installations maz be part of larger observation networks. It means that observation data is regularly sent to the archives of the related network in an official way. | NetworkNameValue
| 1..* | voidable | | | | | | | | | | |
swathType | Type of geophysical swath | SwathTypeValue
| 1 | | | | | | | | | | | |
| | | | | | | | | | | | | | | | |
GeophObjectSet
Supertypes:
SF_SpatialSamplingFeature
SF_SamplingFeature
GFI_Feature | Generic class for collections of geophysical objects
It is a set of geophysical objects that are grouped by some common property. p.e: created in the same measuring campaign. GeophObjectSets are used for spatial sampling either by means of data acquisition or data processing. The produced result of a geophObjectSet is always collective, e.g. a map constructed from the results of the individual member objects. | | | | | | | | | | | | | | | |
sampledFeature | A sampling feature is established in order to make observations concerning some domain feature. The association Intention shall link the SF_SamplingFeature to the feature which the sampling feature was designed to sample. The target of this association has the role sampledFeature with respect to the sampling feature, and is usually a real-world feature from an application domain (Figure 5; Figure 10).
EXAMPLE A profile typically samples a water- or atmospheric-column; a well samples the water in an aquifer; a tissue specimen samples a part of an organism | GFI_Feature
| 1..* | | | | | | | | | | | |
sampledFeature | | GFI_DomainFeature
| 1..* | | | | | | | | | | | |
relatedSamplingFeature | | SF_SamplingFeature
| 0..* | | | | | | | | | | | |
relatedObservation | Sampling features are distinctive compared with other features from application domains by having navigable associations to observations. If present, the association Design shall link the SF_SamplingFeature to an OM_Observation that was made utilizing the sampling feature, and the description of the sampling feature provides an intrinsic element of the observation protocol, along with the observation procedure (6.2.2.10) and the decomposition of the domain geometry in the case of a coverage-valued result (7.3.1). The OM_Observation has the role relatedObservation with respect to the sampling feature. Multiple observations may be made on a single sampling feature.
This association complements the Domain association owned by OM_Observation. The featureOfInterest of a relatedObservation shall be the SF_SamplingFeature (modelled as a UML constraint). | OM_Observation
| 0..* | | | | | | | | | | | |
lineage | If present, the attribute lineage:LI_Lineage shall describe the history and provenance of the SF_SamplingFeature. This might include information relating to the handling of the specimen, or details of the survey procedure of a spatial sampling feature. | LI_Lineage
| 0..1 | | | | | | | | | | | |
parameter | If present, the attributes <i>parameter:NamedValue</i> shall describe an arbitrary parameter associated with the SF_SamplingFeature. This might be a parameter that qualifies the interaction with the sampled feature, or an environmental parameter associated with the sampling process. | NamedValue
| 0..* | | | | | | | | | | | |
shape | The association Geometry shall link a SF_SpatialSamplingFeature to a GM_Object that describes its shape. | GM_Object
| 0..* | | | | | | | | | | | |
hostedProcedure | A common role for a spatial sampling feature is to host instruments or procedures deployed repetitively or permanently. If present, the association Platform shall link the SF_SpatialSamplingFeature to an OM_Process deployed at it. The OM_Process has the role hostedProcedure with respect to the sampling feature. | OM_Process
| 0..* | | | | | | | | | | | |
positionalAccuracy | Positioning metadata is commonly associated with sampling features defined in the context of field surveys. If present, <i>positionalAccuracy:DQ_PositionalAccuracy</i> shall describe the accuracy of the positioning of the sampling feature. Up to two instances of the attribute support the independent description of horizontal and vertical accuracy. | DQ_PositionalAccuracy
| 0..2 | | | | | | | | | | | |
inspireId | External object identifier of the spatial object.
NOTE An external object identifier is a unique object identifier published by the responsible body, which may be used by external applications to reference the spatial object. The identifier is an identifier of the spatial object, not an identifier of the real-world phenomenon. | Identifier
| 1 | | | | | | | | | | | |
citation | Citation of geophysical documentation
Used for title, date of related documentation and URL for online access. At the minimum a short name (title) shall be given. | DocumentCitation
| 1 | | | | | | | | | | | |
verticalExtent | Vertical extent of the range of interest.
This parameter serves discovery purposes. It may refer both to the vertical extent of the setup of measurements within the survey, or the extent of the range where processed data is spatially referenced to (estimated depth of investigation). The aim is to give an idea to the user about the estimated depth of investigation. | EX_VerticalExtent
| 1 | voidable | | | | | | | | | | |
distributionInfo | Distribution metadata
Data providers may use external services to provide access to data or information on a survey. Links to the access points, description of ordering procedures, fees can be added in distributionInfo that is an ISO MD_Distributor record. | MD_Distributor
| 1 | voidable | | | | | | | | | | |
projectedGeometry | 2D projection of the feature to the ground surface (as a representative point, curve or bounding polygon) to be used by an INSPIRE view service to display the spatial object on a map..
Projected geometry of the object set (survey), that is usually the bounding polygon of the working area. | GM_Object
| 1..* | | | | | | | | | | | |
largerWork | Identifier of a larger work dataset
The largerWork identifier points to the parent Campaign or Project | Identifier
| 1..* | voidable | | | | | | | | | | |
| | | | | | | | | | | | | | | | |