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* @field yCoordinate: the Y coordinate value using the DE CartesianCoordinate.
* @field xCoordinate: the optional Z coordinate value using the DE CartesianCoordinate.
*
* @category: GeoReference information
* Revision: Created in V2.1.1
*/
CartesianPosition3d::=SEQUENCE{
xCoordinate CartesianCoordinate,
yCoordinate CartesianCoordinate,
zCoordinate CartesianCoordinate OPTIONAL -- tbd keep optional?
}
* This DF represents a coordinate in a cartesian reference system
*
* @field value: the coordinate value which can be estimated as the mean of the current distribution.
* @field confidence: the coordinate accuracy associated to the provided value at a predefined confidence level of 95%.
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* @category: GeoReference information
* Revision: Created in V2.1.1
*/
CartesianCoordinateWithConfidence ::= SEQUENCE {
value CartesianCoordinate,
confidence CoordinateConfidence
}
/**
* This DF defines a geographical point position as a 3 dimensional offset position to a reference geographical point.
*
* @field deltaLatitude: A delta latitude offset with regards to the latitude value of the reference position.
*
* @field deltaLongitude: A delta longitude offset with regards to the longitude value of the reference position.
*
* @field deltaAltitude: A delta altitude offset with regards to the altitude value of the reference position.
*
* @category: GeoReference information
* Revision: V1.3.1
*/
DeltaReferencePosition ::= SEQUENCE {
deltaLatitude DeltaLatitude,
deltaLongitude DeltaLongitude,
deltaAltitude DeltaAltitude
}
/**
* This DF represnets a portion of digital map, described using a list of waypoints @ref ReferencePosition.
*
* @category: GeoReference information
* Revision: V1.3.1
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DigitalMap ::= SEQUENCE (SIZE(1..256)) OF ReferencePosition
/**
*
* This DF represents an elliptical area that is centred on a reference position which is defined outside of the context of this DF.
*
* @field centerPoint: optional offset point which the rectangle is centred on with respect to the reference position.
*
* @field semiMajorAxisLenght: half length of the major axis of the ellipse.
*
* @field semiMinorAxisLenght: half length of the minor axis of the ellipse.
*
* @field orientation: orientation of the major axis of the ellipse in the WGS84 coordinate system.
* @category: GeoReference information
* Revision: Created in V2.1.1
*/
EllipticalArea ::= SEQUENCE {
centerPoint CartesianPosition3d OPTIONAL,
semiMajorAxisLenght StandardLength,
semiMinorAxisLenght StandardLength,
orientation Wgs84AngleValue
-- semiHeight SemiRangeLength OPTIONAL
}
* The DF consists of a list of @Ref EventPoint.
* The eventPosition of each @Ref EventPoint is defined with respect to the previous @Ref EventPoint in the list.
* Except for the first @Ref EventPoint which is defined with respect to a position outside of the context of this DF.
* @category: GeoReference information, Traffic information
* Revision: Generalized the semantics in V2.1.1
*/
EventHistory::= SEQUENCE (SIZE(1..23)) OF EventPoint
/**
* This DF provides information related to an event at a defined position.
*
* @field eventPosition: offset position of a detected event point to a defined position.
*
* @field eventDeltaTime: optional time travelled by the detecting ITS-S since the previous detected event point.
*
* @field informationQuality: Information quality of the detection for this event point.
*
* @category: GeoReference information, Traffic information
* Revision: generalized the semantics in V2.1.1
EventPoint ::= SEQUENCE {
eventPosition DeltaReferencePosition,
eventDeltaTime PathDeltaTime OPTIONAL,
informationQuality InformationQuality
}
* This DF represents the status of the exterior light switches of a traffic participant.
*
* @field vehicular: represents the status of the exterior light switches of a road vehicle.
*
* @field vruSpecific: represents the status of the exterior light switches of a VRU.
* @category: tbd
* Revision: created in V2.1.1
ExteriorLightsExtended ::= SEQUENCE {
vehicular ExteriorLights,
vruSpecific VruSpecificExteriorLights,
...
}
* This DF indicates a transversal position in relation to the different lanes of the road.
* It is an extension of DE_LanePosition to cover locations (sidewalks, bicycle paths), where V-ITS-S would normally not be present.
* The following options are available:
*
* @field trafficLanePosition: a position on a traffic lane.
*
* @field nonTrafficLanePosition: a position on a lane which is not a traffic lane.
*
* @field trafficIslandPosition: a position on a traffic island
*
* @field mapPosition: a position on a lane identified in a MAPEM.
*
* @category: Road Topology information
* Revision: created in V2.1.1
*/
GeneralizedLanePosition::= CHOICE {
trafficLanePosition LanePosition,
nonTrafficLanePosition LanePositionAndType,
trafficIslandPosition TrafficIslandPosition,
mapPosition MapPosition,
...
}
* This DF represents the Heading in a WGS84 co-ordinates system.
* @field headingConfidence: the accuracy of the reported heading value with a predefined confidence level.
*
* @note: this DF is kept for backwards compatibiliyty reasons only. It is reccomended to use the @ref Wgs84Angle instead.
* @category: GeoReference information, Vehicle information, Road topology information
* Revision: V1.3.1
Heading ::= SEQUENCE {
headingValue HeadingValue,
headingConfidence HeadingConfidence
}
* This DF provides information associated to heading change indicators such as a change of direction.
* @field direction: the direction of heading change value.
*
* @field actionDeltaTime: the period over which a direction change action is performed.
*
* @category: t.b.d.
* Revision: created in V2.1.1
HeadingChangeIndication ::= SEQUENCE {
direction TurningDirection,
actionDeltaTime DeltaTimeTenthOfSecond,
...
}
* This DF represents a frequency channel
*
* @field centreFrequency: the centre frequency of the channel
* @unit: 10exp+2 Hz (where exp is exponent)
*
* @unit: N/A
*
* @category: Communication information
* Revision: created in V2.1.1
*/
InterferenceManagementChannel ::= SEQUENCE {
centreFrequency INTEGER (1 .. 99999),
channelWidth INTEGER (0 .. 9999),
exponent INTEGER (0 .. 15)
}
* This DF represents a zone inside which the ITS communication should be restricted in order to manage interference.
*
* @field zoneDefinition: contains the geographical definition of the zone.
*
* @field managementInfo: contains interference management information applicable in the zone defined in @field zoneDefinition.
*
* @category: Communication information
* Revision: created in V2.1.1
InterferenceManagementZone ::= SEQUENCE {
zoneDefinition InterferenceManagementZoneDefinition,
managementInfo InterferenceManagementInfo
}
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* This DF represents the geographical definition of the zone where band sharing occurs.
*
* @field interferenceManagementZoneLatitude: Latitude of the centre point of the interference management zone.
*
* @field interferenceManagementZoneLongitude: Longitude of the centre point of the interference management zone.
*
* @field interferenceManagementZoneRadius: optional radius of the interference management zone in metres.
*
* @field interferenceManagementZoneID: optional identification of the interference management zone.
*
* @field interferenceManagementZoneShape: shape of the interference management zone.
*
* @category: Communication information
* Revision: created in V2.1.1
*/
InterferenceManagementZoneDefinition::= SEQUENCE{
interferenceManagementZoneLatitude Latitude,
interferenceManagementZoneLongitude Longitude,
interferenceManagementZoneRadius ProtectedZoneRadius OPTIONAL,
interferenceManagementZoneID ProtectedZoneID OPTIONAL,
interferenceManagementZoneShape Area (WITH COMPONENTS{..., radial ABSENT}) OPTIONAL,
...
}
* This DF consists of a list of up to 16 definitions containing interference management information, per affected frequency channels.
*
* @category: Communication information.
* Revision: created in V2.1.1
InterferenceManagementInfo::= SEQUENCE (SIZE(1..16,...)) OF InterferenceManagementInfoPerChannel
* This DF contains interference management information for one affected frequency channel.
* @field interferenceManagementChannel: frequency channel for which the zone should be applied interference management
*
* @field interferenceManagementZoneType: type of the interference management zone.
*
* @field interferenceManagementMitigationType: optional type of the mitigation to be used in the interference management zone.
*
* @field expiryTime: optional time at which the validity of the interference management communication zone will expire. This component is present when the interference management is temporarily valid
*
* @category: Communication information
* Revision: created in V2.1.1
InterferenceManagementInfoPerChannel ::= SEQUENCE {
interferenceManagementChannel InterferenceManagementChannel,
interferenceManagementZoneType InterferenceManagementZoneType,
interferenceManagementMitigationType InterferenceManagementMitigationType OPTIONAL,
expiryTime TimestampIts OPTIONAL, -- from ITS-Container
...
* This DF provides information and commands defining the required mitigation type in the defined interference management zone.
* @field unavailable: this is the default choice to be used when information is not available
* @field mitigationForTechnologies: it indicates the type of mitigation and the parameters to be used to protect the
* potential victim in the interference management zone per channel access technology class.
*
* @category: Communication information
* Revision: created in V2.1.1
InterferenceManagementMitigationType ::= CHOICE {
unavailable NULL,
mitigationForTechnologies MitigationForTechnologies
}
* This DF consist of a list of up to 16 interference interference management zones.
* **EXAMPLE**: An interference management communication zone may be defined around a
* CEN DSRC road side equipment or an urban rail operational area.
* Communication information
* Revision: created in V2.1.1
InterferenceManagementZones ::= SEQUENCE (SIZE(1..16), ...) OF InterferenceManagementZone
* This DF represents a unique id for an intersection, in accordance with ETSI TS 103 301.
*
* @field region: the optional identifier of the entity that is responsible for the region in which the intersection is placed.
* It is the duty of that entity to guarantee that the @ref Id is unique within the region.
*
* @field id: the identifier of the intersection
*
* @note: when the RoadRegulatorID is present, the IntersectionReferenceID is guaranteed to be globally unique.
* @category: Road topology information
* Revision: created in V2.1.1
IntersectionReferenceId ::= SEQUENCE {
region RoadRegulatorId OPTIONAL,
id IntersectionID
}
* This DF consists of a list of waypoints @ref ReferencePosition.
*
* @category: GeoReference information
* Revision: Editorial update in V2.1.1
ItineraryPath ::= SEQUENCE SIZE(1..40) OF ReferencePosition
* This DF represents a common message header for application and facilities layer messages.
* It is included at the beginning of an ITS message as the message header.
* @field protocolVersion: version of the ITS message.
*
* @field messageId: type of the ITS message.
*
* @field stationId: the identifier of the ITS-S that generates the ITS message in question.
*
* @category: Communication information
* Revision: update in V2.1.1: messageID and stationID changed to messageId and stationId; messageId is of type MessageId.
ItsPduHeader ::= SEQUENCE {
protocolVersion INTEGER (0..255),
messageId MessageId,
stationId StationID
}
* This DF indicates a transversal position in resolution of lanes and the associated lane type.
* @field: transversalPosition: the transversal position.
* @field: laneType: the type of the lane identified in the component transversalPosition.
* @category GeoReference information
* Revision: Created in V2.1.1
LanePositionAndType::= SEQUENCE {
transversalPosition LanePosition,
laneType LaneType,
* This DF indicates the vehicle acceleration at lateral direction and the accuracy of the lateral acceleration.
* @field: lateralAccelerationValue: lateral acceleration value at a point in time.
*
* @field: lateralAccelerationConfidence: accuracy of the reported lateral acceleration value.
*
* @note: this DF is kept forbackwards compatibility reasons only. It is recommended to use @ref Acceleration1d instead.
* @category Vehicle information
* Revision: V1.3.1
*/
LateralAcceleration ::= SEQUENCE {
lateralAccelerationValue LateralAccelerationValue,
lateralAccelerationConfidence AccelerationConfidence
}
/**
* This DF indicates the vehicle acceleration at longitudinal direction and the accuracy of the longitudinal acceleration.
*
* @field longitudinalAccelerationValue: longitudinal acceleration value at a point in time.
* @field longitudinalAccelerationConfidence: accuracy of the reported longitudinal acceleration value with a predefined
* @note: this DF is kept forbackwards compatibility reasons only. It is recommended to use @ref Acceleration1d instead.
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LongitudinalAcceleration ::= SEQUENCE {
longitudinalAccelerationValue LongitudinalAccelerationValue,
longitudinalAccelerationConfidence AccelerationConfidence
}
/**
* This DF represents the estimated position along the longitudinal length of a particular lane.
*
* @field longitudinalLanePositionValue: the mean value of the longitudinal position within a particular length.
*
* @field longitudinalLanePositionConfidence: The confidence associated to the provided value.
*
* @note: this DF is kept forbackwards compatibility reasons only. It is recommended to use @ref Acceleration1d instead.
* @category: Vehicle information
* Revision: V1.3.1
*/
LongitudinalLanePosition ::= SEQUENCE {
longitudinalLanePositionValue LongitudinalLanePositionValue,
longitudinalLanePositionConfidence LongitudinalLanePositionConfidence
}
/**
* This DF represents the elements of a lower triangular positive semi-definite matrix, not including the main diagonal elements of the matrix.
* Given a matrix "A" of size n x n, the number of columns @ref CorrelationColumn to be included in the lower triangular matrix is k=n-1.
*
* @category: Vehicle information
* Revision: V1.3.1
*/
LowerTriangularPositiveSemidefiniteMatrix ::= SEQUENCE SIZE (1..17) OF CorrelationColumn -- tbd extension to be addded?
* This DF indicates a position on a topology description transmitted in a MAPEM according to ETSI TS 103 301.
* @field mapReference: optionally identifies the MAPEM carrying the topology.
* It is absent if the MAPEM topology is known from the context.
*
* @field lane: identifies the lane in the topology.
* @field longitudinalLanePosition: optionally indicates the longitudinal offset of the map-matched position of the object along the lane.
*
* @category: Road topology information
* Revision: Created in V2.1.1
MapPosition ::= SEQUENCE {
mapReference MapReference OPTIONAL,
laneId LaneId,
longitudinalLanePosition LongitudinalLanePosition OPTIONAL,
...
}
* This DF provides the reference to the information contained in a MAPEM according to ETSI TS 103 301.
* The following options are provided:
*
* @field roadsegment: option that identifies the description of a road segment contained in a MAPEM.
*
* @field intersection: option that identifies the description of an intersection contained in a MAPEM.
* @category: Road topology information
* Revision: Created in V2.1.1
MapReference::= CHOICE {
roadsegment RoadSegmentReferenceId,
intersection IntersectionReferenceId
}
* This DF represents a list @ref MitigationPerTechnologyClass.
* @category: Communication information
* Revision: Created in V2.1.1
*/
MitigationForTechnologies ::= SEQUENCE (SIZE(1..8)) OF MitigationPerTechnologyClass -- tbd extension needed?
/**
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* This DF represents a set of mitigation parameters for a specific technology, as specified in ETSI TS 103 724, clause 7..
*
* @field accessTechnologyClass: channel access technology to which this mitigation is applied.
*
* @field lowDutyCycle: duty cycle limit.
* @unit: 0.01% steps
*
* @field powerReduction: the delta value of power to be reduced.
* @unit: dB
*
* @field dmcToffLimit: idle time limit as defined in ETSI TS 103 175.
* @unit: ms
*
* @field dmcTonLimit: Transmission duration limit, as defined in ETSI EN 302 571.
* @unit: ms
*
* @note: All parameters are optional, as they may not apply to some of the technologies or
* interference management zone types. Specification details are in ETSI TS 103 724, clause 7.
*
* @category: Communication information
* Revision: Created in V2.1.1
*/
MitigationPerTechnologyClass ::= SEQUENCE {
accessTechnologyClass AccessTechnologyClass,
lowDutyCycle INTEGER (0 .. 10000) OPTIONAL,
powerReduction INTEGER (0 .. 30) OPTIONAL,
dmcToffLimit INTEGER (0 .. 1200) OPTIONAL,
dmcTonLimit INTEGER (0 .. 20) OPTIONAL,
...
}
/**
* This DF indicates both the class and associated subclass that best describes an object, based on different options:
*
* @field vehicleSubclass: the object is a road vehicle.
*
* @field vruSubclass: the object is a VRU.
*
* @field groupSubClass: the object is a VRU CLuster.
*
* @field otherSubclass: the object is of a different types as the above.
*
* @category: Sensing information
* Revision: Created in V2.1.1
*/
ObjectClass ::= CHOICE {
vehicleSubclass VehicleSubclass,
vruSubclass VruProfileAndSubprofile,
groupSubClass VruClusterInformation (WITH COMPONENTS{..., clusterBoundingArea ABSENT}),
otherSubclass OtherSubclass,
...
}
/**
* This DF consist of a list of object classes.
*
* @category: Sensing information
* Revision: Created in V2.1.1
*/
ObjectClassDescription ::= SEQUENCE (SIZE(1..8)) OF ObjectClassWithConfidence --tbd added extension?
/**
* This DF represents the classification of a detected object together with a confidence indication.
*
* @field objectClass: the class of the object.
*
* @field confidence: the associated confidence information.
*
* @category: Sensing information
* Revision: Created in V2.1.1
*/
ObjectClassWithConfidence ::= SEQUENCE {
objectClass ObjectClass,
confidence ObjectClassConfidence
}
/**
* This DF represents a dimension of an object together with a confidence indication
* @field value: the object dimension value which can be estimated as the mean of the current distribution.
*
* @field confidence: the associated confidence information.
*
* @category: Sensing information
* Revision: Created in V2.1.1
*/
ObjectDimension ::= SEQUENCE {
value ObjectDimensionValue,
confidence ObjectDimensionConfidence
* This DF that represents a path with a set of path points.
* It may contain up to `40` @ref PathPoin.
* The first PathPoint presents an offset delta position with regards to an external reference position.
* Each other PathPoint presents an offset delta position and optionally an offset travel time with regards to the previous PathPoint.
*
* @category: GeoReference information, Vehicle information
* Revision: semantics updated in V2.1.1
* This DF defines an offset waypoint position within a path.
*
* @field pathPosition: The waypoint position defined as an offset position with regards to a pre-defined reference position.
*
* @field pathDeltaTime: The optional travel time separated from a waypoint to the predefined reference position.
*
* @category GeoReference information
* Revision: semantics updated in V2.1.1
PathPoint ::= SEQUENCE {
pathPosition DeltaReferencePosition,
pathDeltaTime PathDeltaTime OPTIONAL
}
* The DF that defines a waypoint position within a path.
*
* @field pathPosition: The waypoint position defined as an absolute position.
*
* @field pathDeltaTime: The optional delta time in which the waypoint will be occupied, from a reference time.
*
* @category GeoReference information
* Revision: created in V2.1.1
PathPointAbsolute ::= SEQUENCE {
pathPosition ReferencePosition,
pathDeltaTime PathDeltaTime OPTIONAL -- tbd shall this really be optional
}
/**
* This DF contains information about a perceived object including its kinematic and attitude representation,
*
* @field objectID: Identifier assigned to a detected object, using the DE Identifier,.
*
* @field timeOfMeasurement: the time difference from a reference time to the time of the measurement of the object using the DE DeltaTime.
* Negative values indicate that the provided object state refers to a point in time after the reference time.
*
* @field xCoordinate: X Coordinate, i.e. distance to detected object from the ITS-S's reference point to object reference point in x-direction at the time
* of measurement, in a pre-defined coordinate system.
* @field yCoordinat: Y Coordinate, i.e. distance to detected object from the ITS-S's reference point to object reference point in y-direction at the time
* of measurement, in a pre-defined coordinate system.
*
* @field zCoordinate: Optional Z Coordinate, i.e. distance to detected object to object reference point from the ITS-S's reference point in z-direction at the time
* of measurement, in a pre-defined coordinate system.
*
* @field xSpeed: Speed of the detected object in the detecting ITS-Ss reference system in x-direction at the time
* of measurement, in a pre-defined coordinate system, using the DF SpeedExtended.
* @field ySpeed: Speed of the detected object in the detecting ITS-Ss reference system in y-direction at the time
* of measurement, in a pre-defined coordinate system, using the DF SpeedExtended.
*
* @field zSpeed
* Optional Speed of the detected object in the detecting ITS-Ss reference system in z-direction at the time
* of measurement, in a pre-defined coordinate system, using the DF SpeedExtended.
*
* @field xAcceleration: optional Acceleration of the detected object from the ITS-S's reference point in x-direction
* at the time of measurement, in a pre-defined coordinate system, using the DF Acceleration1d.
* @field yAcceleration: optional Acceleration of the detected object from the ITS-S's reference point in y-direction
* at the time of measurement, in a pre-defined coordinate system, using the DF Acceleration1d.
*
* @field zAcceleration: optional Acceleration of the detected object from the ITS-S's reference point in z-direction
* at the time of measurement, in a pre-defined coordinate system, using the DF Acceleration1d.
*
* @field rollAngle: optional Roll angle of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angle is measured with positive values considering the object orientation turning counter-clockwise around the x-axis.
*
* @field pitchAngle: optional Pitch angle of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angle is measured with positive values considering the object orientation turning counter-clockwise around the y-axis.
*
* @field yawAngle: optional Yaw angle of object from the ITS-S's reference pointat the time of measurement, in a pre-defined coordinate system.
* The angle is measured with positive values considering the object orientation turning counter-clockwise around the z-axis.
*
* @field rollRate: optional Roll rate of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angular rate is measured with positive values considering the object orientation turning counter-clockwise around the x-axis.
* @field pitchRate: optional Pitch rate of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angular rate is measured with positive values considering the object orientation turning counter-clockwise around the y-axis.
*
* @field yawRate: optional Yaw rate of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angular rate is measured with positive values considering the object orientation turning counter-clockwise around the z-axis.
*
* @field rollAcceleration: optional Roll acceleration of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angular acceleration is measured with positive values considering the object orientation turning counter-clockwise around the x-axis.
*
* @field @field pitchAcceleration: optional Pitch acceleration of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
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* The angular acceleration is measured with positive values considering the object orientation turning counter-clockwise around the y-axis.
*
* @field yawAcceleration: optional Yaw acceleration of object from the ITS-S's reference point at the time of measurement, in a pre-defined coordinate system.
* The angular acceleration is measured with positive values considering the object orientation turning counter-clockwise around the z-axis.
*
* @field lowerTriangularCorrelationMatrixColumns: optional set of columns of a lower triangular positive semi definite correlation matrix for the
* kinematic state and attitude space provided for this object.
* The order of the columns and rows of the correlation matrix is as follows:
* - xCoordinate
* - yCoordinate
* - zCoordinate
* - xSpeed
* - ySpeed
* - zSpeed
* - xAcceleration
* - yAcceleration
* - zAcceleration
* - rollAngle
* - pitchAngle
* - yawAngle
* - rollRate
* - pitchRate
* - yawRate
* - rollAcceleration
* - pitchAcceleration
* - yawAcceleration
* The number of lowerTriangularCorrelationMatrixColumns to be included "k" is thereby the number of provided
* values "n" of the kinematic state and attitude space minus 1: k = n-1.
* Each column "i" of the lowerTriangularCorrelationMatrixColumns contains k-(i-1) values.
* In case certain values of the kinematic state and attitude space are not provided, they are omitted from
* the lowerTriangularCorrelationMatrixColumns.
*
* @field planarObjectDimension1: optional first dimension of object as provided by the sensor or environment model.
* This dimension is always contained in the plane which is oriented perpendicular to the direction of the angle
* indicated by the yawAngle and which contains the object's reference point.
*
* @field planarObjectDimension2: optional second dimension of the object as provided by the sensor environment model.
* This dimension is contained in the plane oriented in the direction of the angle indicated by the yawAngle and the object's reference point.
*
* @field verticalObjectDimension: optionalvertical dimension of object as provided by the sensor or object model.
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* @field objectRefPoint: the reference point on the perceived object. The kinematic attitude and state data provided
* for this object are valid for this reference point of the object. In case no object reference
* point can be determined, it is assumed to be the center point of the detected object.
*
* @field objectAge: the age of the detected and described object, i.e. the difference in time between the moment
* it has been first detected and the reference time of the message. Value `1500` indicates that the object has been observed for more than 1.5s.
*
* @field objectConfidence: optional confidence associated to the object. The computation of the object confidence is based on a sensor's or
* fusion system's specific detection confidence, the binary detection success that is, if an object
* has been successfully detected by the last measurement and the object age.
*
* @field sensorIdList: optional list of sensor-IDs which provided the measurement data.
*
* @field dynamicStatus: optional dynamic capabilities of a detected object.
*
* @field classification: optional classification of the described object
*
* @field matchedPosition: optional map-matched position of an object.
*
* @category Sensing information
* Revision: created in V2.1.1
*/
PerceivedObject ::= SEQUENCE {
objectID Identifier,
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xCoordinate CartesianCoordinateWithConfidence, --tbd is the range correct here?
yCoordinate CartesianCoordinateWithConfidence,
zCoordinate CartesianCoordinateWithConfidence OPTIONAL,
xSpeed SpeedExtended,
ySpeed SpeedExtended,
zSpeed SpeedExtended OPTIONAL,
xAcceleration Acceleration1d OPTIONAL,
yAcceleration Acceleration1d OPTIONAL,
zAcceleration Acceleration1d OPTIONAL,
rollAngle CartesianAngle OPTIONAL,
pitchAngle CartesianAngle OPTIONAL,
yawAngle CartesianAngle OPTIONAL,
rollRate CartesianAngularSpeed OPTIONAL,
pitchRate CartesianAngularSpeed OPTIONAL,
yawRate CartesianAngularSpeed OPTIONAL,
rollAcceleration CartesianAngularAcceleration OPTIONAL,
pitchAcceleration CartesianAngularAcceleration OPTIONAL,
yawAcceleration CartesianAngularAcceleration OPTIONAL,
lowerTriangularCorrelationMatrixColumns LowerTriangularPositiveSemidefiniteMatrix OPTIONAL,
planarObjectDimension1 ObjectDimension OPTIONAL,
planarObjectDimension2 ObjectDimension OPTIONAL,
verticalObjectDimension ObjectDimension OPTIONAL,
objectRefPoint ObjectRefPoint DEFAULT 0,
objectConfidence ObjectConfidence OPTIONAL,
sensorIdList SequenceOfId OPTIONAL,
dynamicStatus ObjectDynamicStatus OPTIONAL, -- tbd delete optional
classification ObjectClassDescription OPTIONAL,
mapPosition MapPosition OPTIONAL, --changed from matchedPosition
...
}
/**
* This DF represents an area delimited by a polygon and consist of a list of minimum `3` to maximum `16` @ref CartesianPosition3d.
* @category GeoReference information
* Revision: created in V2.1.1
*
PolygonalArea ::= SequenceOfCartesianPosition3d (SIZE(3..16,...))
* This DF provides the horizontal position accuracy in a shape of ellipse with a
* confidence level of 95 %. The centre of the ellipse shape corresponds to the reference
* position point for which the position accuracy is evaluated.
*
* @field semiMajorConfidence: half of length of the major axis, i.e. distance between the centre point
* and major axis point of the position accuracy ellipse.
*
* @field semiMinorConfidence: half of length of the minor axis, i.e. distance between the centre point
* and minor axis point of the position accuracy ellipse.
*
* @field semiMajorOrientation: orientation direction of the ellipse major axis of the position accuracy
* ellipse with regards to the WGS84 north.
*
*
* @category GeoReference information
* Revision: V1.3.1
PosConfidenceEllipse ::= SEQUENCE {
semiMajorConfidence SemiAxisLength,
semiMinorConfidence SemiAxisLength,
semiMajorOrientation Wgs84AngleValue
* This DF contains a list of distances @ref PosPillar that refer to the perpendicular distance between centre of vehicle front bumper
* and vehicle pillar A, between neighbour pillars until the last pillar of the vehicle.
*
* Vehicle pillars refer to the vertical or near vertical support of vehicle,
* designated respectively as the A, B, C or D and other pillars moving in side profile view from the front to rear.
* The first value of the DF refers to the perpendicular distance from the centre of vehicle front bumper to
* vehicle A pillar. The second value refers to the perpendicular distance from the centre position of A pillar
* to the B pillar of vehicle and so on until the last pillar.
*
* @category: Vehicle information
* Revision: V1.3.1
PositionOfPillars ::= SEQUENCE (SIZE(1..3, ...)) OF PosPillar
* This DF describes a zone of protection inside which the ITSG5 communication should be restricted.
* @field protectedZoneType: type of the protected zone.
* @field expiryTime: optional time at which the validity of the protected communication zone will expire.
* @field protectedZoneLatitude: latitude of the centre point of the protected communication zone.
* @field protectedZoneLongitude: longitude of the centre point of the protected communication zone.
* @field protectedZoneRadius: optional radius of the protected communication zone in metres.
* @field protectedZoneID: the optional ID of the protected communication zone.
* @note: A protected communication zone may be defined around a CEN DSRC road side equipment.
* @category: Infrastructure information, Communication information
* Revision: V1.3.1
ProtectedCommunicationZone ::= SEQUENCE {
protectedZoneType ProtectedZoneType,
expiryTime TimestampIts OPTIONAL,
protectedZoneLatitude Latitude,
protectedZoneLongitude Longitude,
protectedZoneRadius ProtectedZoneRadius OPTIONAL,
protectedZoneID ProtectedZoneID OPTIONAL,
...
* This DF consist of a list of @ref ProtectedCommunicationZone provided by a road side ITS-S (Road Side Unit RSU).
*
* It may provide up to 16 protected communication zones information.
*
* @category: Infrastructure information, Communication information
* Revision: V1.3.1
*/
ProtectedCommunicationZonesRSU ::= SEQUENCE (SIZE(1..16)) OF ProtectedCommunicationZone
* This DF represents activation data for real-time systems designed for operations control, traffic light priorities, track switches, barriers, etc.
* using a range of activation devices equipped in public transport vehicles.
*
* The activation of the corresponding equipment is triggered by the approach or passage of a public transport
* vehicle at a certain point (e.g. a beacon).
*
* @field ptActivationType: type of activation.
*
* @field ptActicationData: data of activation.
*
* Today there are different payload variants defined for public transport activation-data. The R09.x is one of
* the industry standard used by public transport vehicles (e.g. buses, trams) in Europe (e.g. Germany Austria)
* for controlling traffic lights, barriers, bollards, etc. This DF includes information like route, course,
* destination, priority, etc.
* The R09.x content is defined in VDV recommendation 420 [i.8]. It includes following information:
* - Priority Request Information (pre-request, request, ready to start)
* - End of Prioritization procedure
* - Priority request direction
* - Public Transport line number
* - Priority of public transport
* - Route line identifier of the public transport
* - Route number identification
* - Destination of public transport vehicle
*
* Other countries may use different message sets defined by the local administration.
* @category: Vehicle information
* Revision: V1.3.1
PtActivation ::= SEQUENCE {
ptActivationType PtActivationType,
ptActivationData PtActivationData
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* This DF describes a radial area. The triangular or cone-shaped area is
* constructed by sweeping the provided range about the reference point of the ITS-S or about the
* point described by the sensor offset point (if provided) with respect to the reference point
* between a horizontal start and a horizontal end angle in positive angular direction of the WGS84
* coordinate system. A vertical opening angle may be provided in a Cartesian coordinate system with
* the x-axis located in the North-East plane of the WGS84 coordinate system. The sensor height may
* be provided to reflect characteristics of sensors mounted at an altitude (e.g. sensors mounted
* above intersections).
*
* It includes the following components:
* @field range: The radial range of the sensor from the reference point or sensor point offset.
*
* @field stationaryHorizontalOpeningAngleStart: The orientation indicating the beginning of the
* stationary sensors horizontal opening angle in positive angular direction with respect to the
* WGS84 coordinate system.
*
* @field stationaryHorizontalOpeningAngleEnd: The orientation indicating the end of the stationary
* sensors horizontal opening angle in positive angular direction with respect to the WGS84 coordinate
* system.
*
* @field verticalOpeningAngleStart: optional orientation indicating the beginning of the stationary sensors
* vertical opening angle in positive angular direction of a Cartesian coordinate system with its x-axis
located in the north-east plane of the WGS84 coordinate system.
*
* @field verticalOpeningAngleEnd: optional orientation indicating the end of the stationary sensors
* vertical opening angle in positive angular direction of a Cartesian coordinate system with its x-axis
* located in the north-east plane of the WGS84 coordinate system using the DE CartesianAngleValue.
*
* @field sensorPositionOffset The offset of the mounting poinf of this sensor from the station's ReferencePosition.
*
* @field sensorHeight: the height of the sensor mounting point.
*
* @category GeoReference information
* Revision: created in V2.1.1
*/
RadialArea ::= SEQUENCE { -- tbd why is sensorHeight needed?
range StandardLength,
stationaryHorizontalOpeningAngleStart Wgs84AngleValue, --tbd shall this be cartesian?
stationaryHorizontalOpeningAngleEnd Wgs84AngleValue, --tbd shall this be cartesian?
verticalOpeningAngleStart CartesianAngleValue OPTIONAL,
verticalOpeningAngleEnd CartesianAngleValue OPTIONAL,
sensorPositionOffset CartesianPosition3d OPTIONAL,
-- sensorHeight SensorHeight OPTIONAL,
...
}
/**
* This DF specifies a rectangular area that is centred on a reference position defined outside of the context of this DF.
* @field centerPoint: represents an optional offset point which the rectangle is centred on with respect to the reference position.
*
* @field semiLength: represents half the length of the rectangle.
* @field semiBreadth: represents half the breadth of the rectangle.
*
* @field orientation: represents the orientation of the lenght of the rectangle in the WGS84 coordinate system.
*
* @category GeoReference information
* Revision: created in V2.1.1
RectangularArea ::= SEQUENCE { -- tbd
centerPoint CartesianPosition3d OPTIONAL,
semiLength StandardLength,
semiBreadth StandardLength,
orientation Wgs84AngleValue
-- semiHeight SemiRangeLength OPTIONAL
}
* A position within a geographic coordinate system together with a confidence indication.
* @field latitude: the latitude of the geographical point.
*
* @field longitude: the longitude of the geographical point.
*
* @field positionConfidenceEllipse: the accuracy of the geographical position.
*
* @field altitude: the altitude and an altitude accuracy of the geographical point.
ReferencePosition ::= SEQUENCE {
latitude Latitude,
longitude Longitude,
positionConfidenceEllipse PosConfidenceEllipse,
altitude Altitude
}
* This DF consist of a list of @ref StationType. to which a certain traffic restriction, e.g. the speed limit, applies.
* @category: Infrastructure information, Traffic information
* Revision: V1.3.1
RestrictedTypes ::= SEQUENCE (SIZE(1..3, ...)) OF StationType
* This DF represents a unique id for a road segment
*
* @field region: the optional identifier of the entity that is responsible for the region in which the road segment is placed.
* It is the duty of that entity to guarantee that the @ref Id is unique within the region.
*
* @field id: the identifier of the road segment
*
* @note: when the RoadRegulatorID is present, the RoadSegmentReferenceID is guaranteed to be globally unique.
* @category: GeoReference information
* Revision: created in V2.1.1
RoadSegmentReferenceId ::= SEQUENCE {
region RoadRegulatorId OPTIONAL,
id RoadSegmentID
}
* This DF provides the safe distance indication of a traffic participant with other traffic participant(s).
* @field subjectStation: optionally indicates one "other" traffic participant identified by its ITS-S.
*