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* _elevation_ of type [**Elevation**](#Elevation) OPTIONAL<br>
The elevation information is defined by the regional extension (see module ETSI-ITS-DSRC-AddGrpC).
Therefore, the `elevation` data element of `DF_Position3D` is not used.
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* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-Position3D}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Position3D ::= SEQUENCE {
lat Latitude,
long Longitude,
elevation Elevation OPTIONAL,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-Position3D}} OPTIONAL,
...
}
```
### <a name="PreemptPriorityList"></a>PreemptPriorityList
This DF consists of a list of RegionalSignalControlZone entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
PreemptPriorityList ::= SEQUENCE (SIZE(1..32)) OF SignalControlZone
```
### <a name="RegulatorySpeedLimit"></a>RegulatorySpeedLimit
This DF is used to convey a regulatory speed about a lane, lanes, or roadway segment.
* _type_ of type [**SpeedLimitType**](#SpeedLimitType) <br>
The type of regulatory speed which follows
* _speed_ of type [**Velocity**](#Velocity) <br>
The speed in units of 0.02 m/s
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RegulatorySpeedLimit ::= SEQUENCE {
type SpeedLimitType,
speed Velocity
}
```
### <a name="RequestorDescription"></a>RequestorDescription
This DF is used to provide identity information about a selected vehicle or users.
This data frame is typically used with fleet type vehicles which can (or which must) safely release such information for use
with probe measurements or with other interactions (such as a signal request).
Values:
* _id_ of type [**VehicleID**](#VehicleID) <br>
The ID used in the CAM of the requestor. This ID is presumed not to change during the exchange.
* _type_ of type [**RequestorType**](#RequestorType) OPTIONAL<br>
Information regarding all type and class data about the requesting vehicle
* _position_ of type [**RequestorPositionVector**](#RequestorPositionVector) OPTIONAL<br>
The location of the requesting vehicle
* _name_ of type [**DescriptiveName**](#DescriptiveName) OPTIONAL<br>
A human readable name for debugging use
* _routeName_ of type [**DescriptiveName**](#DescriptiveName) OPTIONAL<br>
A string for transit operations use
* _transitStatus_ of type [**TransitVehicleStatus**](#TransitVehicleStatus) OPTIONAL<br>
current vehicle state (loading, etc.)
* _transitOccupancy_ of type [**TransitVehicleOccupancy**](#TransitVehicleOccupancy) OPTIONAL<br>
current vehicle occupancy
* _transitSchedule_ of type [**DeltaTime**](ETSI-ITS-DSRC.md#DeltaTime) OPTIONAL<br>
current vehicle schedule adherence
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-RequestorDescription}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: Note that the requestor description elements which are used when the request (the req) is made differ from
those used when the status of an active or pending request is reported (the ack). Typically, when reporting the status to
other parties, less information is required and only the temporaryID (contained in the VehicleID) and request number (a
unique ID used in the orginal request) are used.
>>>
```asn1
RequestorDescription ::= SEQUENCE {
id VehicleID,
type RequestorType OPTIONAL,
position RequestorPositionVector OPTIONAL,
name DescriptiveName OPTIONAL,
routeName DescriptiveName OPTIONAL,
transitStatus TransitVehicleStatus OPTIONAL,
transitOccupancy TransitVehicleOccupancy OPTIONAL,
transitSchedule DeltaTime OPTIONAL,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-RequestorDescription}} OPTIONAL,
...
}
```
### <a name="RequestorPositionVector"></a>RequestorPositionVector
This DF provides a report of the requestor's position, speed, and heading.
Used by a vehicle or other type of user to request services and at other times when the larger FullPositionVector is not required.
* _position_ of type [**Position3D**](#Position3D) <br>
* _heading_ of type [**Angle**](#Angle) OPTIONAL<br>
* _speed_ of type [**TransmissionAndSpeed**](#TransmissionAndSpeed) OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RequestorPositionVector ::= SEQUENCE {
position Position3D,
heading Angle OPTIONAL,
speed TransmissionAndSpeed OPTIONAL,
...
}
```
### <a name="RequestorType"></a>RequestorType
This DF is used when a DSRC-equipped device is requesting service from another
device. The most common use case is when a vehicle is requesting a signal preemption or priority service call from the
signal controller in an intersection. This data frame provides the details of the requestor class taxonomy required to
support the request. Depending on the precise use case and the local implementation, these details can vary
considerably. As a result, besides the basic role of the vehicle, the other classification systems supported are optional. It
should also be observed that often only a subset of the information in the RequestorType data frame is used to report the
"results" of such a request to others. As an example, a police vehicle might request service based on being in a police
vehicle role (and any further sub-type if required) and on the type of service call to which the vehicle is then responding
(perhaps a greater degree of emergency than another type of call), placing these information elements in the
RequestorType, which is then part of the Signal Request Message (SRM). This allows the roadway operator to define
suitable business rules regarding how to reply. When informing the requestor and other nearby drivers of the outcome,
using the Signal Status Message (SSM) message, only the fact that the preemption was granted or denied to some
vehicle with a unique request ID is conveyed.
* _role_ of type [**BasicVehicleRole**](#BasicVehicleRole) <br>
Basic role of this user at this time.
* _subrole_ of type [**RequestSubRole**](#RequestSubRole) OPTIONAL<br>
A local list with role based items.
* _request_ of type [**RequestImportanceLevel**](#RequestImportanceLevel) OPTIONAL<br>
A local list with request items
* _iso3883_ of type [**Iso3833VehicleType**](ElectronicRegistrationIdentificationVehicleDataModule.md#Iso3833VehicleType) OPTIONAL<br>
Additional classification details
* _hpmsType_ of type [**VehicleType**](#VehicleType) OPTIONAL<br>
HPMS classification types
* _regional_ of type [**RegionalExtension**](#RegionalExtension) {{Reg-RequestorType}} OPTIONAL<br>
optional region specific data.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RequestorType ::= SEQUENCE {
role BasicVehicleRole,
subrole RequestSubRole OPTIONAL,
request RequestImportanceLevel OPTIONAL,
iso3883 Iso3833VehicleType OPTIONAL,
hpmsType VehicleType OPTIONAL,
regional RegionalExtension {{Reg-RequestorType}} OPTIONAL,
...
}
```
### <a name="RestrictionClassAssignment"></a>RestrictionClassAssignment
This DF is used to assign (or bind) a single RestrictionClassID data
element to a list of all user classes to which it applies. A collection of these bindings is conveyed in the
RestrictionClassList data frame in the MAP message to travelers. The established index is then used in the lane object of
the MAP message, in the ConnectTo data frame, to qualify to whom a signal group ID applies when it is sent by the SPAT
message about a movement.
* _id_ of type [**RestrictionClassID**](#RestrictionClassID) <br>
the unique value (within an intersection or local region) that is assigned to this group of users.
* _users_ of type [**RestrictionUserTypeList**](#RestrictionUserTypeList) <br>
The list of user types/classes to which this restriction ID applies.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RestrictionClassAssignment ::= SEQUENCE {
id RestrictionClassID,
users RestrictionUserTypeList
}
```
### <a name="RestrictionClassList"></a>RestrictionClassList
This DF is used to enumerate a list of user classes which belong to a given
assigned index. The resulting collection is treated as a group by the signal controller when it issues movement data
(signal phase information) with the GroupID for this group. This data frame is typically static for long periods of time
(months) and conveyed to the user by means of the MAP message.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: The overall restriction class assignment process allows dynamic support within the framework of the common
message set for the various special cases that some signalized intersections must support. While the assigned value
needs to be unique only within the scope of the intersection that uses it, the resulting assignment lists will tend to be static
and stable for regional deployment areas such as a metropolitan area based on their operational practices and needs.
>>>
```asn1
RestrictionClassList ::= SEQUENCE (SIZE(1..254)) OF RestrictionClassAssignment
```
### <a name="RestrictionUserType"></a>RestrictionUserType
This DF is used to provide a means to select one, and only one, user type or class
from a number of well-known lists. The selected entry is then used in the overall Restriction Class assignment process to
indicate that a given GroupID (a way of expressing a movement in the SPAT/MAP system) applies to (is restricted to) this
class of user.
Values:
* _basicType_ of type [**RestrictionAppliesTo**](#RestrictionAppliesTo) <br>
a set of the most commonly used types.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-RestrictionUserType}}<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RestrictionUserType ::= CHOICE {
basicType RestrictionAppliesTo,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-RestrictionUserType}},
...
}
```
### <a name="RestrictionUserTypeList"></a>RestrictionUserTypeList
This DF consists of a list of [**RestrictionUserType**](#RestrictionUserType) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RestrictionUserTypeList ::= SEQUENCE (SIZE(1..16)) OF RestrictionUserType
```
### <a name="RoadLaneSetList"></a>RoadLaneSetList
This DF consists of a list of GenericLane entries used to describe a segment of roadway.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RoadLaneSetList ::= SEQUENCE (SIZE(1..255)) OF GenericLane
```
### <a name="RoadSegmentReferenceID"></a>RoadSegmentReferenceID
This DF is used to convey theRoadSegmentID which is unique to a given road segment of interest,
and also the RoadRegulatorID assigned to the region in which it is operating (when required).
* _region_ of type [**RoadRegulatorID**](#RoadRegulatorID) OPTIONAL<br>
a globally unique regional assignment value typically assigned to a regional DOT authority the value zero shall be used for testing needs.
* _id_ of type [**RoadSegmentID**](#RoadSegmentID) <br>
a unique mapping to the road segment in question within the above region of use during its period of assignment and use
note that unlike intersectionID values, this value can be reused by the region.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RoadSegmentReferenceID ::= SEQUENCE {
region RoadRegulatorID OPTIONAL,
id RoadSegmentID
}
```
### <a name="RoadSegment"></a>RoadSegment
This DF is a complete description of a RoadSegment including its geometry and its
allowed navigational paths (independent of any additional regulatory restrictions that may apply over time or from user
classification) and any current disruptions such as a work zone or incident event.
Values:
* _name_ of type [**DescriptiveName**](#DescriptiveName) OPTIONAL<br>
some descriptive text.
* _id_ of type [**RoadSegmentReferenceID**](#RoadSegmentReferenceID) <br>
a globally unique value for the segment.
* _revision_ of type [**MsgCount**](#MsgCount) <br>
.
* _refPoint_ of type [**Position3D**](#Position3D) <br>
the reference from which subsequent data points are offset until a new point is used.
* _laneWidth_ of type [**LaneWidth**](#LaneWidth) OPTIONAL<br>
Reference width used by all subsequent lanes unless a new width is given.
* _speedLimits_ of type [**SpeedLimitList**](#SpeedLimitList) OPTIONAL<br>
Reference regulatory speed limits used by all subsequent lanes unless a new speed is given.
* _roadLaneSet_ of type [**RoadLaneSetList**](#RoadLaneSetList) <br>
Data describing disruptions in the RoadSegment such as work zones etc will be added here.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-RoadSegment}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RoadSegment ::= SEQUENCE {
name DescriptiveName OPTIONAL,
id RoadSegmentReferenceID,
revision MsgCount,
refPoint Position3D,
laneWidth LaneWidth OPTIONAL,
speedLimits SpeedLimitList OPTIONAL,
roadLaneSet RoadLaneSetList,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-RoadSegment}} OPTIONAL,
...
}
```
### <a name="RoadSegmentList"></a>RoadSegmentList
This DF consists of a list of [**RoadSegment**](#RoadSegment) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RoadSegmentList ::= SEQUENCE (SIZE(1..32)) OF RoadSegment
```
### <a name="RTCMheader"></a>RTCMheader
This DF is a collection of data values used to convey RTCM information between users. It
is not required or used when sending RTCM data from a corrections source to end users (from a base station to devices
deployed in the field which are called rovers).
* _status_ of type [**GNSSstatus**](#GNSSstatus) <br>
* _offsetSet_ of type [**AntennaOffsetSet**](#AntennaOffsetSet) <br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RTCMheader ::= SEQUENCE {
status GNSSstatus,
offsetSet AntennaOffsetSet
}
```
### <a name="RTCMmessageList"></a>RTCMmessageList
This DF consists of a list of [**RTCMmessage**](#RTCMmessage) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
RTCMmessageList ::= SEQUENCE (SIZE(1..5)) OF RTCMmessage
```
### <a name="SegmentAttributeXYList"></a>SegmentAttributeXYList
This DF consists of a list of [**SegmentAttributeXY**](#SegmentAttributeXY) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SegmentAttributeXYList ::= SEQUENCE (SIZE(1..8)) OF SegmentAttributeXY
```
### <a name="SignalControlZone"></a>SignalControlZone
This DF is a dummy placeholder to contain a regional SignalControlZone DF.
It is not used, yet here for backwards compatibility.
* _zone_ of type [**RegionalExtension**](#RegionalExtension) {{Reg-SignalControlZone}}<br>
* regional<br>
optional region specific data.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalControlZone ::= SEQUENCE {
zone RegionalExtension {{Reg-SignalControlZone}},
...
}
```
### <a name="SignalRequesterInfo"></a>SignalRequesterInfo
This DF is used to contain information regarding the entity that requested a given
signal behavior. In addition to the VehicleID, the data frame also contains a request reference number used to uniquely
refer to the request and some basic type information about the request maker which may be used by other parties.
* _id_ of type [**VehicleID**](#VehicleID) <br>
to uniquely identify the requester and the specific request to all parties.
* _request_ of type [**RequestID**](#RequestID) <br>
to uniquely identify the requester and the specific request to all parties.
* _sequenceNumber_ of type [**MsgCount**](#MsgCount) <br>
to uniquely identify the requester and the specific request to all parties.
* _role_ of type [**BasicVehicleRole**](#BasicVehicleRole) OPTIONAL<br>
vehicle role
* _typeData_ of type [**RequestorType**](#RequestorType) OPTIONAL<br>
Used when addition data besides the role is needed, at which point the role entry above is not sent.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalRequesterInfo ::= SEQUENCE {
id VehicleID,
request RequestID,
sequenceNumber MsgCount,
role BasicVehicleRole OPTIONAL,
typeData RequestorType OPTIONAL,
...
}
```
### <a name="SignalRequest"></a>SignalRequest
This DF is used (as part of a request message) to request either a priority or a preemption service
from a signalized intersection. It relates the intersection ID as well as the specific request information. Additional
information includes the approach and egress values or lanes to be used.
Values:
* _id_ of type [**IntersectionReferenceID**](#IntersectionReferenceID) <br>
the unique ID of the target intersection
* _requestID_ of type [**RequestID**](#RequestID) <br>
The unique requestID used by the requestor
* _requestType_ of type [**PriorityRequestType**](#PriorityRequestType) <br>
The type of request or cancel for priority or preempt use when a prior request is canceled, only the requestID is needed.
* _inBoundLane_ of type [**IntersectionAccessPoint**](#IntersectionAccessPoint) <br>
desired entry approach or lane.
* _outBoundLane_ of type [**IntersectionAccessPoint**](#IntersectionAccessPoint) OPTIONAL<br>
desired exit approach or lane. the value zero is used to indicate intent to stop within the intersection.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-SignalRequest}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: In typical use either an approach or a lane number would be given, this indicates the requested
path through the intersection to the degree it is known.
>>>
```asn1
SignalRequest ::= SEQUENCE {
id IntersectionReferenceID,
requestID RequestID,
requestType PriorityRequestType,
inBoundLane IntersectionAccessPoint,
outBoundLane IntersectionAccessPoint OPTIONAL,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-SignalRequest}} OPTIONAL,
...
}
```
### <a name="SignalRequestList"></a>SignalRequestList
This DF consists of a list of [**SignalRequest**](#SignalRequest) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalRequestList ::= SEQUENCE (SIZE(1..32)) OF SignalRequestPackage
```
### <a name="SignalRequestPackage"></a>SignalRequestPackage
This DF contains both the service request itself (the preemption and priority
details and the inbound-outbound path details for an intersection) and the time period (start and end time) over which this
service is sought from one single intersection. One or more of these packages are contained in a list in the Signal
Request Message (SREM).
Values:
* _request_ of type [**SignalRequest**](#SignalRequest) <br>
The specific request to the intersection contains IntersectionID, request type, requested action (approach/lane request).
* _minute_ of type [**MinuteOfTheYear**](#MinuteOfTheYear) OPTIONAL<br>
Time period start.
* _second_ of type [**DSecond**](#DSecond) OPTIONAL<br>
Time period start.
* _duration_ of type [**DSecond**](#DSecond) OPTIONAL<br>
The duration value is used to provide a short interval that extends the ETA so that the requesting vehicle can arrive at
the point of service with uncertainty or with some desired duration of service. This concept can be used to avoid needing
to frequently update the request. The requester must update the ETA and duration values if the
period of services extends beyond the duration time. It should be assumed that if the vehicle does not clear the
intersection when the duration is reached, the request will be cancelled and the intersection will revert to normal operation.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-SignalRequestPackage}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalRequestPackage ::= SEQUENCE {
request SignalRequest,
minute MinuteOfTheYear OPTIONAL,
second DSecond OPTIONAL,
duration DSecond OPTIONAL,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-SignalRequestPackage}} OPTIONAL,
...
}
```
### <a name="SignalStatus"></a>SignalStatus
This DF is used to provide the status of a single intersection to others, including any active
preemption or priority state in effect.
Values:
* _sequenceNumber_ of type [**MsgCount**](#MsgCount) <br>
changed whenever the below contents have change
* _id_ of type [**IntersectionReferenceID**](#IntersectionReferenceID) <br>
this provides a unique mapping to the intersection map in question which provides complete location
and approach/movement/lane data as well as zones for priority/preemption.
* _sigStatus_ of type [**SignalStatusPackageList**](#SignalStatusPackageList) <br>
a list of detailed status containing all priority or preemption state data, both active and pending,
and who requested it requests which are denied are also listed here for a short period of time.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-SignalStatus}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalStatus ::= SEQUENCE {
sequenceNumber MsgCount,
id IntersectionReferenceID,
sigStatus SignalStatusPackageList,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-SignalStatus}} OPTIONAL,
...
}
```
### <a name="SignalStatusList"></a>SignalStatusList
This DF consists of a list of [**SignalStatus**](#SignalStatus) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalStatusList ::= SEQUENCE (SIZE(1..32)) OF SignalStatus
```
### <a name="SignalStatusPackageList"></a>SignalStatusPackageList
This DF consists of a list of [**SignalStatusPackage**](#SignalStatusPackage) entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalStatusPackageList ::= SEQUENCE (SIZE(1..32)) OF SignalStatusPackage
```
### <a name="SignalStatusPackage"></a>SignalStatusPackage
This DF contains all the data needed to describe the preemption or priority state
of the signal controller with respect to a given request and to uniquely identify the party who requested that state to occur.
It should be noted that this data frame describes both active and anticipated states of the controller. A requested service
may not be active when the message is created and issued. A requested service may be rejected. This structure allows
the description of pending requests that have been granted (accepted rather than rejected) but are not yet active and
being serviced. It also provides for the description of rejected requests so that the initial message is acknowledged
(completing a dialog using the broadcast messages).
Values:
* _requester_ of type [**SignalRequesterInfo**](#SignalRequesterInfo) OPTIONAL<br>
The party that made the initial SREM request.
* _inboundOn_ of type [**IntersectionAccessPoint**](#IntersectionAccessPoint) <br>
estimated lane / approach of vehicle.
* _outboundOn_ of type [**IntersectionAccessPoint**](#IntersectionAccessPoint) OPTIONAL<br>
estimated lane / approach of vehicle.
* _minute_ of type [**MinuteOfTheYear**](#MinuteOfTheYear) OPTIONAL<br>
The Estimated Time of Arrival (ETA) when the service is requested. This data echos the data of the request.
* _second_ of type [**DSecond**](#DSecond) OPTIONAL<br>
seconds part of ETA.
* _duration_ of type [**DSecond**](#DSecond) OPTIONAL<br>
duration part of ETA.
* _status_ of type [**PrioritizationResponseStatus**](ETSI-ITS-DSRC.md#PrioritizationResponseStatus) <br>
Status of request, this may include rejection.
* _regional_ of type **SEQUENCE** (SIZE(1..4)) OF<br>
optional region specific data.
* **RegionalExtension** {{Reg-SignalStatusPackage}} OPTIONAL<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SignalStatusPackage ::= SEQUENCE {
requester SignalRequesterInfo OPTIONAL,
inboundOn IntersectionAccessPoint,
outboundOn IntersectionAccessPoint OPTIONAL,
minute MinuteOfTheYear OPTIONAL,
second DSecond OPTIONAL,
duration DSecond OPTIONAL,
status PrioritizationResponseStatus,
regional SEQUENCE (SIZE(1..4)) OF
RegionalExtension {{Reg-SignalStatusPackage}} OPTIONAL,
...
}
```
### <a name="SpeedandHeadingandThrottleConfidence"></a>SpeedandHeadingandThrottleConfidence
This DF is a single data frame combining multiple related bit fields into one concept.
* _heading_ of type [**HeadingConfidenceDSRC**](#HeadingConfidenceDSRC) <br>
* _speed_ of type [**SpeedConfidenceDSRC**](#SpeedConfidenceDSRC) <br>
* _throttle_ of type [**ThrottleConfidence**](#ThrottleConfidence) <br>
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**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SpeedandHeadingandThrottleConfidence ::= SEQUENCE {
heading HeadingConfidenceDSRC,
speed SpeedConfidenceDSRC,
throttle ThrottleConfidence
}
```
### <a name="SpeedLimitList"></a>SpeedLimitList
This DF consists of a list of SpeedLimit entries.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SpeedLimitList ::= SEQUENCE (SIZE(1..9)) OF RegulatorySpeedLimit
```
### <a name="SpeedLimitType"></a>SpeedLimitType
This DE relates the type of speed limit to which a given speed refers.
- unknown: Speed limit type not available
- maxSpeedInSchoolZone: Only sent when the limit is active
- maxSpeedInSchoolZoneWhenChildrenArePresent: Sent at any time
- maxSpeedInConstructionZone: Used for work zones, incident zones, etc. where a reduced speed is present
- vehicleMinSpeed: Regulatory speed limit for general traffic
- vehicleMaxSpeed: Regulatory speed limit for general traffic
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
SpeedLimitType ::= ENUMERATED {
unknown,
maxSpeedInSchoolZone,
maxSpeedInSchoolZoneWhenChildrenArePresent,
maxSpeedInConstructionZone,
vehicleMinSpeed,
vehicleMaxSpeed,
vehicleNightMaxSpeed,
truckMinSpeed,
truckMaxSpeed,
truckNightMaxSpeed,
vehiclesWithTrailersMinSpeed,
vehiclesWithTrailersMaxSpeed,
vehiclesWithTrailersNightMaxSpeed,
...
}
```
### <a name="TimeChangeDetails"></a>TimeChangeDetails
This DF conveys details about the timing of a phase within a movement. The core
data concept expressed is the time stamp (time mark) at which the related phase will change to the next state. This is
often found in the MinEndTime element, but the other elements may be needed to convey the full concept when adaptive
timing is employed.
* _startTime_ of type [**TimeMark**](#TimeMark) OPTIONAL<br>
is used to relate when the phase itself started or is expected to start. This in turn allows the
indication that a set of time change details refers to a future phase, rather than a currently active phase.
By this method, timing information about "pre" phase events (which are the short transitional phase used to alert OBUs to
an impending green/go or yellow/caution phase) and the longer yellow-caution phase data is supported in the same form
as various green/go phases. In theory, the time change details could be sent for a large sequence of phases if the signal
timing was not adaptive and the operator wished to do so. In practice, it is expected only the "next" future phase will
commonly be sent. It should be noted that this also supports the sending of time periods regarding various red phases;
however, this is not expected to be done commonly.
* _minEndTime_ of type [**TimeMark**](#TimeMark) <br>
is used to convey the earliest time possible at which the phase could change, except when
unpredictable events relating to a preemption or priority call disrupt a currently active timing plan. In a phase where the
time is fixed (as in a fixed yellow or clearance time), this element shall be used alone. This value can be viewed as the
earliest possible time at which the phase could change, except when unpredictable events relating to a preemption or
priority call come into play and disrupt a currently active timing plan.
* _maxEndTime_ of type [**TimeMark**](#TimeMark) OPTIONAL<br>
is used to convey the latest time possible which the phase could change,
except when unpredictable events relating to a preemption or priority
call come into play and disrupt a currently active timing plan. In a phase where the time is fixed (as in a fixed yellow or
clearance time), this element shall be used alone.
* _likelyTime_ of type [**TimeMark**](#TimeMark) OPTIONAL<br>
is used to convey the most likely time the phase changes. This occurs between MinEndTime and
MaxEndTime and is only relevant for traffic-actuated control programs. This time might be calculated out of logged
historical values, detected events (e.g., from inductive loops), or from other sources.
* _confidence_ of type [**TimeIntervalConfidence**](#TimeIntervalConfidence) OPTIONAL<br>
is used to convey basic confidence data about the likelyTime.
* _nextTime_ of type [**TimeMark**](#TimeMark) OPTIONAL<br>
is used to express a general (and presumably less precise) value regarding when this phase will
next occur. This is intended to be used to alert the OBU when the next green/go may occur so that various ECO driving
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applications can better manage the vehicle during the intervening stopped time.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: Remarks: It should be noted that all times are expressed as absolute values and not as countdown timer values. When
the stated time mark is reached, the state changes to the next state. Several technical reasons led to this choice; among
these was that with a countdown embodiment, there is an inherent need to update the remaining time every time a SPAT
message is issued. This would require re-formulating the message content as as well as cryptographically signing the
message each time. With the use of absolute values (time marks) chosen here, the current count down time when the
message is created is added to the then-current time to create an absolute value and can be used thereafter without
change. The message content need only change when the signal controller makes a timing decision to be published. This
allows a clean separation of the logical functions of message creation from the logical functions of message scheduling
and sending, and fulfills the need to minimize further real time processing when possible. This Standard sets no limits on
where each of these functions is performed in the overall roadside system.
>>>
```asn1
TimeChangeDetails ::= SEQUENCE {
maxEndTime TimeMark OPTIONAL,
likelyTime TimeMark OPTIONAL,
}
```
### <a name="TimeMark"></a>TimeMark
This DE is used to relate a moment in UTC (Coordinated Universal Time)-based time when a
signal phase is predicted to change, with a precision of 1/10 of a second. A range of 60 full minutes is supported and it
can be presumed that the receiver shares a common sense of time with the sender which is kept aligned to within a
fraction of a second or better.
If there is a need to send a value greater than the range allowed by the data element (over one hour in the future), the
value 36000 shall be sent and shall be interpreted to indicate an indefinite future time value. When the value to be used is
undefined or unknown a value of 36001 shall be sent. Note that leap seconds are also supported.
The value is tenths of a second in the current or next hour in units of 1/10th second from UTC time
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- The values 35991..35999 are used when a leap second occurs
- The value 36000 is used to indicate time >3600 seconds
- 36001 is to be used when value undefined or unknown
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: Note that this is NOT expressed in GPS time or in local time
>>>
```asn1
TimeMark ::= INTEGER (0..36001)
```
### <a name="TransmissionAndSpeed"></a>TransmissionAndSpeed
This DF expresses the speed of the vehicle and the state of the transmission.
The transmission state of 'reverse' can be used as a sign value for the speed element when needed.
* _transmisson_ of type [**TransmissionState**](#TransmissionState) <br>
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**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
TransmissionAndSpeed ::= SEQUENCE {
transmisson TransmissionState,
speed Velocity
}
```
### <a name="VehicleID"></a>VehicleID
This DF is used to contain either a (US) TemporaryID or an (EU) StationID in a simple frame.
These two different value domains are used to uniquely identify a vehicle or other object in these two regional DSRC
value is unavailable but needed by another type of user (such as the roadside infrastructure sending data about an
environments. In normal use cases, this value changes over time to prevent tracking of the subject vehicle. When this
unequipped vehicle), the value zero shall be used. A typical restriction on the use of this value during a dialog or other
exchange is that the value remains constant for the duration of that exchange. Refer to the performance requirements for
a given application for details.
* _entityID_ of type [**TemporaryID**](#TemporaryID) <br>
* _stationID_ of type [**StationID**](ETSI-ITS-CDD.md#StationID) <br>
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**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
VehicleID ::= CHOICE {
entityID TemporaryID,
stationID StationID
}
```
### <a name="AdvisorySpeedType"></a>AdvisorySpeedType
This DE relates the type of travel to which a given speed refers. This element is
typically used as part of an [**AdvisorySpeed**](#AdvisorySpeed) data frame for signal phase and timing data.
Values:
* **none** (0)<br>
* **greenwave** (1)<br>
* **ecoDrive** (2)<br>
* **transit** (3)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
AdvisorySpeedType ::= ENUMERATED {
none (0),
greenwave (1),
ecoDrive (2),
transit (3),
...
}
```
### <a name="AllowedManeuvers"></a>AllowedManeuvers
This DE relates the allowed (possible) maneuvers from a lane, typically a
motorized vehicle lane. It should be noted that in practice these values may be further restricted by vehicle class, local
regulatory environment and other changing conditions.
Values:
* **maneuverStraightAllowed** (0)<br>
* **maneuverLeftAllowed** (1)<br>
* **maneuverRightAllowed** (2)<br>
* **maneuverUTurnAllowed** (3)<br>
* **maneuverLeftTurnOnRedAllowed** (4)<br>
* **maneuverRightTurnOnRedAllowed** (5)<br>
* **maneuverLaneChangeAllowed** (6)<br>
* **maneuverNoStoppingAllowed** (7)<br>
* **yieldAllwaysRequired** (8)<br>
* **goWithHalt** (9)<br>
* **caution** (10)<br>
* **reserved1** (11)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: When used by data frames, the AllowedManeuvers data concept is used in two places: optionally in the
generic lane structure to list all possible maneuvers (as in what that lane can do at its stop line point); and within each
ConnectsTo structure. Each ConnectsTo structure contains a list used to provide a single valid maneuver in the context of
one lane connecting to another in the context of a signal phase that applies to that maneuver. It should be noted that, in
some intersections, multiple outbound lanes can be reached by the same maneuver (for example two independent left
turns might be found in a 5-legged intersection) but that to reach any given lane from the stop line of another lane is
always a single maneuver item (hence the use of a list). Not all intersection descriptions may contain an exhaustive set of
ConnectsTo information (unsignalized intersections for example) and in such cases the AllowedManeuvers in the generic
lane structure can be used. If present in both places, the data expressed in the generic lane shall not conflict with the data
found in the collection of ConnectsTo entries.
>>>
```asn1
AllowedManeuvers ::= BIT STRING {
maneuverStraightAllowed (0),
maneuverLeftAllowed (1),
maneuverRightAllowed (2),
maneuverUTurnAllowed (3),
maneuverLeftTurnOnRedAllowed (4),
maneuverRightTurnOnRedAllowed (5),
maneuverLaneChangeAllowed (6),
maneuverNoStoppingAllowed (7),
yieldAllwaysRequired (8),
goWithHalt (9),
caution (10),
reserved1 (11)
} (SIZE(12))
```
### <a name="Angle"></a>Angle
This DE is used to describe an angular measurement in units of degrees. This data
element is often used as a heading direction when in motion. In this use, the current heading of the sending device is
expressed in unsigned units of 0.0125 degrees from North, such that 28799 such degrees represent 359.9875 degrees.
North shall be defined as the axis defined by the WGS-84 coordinate system and its reference ellipsoid. Any angle "to the
east" is defined as the positive direction. A value of 28800 shall be used when Angle is unavailable.
**Unit:** _0.0125 degrees_
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: Note that other heading and angle data elements of various sizes and precisions are found in other parts of this standard and in ITS.
>>>
```asn1
Angle ::= INTEGER (0..28800)
```
### <a name="ApproachID"></a>ApproachID
This DE is used to relate the index of an approach, either ingress or egress within the
subject lane. In general, an approach index in the context of a timing movement is not of value in the MAP and SPAT
process because the lane ID and signal group ID concepts handle this with more precision. This value can also be useful
as an aid as it can be used to indicate the gross position of a moving object (vehicle) when its lane level accuracy is
unknown. This value can also be used when a deployment represents sets of lanes as groups without further details (as is
done in Japan).
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: zero to be used when valid value is unknown
>>>
```asn1
ApproachID ::= INTEGER (0..15)
```
### <a name="BasicVehicleRole"></a>BasicVehicleRole
This DE provides a means to indicate the current role that a DSRC device is playing
This is most commonly employed when a vehicle needs to take on another role in order to send certain DSRC message
types. As an example, when a public safety vehicle such as a police car wishes to send a signal request message (SRM)
to an intersection to request a preemption service, the vehicle takes on the role "police" from the below list in both the
SRM message itself and also in the type of security CERT which is sent (the SSP in the CERT it used to identify the
requester as being of type "police" and that they are allowed to send this message in this way). The BasicVehicleRole
entry is often used and combined with other information about the requester as well, such as details of why the request is
being made.
- 0 - `basicVehicle` - Light duty passenger vehicle type