Newer
Older
elev-000-10 (12),
elev-000-05 (13),
elev-000-02 (14),
elev-000-01 (15)
```
### <a name="FuelType"></a>FuelType
This DE provides the type of fuel used by a vehicle.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
FuelType ::= INTEGER (0..15)
unknownFuel FuelType ::= 0
gasoline FuelType ::= 1
ethanol FuelType ::= 2
diesel FuelType ::= 3
electric FuelType ::= 4
hybrid FuelType ::= 5
hydrogen FuelType ::= 6
natGasLiquid FuelType ::= 7
natGasComp FuelType ::= 8
propane FuelType ::= 9
```
### <a name="GNSSstatus"></a>GNSSstatus
This DE is used to relate the current state of a GPS/GNSS rover or base system in terms
of its general health, lock on satellites in view, and use of any correction information. Various bits can be asserted (made
to a value of one) to reflect these values. A GNSS set with unknown health and no tracking or corrections would be
represented by setting the unavailable bit to one. A value of zero shall be used when a defined data element is
unavailable. The term "GPS" in any data element name in this standard does not imply that it is only to be used for GPS-
type GNSS systems.
- `unavailable` - 0: Not Equipped or unavailable
- `isHealthy` - 1:
- `isMonitored` - 2:
- `baseStationType` - 3: Set to zero if a moving base station, or if a rover device (an OBU), Set to one if it is a fixed base station
- `aPDOPofUnder5` - 4: A dilution of precision greater than 5
- `inViewOfUnder5` - 5: Less than 5 satellites in view
- `localCorrectionsPresent` - 6: DGPS type corrections used
- `networkCorrectionsPresen` - 7: RTK type corrections used
Values:
* **unavailable** (0)<br>
* **isHealthy** (1)<br>
* **isMonitored** (2)<br>
* **baseStationType** (3)<br>
* **aPDOPofUnder5** (4)<br>
* **inViewOfUnder5** (5)<br>
* **localCorrectionsPresent** (6)<br>
* **networkCorrectionsPresent** (7)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
GNSSstatus ::= BIT STRING {
unavailable (0),
isHealthy (1),
isMonitored (2),
baseStationType (3),
aPDOPofUnder5 (4),
inViewOfUnder5 (5),
localCorrectionsPresent (6),
networkCorrectionsPresent (7)
```
### <a name="HeadingConfidenceDSRC"></a>HeadingConfidenceDSRC
The DE_HeadingConfidence data element is used to provide the 95% confidence level for the currently reported
calculate the value. This data element is only to provide the listener with information on the limitations of the sensing
value of DE_Heading, taking into account the current calibration and precision of the sensor(s) used to measure and/or
system, not to support any type of automatic error correction or to imply a guaranteed maximum error. This data element
should not be used for fault detection or diagnosis, but if a vehicle is able to detect a fault, the confidence interval should
be increased accordingly. The frame of reference and axis of rotation used shall be in accordance with that defined Section 11.
- `unavailable` - 0: B'000 Not Equipped or unavailable
- `prec10deg` - 1: B'010 10 degrees
- `prec05deg` - 2: B'011 5 degrees
- `prec01deg` - 3: B'100 1 degrees
- `prec0-1deg` - 4: B'101 0.1 degrees
- `prec0-05deg` - 5: B'110 0.05 degrees
- `prec0-01deg` - 6: B'110 0.01 degrees
- `prec0-0125deg` - 7: B'111 0.0125 degrees, aligned with heading LSB
Values:
* **unavailable** (0)<br>
* **prec10deg** (1)<br>
* **prec05deg** (2)<br>
* **prec01deg** (3)<br>
* **prec0-1deg** (4)<br>
* **prec0-05deg** (5)<br>
* **prec0-01deg** (6)<br>
* **prec0-0125deg** (7)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
HeadingConfidenceDSRC ::= ENUMERATED {
unavailable (0),
prec10deg (1),
prec05deg (2),
prec01deg (3),
prec0-1deg (4),
prec0-05deg (5),
prec0-01deg (6),
prec0-0125deg (7)
```
### <a name="HeadingDSRC"></a>HeadingDSRC
This DE provides the current heading of the sending device, 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
prescribed by the WGS-84 coordinate system and its reference ellipsoid. Headings "to the east" are defined as the
positive direction. A value of 28800 shall be used when unavailable. This element indicates the direction of motion of the
device. When the sending device is stopped and the trajectory (path) over which it traveled to reach that location is well
known, the past heading may be used.
Value provides a range of 0 to 359.9875 degrees
and in ITS. This element should no longer be used for new work: the [**Angle**](#Angle) entry is preferred.
**Unit:** _0.0125 degrees_
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
HeadingDSRC ::= INTEGER (0..28800)
```
### <a name="IntersectionID"></a>IntersectionID
This DE is used within a region to uniquely define an intersection within that country or region in a 16-bit
field. Assignment rules are established by the regional authority associated with the RoadRegulatorID under which this
IntersectionID is assigned. Within the region the policies used to ensure an assigned valueâs uniqueness before that value
is reused (if ever) is the responsibility of that region. Any such reuse would be expected to occur over a long epoch (many years).
The values zero through 255 are allocated for testing purposes
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: Note that the value assigned to an intersection will be unique within a given regional ID only
>>>
```asn1
IntersectionID ::= INTEGER (0..65535)
```
### <a name="IntersectionStatusObject"></a>IntersectionStatusObject
The Intersection Status Object contains Advanced Traffic Controller (ATC) status information that may be sent to
local OBUs as part of the SPAT process.
With bits as defined:
- `manualControlIsEnabled` - 0: Timing reported is per programmed values, etc. but person at cabinet can manually request that certain intervals are terminated early (e.g. green).
- `stopTimeIsActivated` - 1: And all counting/timing has stopped.
- `failureFlash` - 2: Above to be used for any detected hardware failures, e.g. conflict monitor as well as for police flash
- `fixedTimeOperation` - 5: Schedule of signals is based on time only (i.e. the state can be calculated)
- `trafficDependentOperation` - 6: Operation is based on different levels of traffic parameters (requests, duration of gaps or more complex parameters)
- `standbyOperation` - 7: Controller: partially switched off or partially amber flashing
- `failureMode` - 8: Controller has a problem or failure in operation
- `off` - 9: Controller is switched off
- `recentMAPmessageUpdate` - 10: Map revision with content changes
- `recentChangeInMAPassignedLanesIDsUsed` - 11: Change in MAP's assigned lanes used (lane changes) Changes in the active lane list description
- `noValidMAPisAvailableAtThisTime` - 12: MAP (and various lanes indexes) not available
- `noValidSPATisAvailableAtThisTime` - 13: SPAT system is not working at this time
- Bits 14,15 reserved at this time and shall be zero
Values:
* **manualControlIsEnabled** (0)<br>
* **stopTimeIsActivated** (1)<br>
* **failureFlash** (2)<br>
* **preemptIsActive** (3)<br>
* **signalPriorityIsActive** (4)<br>
* **fixedTimeOperation** (5)<br>
* **trafficDependentOperation** (6)<br>
* **standbyOperation** (7)<br>
* **failureMode** (8)<br>
* **off** (9)<br>
* **recentMAPmessageUpdate** (10)<br>
* **recentChangeInMAPassignedLanesIDsUsed** (11)<br>
* **noValidMAPisAvailableAtThisTime** (12)<br>
* **noValidSPATisAvailableAtThisTime** (13)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: All zeros indicate normal operating mode with no recent changes. The duration of the term 'recent' is defined by the system performance requirement in use.
>>>
```asn1
IntersectionStatusObject ::= BIT STRING {
manualControlIsEnabled (0),
stopTimeIsActivated (1),
failureFlash (2),
preemptIsActive (3),
signalPriorityIsActive (4),
fixedTimeOperation (5),
trafficDependentOperation (6),
standbyOperation (7),
failureMode (8),
off (9),
recentMAPmessageUpdate (10),
recentChangeInMAPassignedLanesIDsUsed (11),
noValidMAPisAvailableAtThisTime (12),
noValidSPATisAvailableAtThisTime (13)
} (SIZE(16))
```
### <a name="LaneAttributes-Barrier"></a>LaneAttributes-Barrier
This DE relates specific properties found in a Barrier or Median lane type (a type of lane object used to separate traffic lanes).
It should be noted that various common lane attribute properties (such as travel directions and allowed movements or maneuvers) can be found in other entries.
With bits as defined:
- `median-RevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- Bits 10~15 reserved and set to zero
Values:
* **median-RevocableLane** (0)<br>
* **median** (1)<br>
* **whiteLineHashing** (2)<br>
* **stripedLines** (3)<br>
* **doubleStripedLines** (4)<br>
* **trafficCones** (5)<br>
* **constructionBarrier** (6)<br>
* **trafficChannels** (7)<br>
* **lowCurbs** (8)<br>
* **highCurbs** (9)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Barrier ::= BIT STRING {
median-RevocableLane (0),
median (1),
whiteLineHashing (2),
stripedLines (3),
doubleStripedLines (4),
trafficCones (5),
constructionBarrier (6),
trafficChannels (7),
lowCurbs (8),
highCurbs (9)
} (SIZE (16))
```
### <a name="LaneAttributes-Bike"></a>LaneAttributes-Bike
This DE relates specific properties found in a bicycle lane type. It should be noted that various common lane attribute properties
(such as travel directions and allowed movements or maneuvers) can be found in other entries.
With bits as defined:
- `bikeRevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- `pedestrianUseAllowed` - 1: The path allows pedestrian traffic, if not set, this mode is prohibited
- `isBikeFlyOverLane` - 2: path of lane is not at grade
- `fixedCycleTime` - 3: the phases use preset times, i.e. there is not a 'push to cross' button
- `biDirectionalCycleTimes` - 4: ped walk phases use different SignalGroupID for each direction. The first SignalGroupID in the first Connection
represents 'inbound' flow (the direction of travel towards the first node point) while second SignalGroupID in the
next Connection entry represents the 'outbound' flow. And use of RestrictionClassID entries in the Connect follow this same pattern in pairs.
-`isolatedByBarrier` - 5: The lane path is isolated by a fixed barrier
-`unsignalizedSegmentsPresent` - 6: The lane path consists of one of more segments which are not part of a signal group ID
- Bits 7~15 reserved and set to zero
Values:
* **bikeRevocableLane** (0)<br>
* **pedestrianUseAllowed** (1)<br>
* **isBikeFlyOverLane** (2)<br>
* **fixedCycleTime** (3)<br>
* **biDirectionalCycleTimes** (4)<br>
* **isolatedByBarrier** (5)<br>
* **unsignalizedSegmentsPresent** (6)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Bike ::= BIT STRING {
bikeRevocableLane (0),
pedestrianUseAllowed (1),
isBikeFlyOverLane (2),
fixedCycleTime (3),
biDirectionalCycleTimes (4),
isolatedByBarrier (5),
unsignalizedSegmentsPresent (6)
} (SIZE (16))
```
### <a name="LaneAttributes-Crosswalk"></a>LaneAttributes-Crosswalk
This DE relates specific properties found in a crosswalk lane type. It should be noted that various common lane attribute properties
(such as travel directions and allowed movements or maneuvers) can be found in other entries.
With bits as defined:
- `crosswalkRevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- `bicyleUseAllowed` - 1: The path allows bicycle traffic, if not set, this mode is prohibited
- `isXwalkFlyOverLane` - 2: path of lane is not at grade
- `fixedCycleTime` - 3: ped walk phases use preset times. i.e. there is not a 'push to cross' button
- `biDirectionalCycleTimes` - 4: ped walk phases use different SignalGroupID for each direction. The first SignalGroupID
in the first Connection represents 'inbound' flow (the direction of travel towards the first
node point) while second SignalGroupID in the next Connection entry represents the 'outbound'
flow. And use of RestrictionClassID entries in the Connect follow this same pattern in pairs.
- `hasPushToWalkButton` - 5: Has a demand input
- `audioSupport` - 6: audio crossing cues present
- `rfSignalRequestPresent` - 7: Supports RF push to walk technologies
- `unsignalizedSegmentsPresent` - 8: The lane path consists of one of more segments which are not part of a signal group ID
- Bits 9~15 reserved and set to zero
Values:
* **crosswalkRevocableLane** (0)<br>
* **bicyleUseAllowed** (1)<br>
* **isXwalkFlyOverLane** (2)<br>
* **fixedCycleTime** (3)<br>
* **biDirectionalCycleTimes** (4)<br>
* **hasPushToWalkButton** (5)<br>
* **audioSupport** (6)<br>
* **rfSignalRequestPresent** (7)<br>
* **unsignalizedSegmentsPresent** (8)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Crosswalk ::= BIT STRING {
crosswalkRevocableLane (0),
bicyleUseAllowed (1),
isXwalkFlyOverLane (2),
fixedCycleTime (3),
biDirectionalCycleTimes (4),
hasPushToWalkButton (5),
audioSupport (6),
rfSignalRequestPresent (7),
unsignalizedSegmentsPresent (8)
} (SIZE (16))
```
### <a name="LaneAttributes-Parking"></a>LaneAttributes-Parking
This DE relates specific properties found in a vehicle parking lane type. It should be noted that various common lane attribute
properties can be found in other entries.
With bits as defined:
- `parkingRevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- `doNotParkZone` - 3: used to denote fire hydrants as well as short disruptions in a parking zone
- `noPublicParkingUse` - 6: private parking, as in front of private property
- Bits 7~15 reserved and set to zero*
Values:
* **parkingRevocableLane** (0)<br>
* **parallelParkingInUse** (1)<br>
* **headInParkingInUse** (2)<br>
* **doNotParkZone** (3)<br>
* **parkingForBusUse** (4)<br>
* **parkingForTaxiUse** (5)<br>
* **noPublicParkingUse** (6)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Parking ::= BIT STRING {
parkingRevocableLane (0),
parallelParkingInUse (1),
headInParkingInUse (2),
doNotParkZone (3),
parkingForBusUse (4),
parkingForTaxiUse (5),
noPublicParkingUse (6)
} (SIZE (16))
```
### <a name="LaneAttributes-Sidewalk"></a>LaneAttributes-Sidewalk
This DE relates specific properties found in a sidewalk lane type. It should be noted that various common lane attribute properties
(such as travel directions and allowed movements or maneuvers) can be found in other entries.
With bits as defined:
- `sidewalk-RevocableLane`- 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present.
- `bicyleUseAllowed` - 1: The path allows bicycle traffic, if not set, this mode is prohibited
- `isSidewalkFlyOverLane` - 2: path of lane is not at grade
- `walkBikes` - 3: bike traffic must dismount and walk
- Bits 4~15 reserved and set to zero
Values:
* **sidewalk-RevocableLane** (0)<br>
* **bicyleUseAllowed** (1)<br>
* **isSidewalkFlyOverLane** (2)<br>
* **walkBikes** (3)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Sidewalk ::= BIT STRING {
sidewalk-RevocableLane (0),
bicyleUseAllowed (1),
isSidewalkFlyOverLane (2),
walkBikes (3)
} (SIZE (16))
```
### <a name="LaneAttributes-Striping"></a>LaneAttributes-Striping
This DE relates specific properties found in various types of ground striping lane
types. This includes various types of painted lane ground striping and iconic information needs to convey information in a
complex intersection. Typically, this consists of visual guidance for drivers to assist them to connect across the
intersection to the correct lane. Such markings are typically used with restraint and only under conditions when the
geometry of the intersection makes them more beneficial than distracting. It should be noted that various common lane
attribute properties (such as travel directions and allowed movements or maneuvers) can be found in other entries.
With bits as defined:
- `stripeToConnectingLanesRevocableLane` - 0: this lane may be activated or not activated based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- `stripeToConnectingLanesAhead` - 5: the stripe type should be presented to the user visually to reflect stripes in the intersection for the type of movement indicated.
- Bits 6~15 reserved and set to zero
Values:
* **stripeToConnectingLanesRevocableLane** (0)<br>
* **stripeDrawOnLeft** (1)<br>
* **stripeDrawOnRight** (2)<br>
* **stripeToConnectingLanesLeft** (3)<br>
* **stripeToConnectingLanesRight** (4)<br>
* **stripeToConnectingLanesAhead** (5)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Striping ::= BIT STRING {
stripeToConnectingLanesRevocableLane (0),
stripeDrawOnLeft (1),
stripeDrawOnRight (2),
stripeToConnectingLanesLeft (3),
stripeToConnectingLanesRight (4),
stripeToConnectingLanesAhead (5)
} (SIZE (16))
```
### <a name="LaneAttributes-TrackedVehicle"></a>LaneAttributes-TrackedVehicle
This DE relates specific properties found in a tracked vehicle lane types (trolley
and train lanes). The term ârail vehicleâ can be considered synonymous. In this case, the term does not relate to vehicle
types with tracks or treads. It should be noted that various common lane attribute properties (such as travel directions and
allowed movements or maneuvers) can be found in other entries. It should also be noted that often this type of lane object
does not clearly relate to an approach in the traditional traffic engineering sense, although the message set allows
assigning a value when desired.
With bits as defined:
- `spec-RevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present.
- Bits 5~15 reserved and set to zero
Values:
* **spec-RevocableLane** (0)<br>
* **spec-commuterRailRoadTrack** (1)<br>
* **spec-lightRailRoadTrack** (2)<br>
* **spec-heavyRailRoadTrack** (3)<br>
* **spec-otherRailType** (4)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-TrackedVehicle ::= BIT STRING {
spec-RevocableLane (0),
spec-commuterRailRoadTrack (1),
spec-lightRailRoadTrack (2),
spec-heavyRailRoadTrack (3),
spec-otherRailType (4)
} (SIZE (16))
```
### <a name="LaneAttributes-Vehicle"></a>LaneAttributes-Vehicle
This DE relates specific properties found in a vehicle lane type. This data element provides a means to denote that the use of a lane
is restricted to certain vehicle types. Various common lane attribute properties (such as travel directions and allowed movements or maneuvers)
can be found in other entries.
With bits as defined:
- `isVehicleRevocableLane` - 0: this lane may be activated or not based on the current SPAT message contents if not asserted, the lane is ALWAYS present
- `isVehicleFlyOverLane` - 1: path of lane is not at grade
- `permissionOnRequest` - 7: e.g. to inform about a lane for e-cars
Values:
* **isVehicleRevocableLane** (0)<br>
* **isVehicleFlyOverLane** (1)<br>
* **hovLaneUseOnly** (2)<br>
* **restrictedToBusUse** (3)<br>
* **restrictedToTaxiUse** (4)<br>
* **restrictedFromPublicUse** (5)<br>
* **hasIRbeaconCoverage** (6)<br>
* **permissionOnRequest** (7)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneAttributes-Vehicle ::= BIT STRING {
isVehicleRevocableLane (0),
isVehicleFlyOverLane (1),
hovLaneUseOnly (2),
restrictedToBusUse (3),
restrictedToTaxiUse (4),
restrictedFromPublicUse (5),
hasIRbeaconCoverage (6),
permissionOnRequest (7)
} (SIZE (8,...))
```
### <a name="LaneConnectionID"></a>LaneConnectionID
This DE is used to state a connection index for a lane to lane connection. It is used to
relate this connection between the lane (defined in the MAP) and any dynamic clearance data sent in the SPAT. It should
be noted that the index may be shared with other lanes (for example, two left turn lanes may share the same dynamic
clearance data). It should also be noted that a given lane to lane connection may be part of more than one GroupID due
to signal phase considerations, but will only have one ConnectionID. The ConnectionID concept is not used (is not
present) when dynamic clearance data is not provided in the SPAT.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: It should be noted that the LaneConnectionID is used as a means to index to a connection description
between two lanes. It is not the same as the laneID, which is the unique index to each lane itself.
>>>
```asn1
LaneConnectionID ::= INTEGER (0..255)
```
### <a name="LaneDirection"></a>LaneDirection
This DE is used to denote the allowed direction of travel over a lane object. By convention, the lane object is always described
from the stop line outwards away from the intersection. Therefore, the ingress direction is from the end of the path to the stop
line and the egress direction is from the stop line outwards.
It should be noted that some lane objects are not used for travel and that some lane objects allow bi-directional travel.
With bits as defined:
- Allowed directions of travel in the lane object
- All lanes are described from the stop line outwards
travel from rear of path to front is allowed
travel from front of path to rear is allowed
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: No Travel, i.e. the lane object type does not support travel (medians, curbs, etc.) is indicated by not
asserting any bit value Bi-Directional Travel (such as a ped crosswalk) is indicated by asserting both of the bits.
>>>
```asn1
LaneDirection ::= BIT STRING {
ingressPath (0),
egressPath (1)
} (SIZE (2))
```
### <a name="LaneID"></a>LaneID
This DE conveys an assigned index that is unique within an intersection. It is used to refer to
that lane by other objects in the intersection map data structure. Lanes may be ingress (inbound traffic) or egress
(outbound traffic) in nature, as well as barriers and other types of specialty lanes. Each lane (each lane object) is
assigned a unique ID. The Lane ID, in conjunction with the intersection ID, forms a regionally unique way to address a
specific lane in that region.
- the value 0 shall be used when the lane ID is not available or not known
- the value 255 is reserved for future use
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneID ::= INTEGER (0..255)
```
### <a name="LayerID"></a>LayerID
Large [**MapData**](#MapData) descriptions are not possible to be broadcast with a single message and have to be
fragmented using two or more messages over the air. Therefore, the LayerID allows defining an
index for fragmentation of large [**MapData**](#MapData) descriptions. The fragmentation of the messages shall be
executed on application layer. The fragmentation occurs on an approach base. This means that almost a
complete approach (e.g. lanes, connectsTo, etc.) has to be included within a fragment.
The decimal value of the `layerID` is used to define the amount of maximum [**MapData**](#MapData) fragments. The
lower value defines the actual fragment.
Example:
If a MapData consists of three fragments (e.g. three approaches), the fragments are identified as follows:
- `31` - first fragment of three (e.g. approach south);
- `33` - third fragment of three (e.g. approach north).
- `32` - second fragment of three (e.g. approach west);
If there are only two fragments, the fragment identification will be 21, 22.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LayerID ::= INTEGER (0..100)
```
### <a name="LayerType"></a>LayerType
This DE is used to uniquely identify the type of information to be found in a layer of a geographic map fragment such as an intersection.
@field `mixedContent`: two or more of the below types
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LayerType ::= ENUMERATED {
none,
mixedContent,
generalMapData,
intersectionData,
curveData,
roadwaySectionData,
parkingAreaData,
sharedLaneData,
...
}
```
### <a name="LaneWidth"></a>LaneWidth
This DE conveys the width of a lane in LSB units of 1 cm. Maximum value for a lane is 327.67 meters in width
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
LaneWidth ::= INTEGER (0..32767)
```
### <a name="MergeDivergeNodeAngle"></a>MergeDivergeNodeAngle
The angle at which another lane path meets the current lanes at the node point. Typically found in the node
attributes and used to describe the angle of the departing or merging lane. Note that oblique and obtuse angles are allowed.
The value `-180` shall be used to represent data is not available or unknown
**Unit:** _1.5 degrees from north_
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
MergeDivergeNodeAngle ::= INTEGER (-180..180)
```
### <a name="MinuteOfTheYear"></a>MinuteOfTheYear
This DE expresses the number of elapsed minutes of the current year in the time system being used (typically UTC time).
It is typically used to provide a longer range time stamp indicating when a message was created.
Taken together with the DSecond data element, it provides a range of one full year with a resolution of 1 millisecond.
The value 527040 shall be used for invalid.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: It should be noted that at the yearly roll-over point there is no "zero" minute, in the same way that there was
never a "year zero" at the very start of the common era (BC -> AD). By using the number of elapsed whole minutes here
this issue is avoided and the first valid value of every new year is zero, followed by one, etc. Leap years are
accommodated, as are leap seconds in the DSecond data concept.
>>>
```asn1
MinuteOfTheYear ::= INTEGER (0..527040)
```
### <a name="MovementPhaseState"></a>MovementPhaseState
This DE provides the overall current state of the movement (in many cases a signal state), including its core phase state
and an indication of whether this state is permissive or protected.
It is expected that the allowed transitions from one state to another will be defined by regional deployments. Not all
regions will use all states; however, no new states are to be defined. In most regions a regulatory body provides precise
legal definitions of these state changes. For example, in the US the MUTCD is used, as is indicated in the US regional
variant of the above image. In various regions and modes of transportation, the visual expression of these states varies
(the precise meaning of various color combinations, shapes, and/or flashing etc.). The below definition is designed to to
be independent of these regional conventions.
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Values:
- `unavailable` - 0: This state is used for unknown or error
- `dark` - 1: The signal head is dark (unlit)
- `stop-Then-Proceed` - 2: Often called 'flashing red'
Driver Action:
- Stop vehicle at stop line.
- Do not proceed unless it is safe.
Note that the right to proceed either right or left when it is safe may be contained in the lane description to
handle what is called a 'right on red'
- `stop-And-Remain` - 3: e.g. called 'red light'
Driver Action:
- Stop vehicle at stop line.
- Do not proceed.
Note that the right to proceed either right or left when it is safe may be contained in the lane description to
handle what is called a 'right on red'
- `pre-Movement` - 4: Not used in the US, red+yellow partly in EU
Driver Action:
- Stop vehicle.
- Prepare to proceed (pending green)
- (Prepare for transition to green/go)
- `permissive-Movement-Allowed` - 5: Often called 'permissive green'
Driver Action:
- Proceed with caution,
- must yield to all conflicting traffic
Conflicting traffic may be present in the intersection conflict area
- `protected-Movement-Allowed` - 6: Often called 'protected green'
Driver Action:
- Proceed, tossing caution to the wind, in indicated (allowed) direction.
- `permissive-clearance` - 7: Often called 'permissive yellow'.
The vehicle is not allowed to cross the stop bar if it is possible
to stop without danger.
Driver Action:
- Prepare to stop.
- Proceed if unable to stop,
- Clear Intersection.
Conflicting traffic may be present in the intersection conflict area
- `protected-clearance` - 8: Often called 'protected yellow'
Driver Action:
- Prepare to stop.
- Proceed if unable to stop, in indicated direction (to connected lane)
- Clear Intersection.
- `caution-Conflicting-Traffic` - 9: Often called 'flashing yellow'
Often used for extended periods of time
Driver Action:
- Proceed with caution,
Conflicting traffic may be present in the intersection conflict area
Values:
* **unavailable** (0)<br>
* **dark** (1)<br>
* **stop-Then-Proceed** (2)<br>
* **stop-And-Remain** (3)<br>
* **pre-Movement** (4)<br>
* **permissive-Movement-Allowed** (5)<br>
* **protected-Movement-Allowed** (6)<br>
* **permissive-clearance** (7)<br>
* **protected-clearance** (8)<br>
* **caution-Conflicting-Traffic** (9)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
MovementPhaseState ::= ENUMERATED {
unavailable (0),
dark (1),
stop-Then-Proceed (2),
stop-And-Remain (3),
pre-Movement (4),
permissive-Movement-Allowed (5),
protected-Movement-Allowed (6),
permissive-clearance (7),
protected-clearance (8),
caution-Conflicting-Traffic (9)
}
```
### <a name="MsgCount"></a>MsgCount
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This DE is used to provide a sequence number within a stream of messages with the same DSRCmsgID and from the same sender.
A sender may initialize this element to any value in the range 0-127 when sending the first message with a given DSRCmsgID,
or if the sender has changed identity (e.g. by changing its TemporaryID) since sending the most recent message with that DSRCmsgID.
Depending on the application the sequence number may change with every message or may remain fixed during a stream of messages when the content within each
message has not changed from the prior message sent. For this element, the value after 127 is zero.
The receipt of a non-sequential MsgCount value (from the same sending device and message type) implies that one or
more messages from that sending device may have been lost, unless MsgCount has been re-initialized due to an identity
change.
In usage, some devices change their Temporary ID frequently, to prevent identity tracking, while others do not. A change
in Temporary ID data element value (which also changes the message contents in which it appears) implies that the
MsgCount may also change value.
If a sender is composing a message with new content with a given DSRCmsgID, and the TemporaryID has not changed
since it sent the previous message, the sender shall increment the previous value.
If a sender is composing a message with new content with a given DSRCmsgID, and the TemporaryID has changed since
it sent the previous message, the sender may set the MsgCount element to any valid value in the range (including
incrementing the previous value).
If a sender is composing a message with the same content as the most recent message with the same DSRCmsgID, and
less than 10 seconds have elapsed since it sent the previous message with that DSRCmsgID, the sender will use the
same MsgCount as sent in the previous message.
If a sender is composing a message with the same content as the most recent message with the same DSRCmsgID, and
at least 10 seconds have elapsed since it sent the previous message with that DSRCmsgID, the sender may set the
MsgCount element to any valid value in the range; this includes the re-use of the previous value.
If a sending device sends more than one stream of messages from message types that utilize the MsgCount element, it
shall maintain a separate MsgCount state for each message type so that the MsgCount value in a given message
identifies its place in the stream of that message type. The MsgCount element is a function only of the message type in a
given sending device, not of the one or more applications in that device which may be sending the same type of message.
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
>>>
NOTE: In the absence of additional requirements defined in a standard using this data element, the follow guidelines shall be used.
>>>
```asn1
MsgCount ::= INTEGER (0..127)
```
### <a name="Offset-B09"></a>Offset-B09
A 9-bit delta offset in X, Y or Z direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions. The most negative value shall be used to
indicate an unknown value.
a range of +- 2.55 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B09 ::= INTEGER (-256..255)
```
### <a name="Offset-B10"></a>Offset-B10
A 10-bit delta offset in X, Y or Z direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions. The most negative value shall be used to
indicate an unknown value.
a range of +- 5.11 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B10 ::= INTEGER (-512..511)
```
### <a name="Offset-B11"></a>Offset-B11
An 11-bit delta offset in X or Y direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions. The most negative value shall be used to
indicate an unknown value.
a range of +- 10.23 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B11 ::= INTEGER (-1024..1023)
```
### <a name="Offset-B12"></a>Offset-B12
A 12-bit delta offset in X, Y or Z direction from some known point. For non-vehicle centric coordinate frames of
reference, non-vehicle centric coordinate frames of reference, offset is positive to the East (X) and to the North (Y)
directions. The most negative value shall be used to indicate an unknown value.
a range of +- 20.47 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B12 ::= INTEGER (-2048..2047)
```
### <a name="Offset-B13"></a>Offset-B13
A 13-bit delta offset in X or Y direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions. The most negative value shall be used to
indicate an unknown value.
a range of +- 40.95 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B13 ::= INTEGER (-4096..4095)
```
### <a name="Offset-B14"></a>Offset-B14
A 14-bit delta offset in X or Y direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions.
a range of +- 81.91 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B14 ::= INTEGER (-8192..8191)
```
### <a name="Offset-B16"></a>Offset-B16
A 16-bit delta offset in X, Y or Z direction from some known point. For non-vehicle centric coordinate frames of
reference, offset is positive to the East (X) and to the North (Y) directions. The most negative value shall be used to
indicate an unknown value.
a range of +- 327.68 meters
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
Offset-B16 ::= INTEGER (-32768..32767)
```
### <a name="PedestrianBicycleDetect"></a>PedestrianBicycleDetect
This DE is used to provide an indication of whether Pedestrians and/or Bicyclists have been detected in the crossing lane.
true if ANY Pedestrians or Bicyclists are detected crossing the target lane or lanes
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
PedestrianBicycleDetect ::= BOOLEAN
```
### <a name="PositionConfidence"></a>PositionConfidence
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This DE entry is used to provide the 95% confidence level for the currently reported value of
entries such as the DE_Position entries, taking into account the current calibration and precision of the sensor(s) used to
measure and/or calculate the value. It is used in the horizontal plane. This data element is only to provide the listener with
information on the limitations of the sensing system; not to support any type of automatic error correction or to imply a
guaranteed maximum error. This data element should not be used for fault detection or diagnosis, but if a vehicle is able
to detect a fault, the confidence interval should be increased accordingly. The frame of reference and axis of rotation used
shall be accordance with that defined in Section 11 of this standard.
- `unavailable` - 0: B'0000 Not Equipped or unavailable
- `a500m` - 1: B'0001 500m or about 5 * 10 ^ -3 decimal degrees
- `a200m` - 2: B'0010 200m or about 2 * 10 ^ -3 decimal degrees
- `a100m` - 3: B'0011 100m or about 1 * 10 ^ -3 decimal degrees
- `a50m` - 4: B'0100 50m or about 5 * 10 ^ -4 decimal degrees
- `a20m` - 5: B'0101 20m or about 2 * 10 ^ -4 decimal degrees
- `a10m` - 6: B'0110 10m or about 1 * 10 ^ -4 decimal degrees
- `a5m` - 7: B'0111 5m or about 5 * 10 ^ -5 decimal degrees
- `a2m` - 8: B'1000 2m or about 2 * 10 ^ -5 decimal degrees
- `a1m` - 9: B'1001 1m or about 1 * 10 ^ -5 decimal degrees
- `a50cm` - 10: B'1010 0.50m or about 5 * 10 ^ -6 decimal degrees
- `a20cm` - 11: B'1011 0.20m or about 2 * 10 ^ -6 decimal degrees
- `a10cm` - 12: B'1100 0.10m or about 1 * 10 ^ -6 decimal degrees
- `a5cm` - 13: B'1101 0.05m or about 5 * 10 ^ -7 decimal degrees
- `a2cm` - 14: B'1110 0.02m or about 2 * 10 ^ -7 decimal degrees
- `a1cm` - 15) -- B'1111 0.01m or about 1 * 10 ^ -7 decimal degrees
- Encoded as a 4 bit value
Values:
* **unavailable** (0)<br>
* **a500m** (1)<br>
* **a200m** (2)<br>
* **a100m** (3)<br>
* **a50m** (4)<br>
* **a20m** (5)<br>
* **a10m** (6)<br>
* **a5m** (7)<br>
* **a2m** (8)<br>
* **a1m** (9)<br>
* **a50cm** (10)<br>
* **a20cm** (11)<br>
* **a10cm** (12)<br>
* **a5cm** (13)<br>
* **a2cm** (14)<br>
* **a1cm** (15)<br>
**Categories:** Infrastructure information
**Revision:** _V1.3.1_
```asn1
PositionConfidence ::= ENUMERATED {
unavailable (0),
a500m (1),
a200m (2),
a100m (3),
a50m (4),
a20m (5),
a10m (6),
a5m (7),
a2m (8),
a1m (9),
a50cm (10),
a20cm (11),
a10cm (12),
a5cm (13),
a2cm (14),
a1cm (15)
```
### <a name="PrioritizationResponseStatus"></a>PrioritizationResponseStatus
This DE is used in the [**PrioritizationResponse**](#PrioritizationResponse) data frame to indicate the
general status of a prior prioritization request.
- `unknown` - 0: Unknown state
- `requested` - 1: This prioritization request was detected by the traffic controller
- `processing` - 2: Checking request (request is in queue, other requests are prior)
- `watchOtherTraffic` - 3: Cannot give full permission, therefore watch for other traffic. Note that other requests may be present
- `granted` - 4: Intervention was successful and now prioritization is active
- `rejected` - 5: The prioritization or preemption request was rejected by the traffic controller
- `maxPresence` - 6: The Request has exceeded maxPresence time. Used when the controller has determined that the requester should then back off and request an alternative.
- `reserviceLocked` - 7: Prior conditions have resulted in a reservice
locked event: the controller requires the passage of time before another similar request will be accepted