# ASN.1 module ETSI-ITS-CDD
OID: _{itu-t (0) identified-organization (4) etsi (0) itsDomain (5) wg1 (1) 102894 cdd (2) major-version-3 (3) minor-version-1 (1)}_
## Data Elements:
### AccelerationChange
This DE indicates a change of acceleration.
The value shall be set to:
- 0 - `accelerate` - if the magnitude of the horizontal velocity vector increases.
- 1 - `decelerate` - if the magnitude of the horizontal velocity vector decreases.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationChange::= ENUMERATED {
accelerate (0),
decelerate (1)
}
```
### AccelerationConfidence
This DE indicates the acceleration confidence value which represents the estimated absolute accuracy of an acceleration value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > 0 and n < 101)` if the confidence value is equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `101` if the confidence value is out of range i.e. greater than 10 m/s2,
- `102` if the confidence value is unavailable.
The value 0 shall not be used.
**Unit:** _0,1 m/s2_
**Categories:** Kinematic information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: If an acceleration value is received and its confidence value is set to `outOfRange(101)`, it means that the value is not valid and therefore cannot be trusted. Such value is not useful for the application.
>>>
```asn1
AccelerationConfidence ::= INTEGER {
outOfRange (101),
unavailable (102)
} (0..102)
```
### AccelerationControl
This DE indicates the current controlling mechanism for longitudinal movement of the vehicle.
The data may be provided via the in-vehicle network. It indicates whether a specific in-vehicle
acceleration control system is engaged or not. Currently, this DE includes the information of the
vehicle brake pedal, gas pedal, emergency brake system, collision warning system, adaptive cruise
control system, cruise control system and speed limiter system.
The corresponding bit shall be set to 1 under the following conditions:
- 0 - `brakePedalEngaged` - Driver is stepping on the brake pedal,
- 1 - `gasPedalEngaged` - Driver is stepping on the gas pedal,
- 2 - `emergencyBrakeEngaged` - emergency brake system is engaged,
- 3 - `collisionWarningEngaged`- collision warning system is engaged,
- 4 - `accEngaged` - ACC is engaged,
- 5 - `cruiseControlEngaged` - cruise control is engaged,
- 6 - `speedLimiterEngaged` - speed limiter is engaged.
Otherwise (for example when the corresponding system is not available due to non equipped system
or information is unavailable), the corresponding bit shall be set to 0.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
>>>
NOTE: The system engagement condition is OEM specific and therefore out of scope of the present document.
>>>
```asn1
AccelerationControl ::= BIT STRING {
brakePedalEngaged (0),
gasPedalEngaged (1),
emergencyBrakeEngaged (2),
collisionWarningEngaged (3),
accEngaged (4),
cruiseControlEngaged (5),
speedLimiterEngaged (6)
} (SIZE(7))
```
### AccelerationMagnitudeValue
This DE represents the magnitude of the acceleration vector in a defined coordinate system.
The value shall be set to:
- `0` to indicate no acceleration,
- `n (n > 0 and n < 160)` to indicate acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `160` for acceleration values greater than 15,9 m/s2,
- `161` when the data is unavailable.
**Unit:** _0,1 m/s2_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationMagnitudeValue ::= INTEGER {
positiveOutOfRange (160),
unavailable (161)
} (0.. 161)
```
### AccelerationValue
This DE represents the value of an acceleration component in a defined coordinate system.
The value shall be set to:
- `-160` for acceleration values equal to or less than -16 m/s2,
- `n (n > -160 and n ⤠0)` to indicate negative acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `n (n > 0 and n < 160)` to indicate positive acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `160` for acceleration values greater than 15,9 m/s2,
- `161` when the data is unavailable.
**Unit:** _0,1 m/s2_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
>>>
NOTE: the formula for values > -160 and <160 results in rounding up to the next value. Zero acceleration is indicated using n=0.
>>>
```asn1
AccelerationValue ::= INTEGER {
negativeOutOfRange (-160),
positiveOutOfRange (160),
unavailable (161)
} (-160 .. 161)
```
### AccessTechnologyClass
This DE indicates an access technology.
The value shall be set to:
- `0`: in case of any access technology class,
- `1`: in case of ITS-G5 access technology class,
- `2`: in case of LTE-V2X access technology class,
- `3`: in case of NR-V2X access technology class.
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
```asn1
AccessTechnologyClass ::= ENUMERATED {
any (0),
itsg5Class (1),
ltev2xClass (2),
nrv2xClass (3),
...
}
```
### AccidentSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `accident`.
The value shall be set to:
- 0 - `unavailable` - in case the information on the sub cause of the accident is unavailable,
- 1 - `multiVehicleAccident` - in case more than two vehicles are involved in accident,
- 2 - `heavyAccident` - in case the airbag of the vehicle involved in the accident is triggered,
the accident requires important rescue and/or recovery work,
- 3 - `accidentInvolvingLorry` - in case the accident involves a lorry,
- 4 - `accidentInvolvingBus` - in case the accident involves a bus,
- 5 - `accidentInvolvingHazardousMaterials`- in case the accident involves hazardous material,
- 6 - `accidentOnOppositeLane` - in case the accident happens on opposite lanes,
- 7 - `unsecuredAccident` - in case the accident is not secured,
- 8 - `assistanceRequested` - in case rescue and assistance are requested,
- 9-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
AccidentSubCauseCode ::= INTEGER {
unavailable (0),
multiVehicleAccident (1),
heavyAccident (2),
accidentInvolvingLorry (3),
accidentInvolvingBus (4),
accidentInvolvingHazardousMaterials (5),
accidentOnOppositeLane (6),
unsecuredAccident (7),
assistanceRequested (8)
} (0..255)
```
### AdverseWeatherCondition-AdhesionSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `adverseWeatherCondition-Adhesion`.
The value shall be set to:
- 0 - `unavailable` - in case information on the cause of the low road adhesion is unavailable,
- 1 - `heavyFrostOnRoad`- in case the low road adhesion is due to heavy frost on the road,
- 2 - `fuelOnRoad` - in case the low road adhesion is due to fuel on the road,
- 3 - `mudOnRoad` - in case the low road adhesion is due to mud on the road,
- 4 - `snowOnRoad` - in case the low road adhesion is due to snow on the road,
- 5 - `iceOnRoad` - in case the low road adhesion is due to ice on the road,
- 6 - `blackIceOnRoad` - in case the low road adhesion is due to black ice on the road,
- 7 - `oilOnRoad` - in case the low road adhesion is due to oil on the road,
- 8 - `looseChippings` - in case the low road adhesion is due to loose gravel or stone fragments detached from a road surface or from a hazard,
- 9 - `instantBlackIce` - in case the low road adhesion is due to instant black ice on the road surface,
- 10 - `roadsSalted` - when the low road adhesion is due to salted road,
- 11-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
AdverseWeatherCondition-AdhesionSubCauseCode ::= INTEGER {
unavailable (0),
heavyFrostOnRoad (1),
fuelOnRoad (2),
mudOnRoad (3),
snowOnRoad (4),
iceOnRoad (5),
blackIceOnRoad (6),
oilOnRoad (7),
looseChippings (8),
instantBlackIce (9),
roadsSalted (10)
} (0..255)
```
### AdverseWeatherCondition-ExtremeWeatherConditionSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `adverseWeatherCondition-ExtremeWeatherCondition`.
The value shall be set to:
- 0 - `unavailable` - in case information on the type of extreme weather condition is unavailable,
- 1 - `strongWinds` - in case the type of extreme weather condition is strong wind,
- 2 - `damagingHail`- in case the type of extreme weather condition is damaging hail,
- 3 - `hurricane` - in case the type of extreme weather condition is hurricane,
- 4 - `thunderstorm`- in case the type of extreme weather condition is thunderstorm,
- 5 - `tornado` - in case the type of extreme weather condition is tornado,
- 6 - `blizzard` - in case the type of extreme weather condition is blizzard.
- 7-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
AdverseWeatherCondition-ExtremeWeatherConditionSubCauseCode ::= INTEGER {
unavailable (0),
strongWinds (1),
damagingHail (2),
hurricane (3),
thunderstorm (4),
tornado (5),
blizzard (6)
} (0..255)
```
### AdverseWeatherCondition-PrecipitationSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `adverseWeatherCondition-Precipitation`.
The value shall be set to:
- 0 - `unavailable` - in case information on the type of precipitation is unavailable,
- 1 - `heavyRain` - in case the type of precipitation is heavy rain,
- 2 - `heavySnowfall` - in case the type of precipitation is heavy snow fall,
- 3 - `softHail` - in case the type of precipitation is soft hail.
- 4-255 - are reserved for future usage
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
AdverseWeatherCondition-PrecipitationSubCauseCode ::= INTEGER {
unavailable (0),
heavyRain (1),
heavySnowfall (2),
softHail (3)
} (0..255)
```
### AdverseWeatherCondition-VisibilitySubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `adverseWeatherCondition-Visibility`.
The value shall be set to:
- 0 - `unavailable` - in case information on the cause of low visibility is unavailable,
- 1 - `fog` - in case the cause of low visibility is fog,
- 2 - `smoke` - in case the cause of low visibility is smoke,
- 3 - `heavySnowfall` - in case the cause of low visibility is heavy snow fall,
- 4 - `heavyRain` - in case the cause of low visibility is heavy rain,
- 5 - `heavyHail` - in case the cause of low visibility is heavy hail,
- 6 - `lowSunGlare` - in case the cause of low visibility is sun glare,
- 7 - `sandstorms` - in case the cause of low visibility is sand storm,
- 8 - `swarmsOfInsects`- in case the cause of low visibility is swarm of insects.
- 9-255 - are reserved for future usage
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
AdverseWeatherCondition-VisibilitySubCauseCode ::= INTEGER {
unavailable (0),
fog (1),
smoke (2),
heavySnowfall (3),
heavyRain (4),
heavyHail (5),
lowSunGlare (6),
sandstorms (7),
swarmsOfInsects (8)
} (0..255)
```
### AirHumidity
This DE represents the air humidity in tenths of percent.
The value shall be set to:
- `n (n > 0 and n < 1001)` indicates that the applicable value is equal to or less than n x 0,1 percent and greater than (n-1) x 0,1 percent.
- `1001` indicates that the air humidity is unavailable.
**Unit:** _0,1 %_
**Categories:** Basic information
**Revision:** _created in V2.1.1_
```asn1
AirHumidity ::= INTEGER {
oneHundredPercent (1000),
unavailable (1001)
} (1..1001)
```
### AltitudeConfidence
This DE indicates the altitude confidence value which represents the estimated absolute accuracy of an altitude value of a geographical point with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- 0 - `alt-000-01` - if the confidence value is equal to or less than 0,01 metre,
- 1 - `alt-000-02` - if the confidence value is equal to or less than 0,02 metre and greater than 0,01 metre,
- 2 - `alt-000-05` - if the confidence value is equal to or less than 0,05 metre and greater than 0,02 metre,
- 3 - `alt-000-10` - if the confidence value is equal to or less than 0,1 metre and greater than 0,05 metre,
- 4 - `alt-000-20` - if the confidence value is equal to or less than 0,2 metre and greater than 0,1 metre,
- 5 - `alt-000-50` - if the confidence value is equal to or less than 0,5 metre and greater than 0,2 metre,
- 6 - `alt-001-00` - if the confidence value is equal to or less than 1 metre and greater than 0,5 metre,
- 7 - `alt-002-00` - if the confidence value is equal to or less than 2 metres and greater than 1 metre,
- 8 - `alt-005-00` - if the confidence value is equal to or less than 5 metres and greater than 2 metres,
- 9 - `alt-010-00` - if the confidence value is equal to or less than 10 metres and greater than 5 metres,
- 10 - `alt-020-00` - if the confidence value is equal to or less than 20 metres and greater than 10 metres,
- 11 - `alt-050-00` - if the confidence value is equal to or less than 50 metres and greater than 20 metres,
- 12 - `alt-100-00` - if the confidence value is equal to or less than 100 metres and greater than 50 metres,
- 13 - `alt-200-00` - if the confidence value is equal to or less than 200 metres and greater than 100 metres,
- 14 - `outOfRange` - if the confidence value is out of range, i.e. greater than 200 metres,
- 15 - `unavailable` - if the confidence value is unavailable.
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: If an altitude value is received and its confidence value is set to `outOfRange(14)`, it means that the
altitude value is not valid and therefore cannot be trusted. Such value is not useful for the application.
>>>
```asn1
AltitudeConfidence ::= ENUMERATED {
alt-000-01 (0),
alt-000-02 (1),
alt-000-05 (2),
alt-000-10 (3),
alt-000-20 (4),
alt-000-50 (5),
alt-001-00 (6),
alt-002-00 (7),
alt-005-00 (8),
alt-010-00 (9),
alt-020-00 (10),
alt-050-00 (11),
alt-100-00 (12),
alt-200-00 (13),
outOfRange (14),
unavailable (15)
}
```
### AltitudeValue
This DE represents the altitude value in a WGS84 coordinate system.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
The value shall be set to:
- `-100 000` if the altitude is equal to or less than -1 000 m,
- `n (n > -100 000 and n < 800 000)` if the altitude is equal to or less than n x 0,01 metre and greater than (n-1) x 0,01 metre,
- `800 000` if the altitude greater than 7 999,99 m,
- `800 001` if the information is not available.
**Unit:** _0,01 metre_
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1 (definition of 800 000 has slightly changed)_
>>>
NOTE: the range of this DE does not use the full binary encoding range, but all reasonable values are covered. In order to cover all possible altitude ranges a larger encoding would be necessary.
>>>
```asn1
AltitudeValue ::= INTEGER {
negativeOutOfRange (-100000),
postiveOutOfRange (800000),
unavailable (800001)
} (-100000..800001)
```
### AngleConfidence
This DE indicates the angle confidence value which represents the estimated absolute accuracy of an angle value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > 0 and n < 126)` if the accuracy is equal to or less than n * 0,1 degrees and greater than (n-1) x * 0,1 degrees,
- `126` if the accuracy is out of range, i.e. greater than 12,5 degrees,
- `127` if the accuracy information is not available.
**Unit:** _0,1 degrees_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
AngleConfidence ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### AngularSpeedConfidence
This DE indicates the angular speed confidence value which represents the estimated absolute accuracy of an angular speed value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
For correlation computation, maximum interval levels can be assumed.
The value shall be set to:
- 0 - `degSec-01` - if the accuracy is equal to or less than 1 degree/second,
- 1 - `degSec-02` - if the accuracy is equal to or less than 2 degrees/second and greater than 1 degree/second,
- 2 - `degSec-05` - if the accuracy is equal to or less than 5 degrees/second and greater than 2 degrees/second,
- 3 - `degSec-10` - if the accuracy is equal to or less than 10 degrees/second and greater than 5 degrees/second,
- 4 - `degSec-20` - if the accuracy is equal to or less than 20 degrees/second and greater than 10 degrees/second,
- 5 - `degSec-50` - if the accuracy is equal to or less than 50 degrees/second and greater than 20 degrees/second,
- 6 - `outOfRange` - if the accuracy is out of range, i.e. greater than 50 degrees/second,
- 7 - `unavailable` - if the accuracy information is unavailable.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AngularSpeedConfidence ::= ENUMERATED {
degSec-01 (0),
degSec-02 (1),
degSec-05 (2),
degSec-10 (3),
degSec-20 (4),
degSec-50 (5),
outOfRange (6),
unavailable (7)
}
```
### AngularAccelerationConfidence
This DE indicates the angular acceleration confidence value which represents the estimated accuracy of an angular acceleration value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
For correlation computation, maximum interval levels shall be assumed.
The value shall be set to:
- 0 - `degSecSquared-01` - if the accuracy is equal to or less than 1 degree/second2,
- 1 - `degSecSquared-02` - if the accuracy is equal to or less than 2 degrees/second2 and greater than 1 degree/second2,
- 2 - `degSecSquared-05` - if the accuracy is equal to or less than 5 degrees/second2 and greater than 1 degree/second2,
- 3 - `degSecSquared-10` - if the accuracy is equal to or less than 10 degrees/second2 and greater than 5 degrees/second2,
- 4 - `degSecSquared-20` - if the accuracy is equal to or less than 20 degrees/second2 and greater than 10 degrees/second2,
- 5 - `degSecSquared-50` - if the accuracy is equal to or less than 50 degrees/second2 and greater than 20 degrees/second2,
- 6 - `outOfRange` - if the accuracy is out of range, i.e. greater than 50 degrees/second2,
- 7 - `unavailable` - if the accuracy information is unavailable.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AngularAccelerationConfidence ::= ENUMERATED {
degSecSquared-01 (0),
degSecSquared-02 (1),
degSecSquared-05 (2),
degSecSquared-10 (3),
degSecSquared-20 (4),
degSecSquared-50 (5),
outOfRange (6),
unavailable (7)
}
```
### AxlesCount
This DE indicates the number of axles of a passing train.
The value shall be set to:
- `n(n > 2 and n < 1001)` indicates that the train has n x axles,
- `1001`indicates that the number of axles is out of range,
- `1002` the information is unavailable.
**Unit:** _Number of axles_
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
AxlesCount ::= INTEGER{
outOfRange (1001),
unavailable (1002)
} (2..1002)
```
### BarometricPressure
This DE represents the measured uncompensated atmospheric pressure.
The value shall be set to:
- `2999` indicates that the applicable value is less than 29990 Pa,
- `n (n ? 3000 and n ⤠12000)` indicates that the applicable value is equal to or less than n x 10 Pa and greater than (n-1) x 10 Pa,
- `12001` indicates that the values is greater than 120000 Pa,
- `12002` indicates that the information is not available.
**Unit:** _10 Pascal_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
BarometricPressure ::= INTEGER{
outOfRangelower (2999),
outOfRangeUpper (12001),
unavailable (12002)
} (2999..12002)
```
### BogiesCount
This DE indicates the cardinal number of bogies of a train.
The value shall be set to:
- `n (n > 1 and n < 100)` indicates that the train has n x bogies,
- `100`indicates that the number of bogies is out of range,
- `101` the information is unavailable.
**Unit:** _Number of bogies_
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
BogiesCount ::= INTEGER{
outOfRange (100),
unavailable (101)
} (2..101)
```
### CardinalNumber1B
The DE represents a cardinal number that counts the size of a set.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CardinalNumber1B ::= INTEGER(0..255)
```
### CardinalNumber3b
The DE represents a cardinal number that counts the size of a set.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CardinalNumber3b ::= INTEGER(1..8)
```
### CartesianAngleValue
This DE represents an angle value described in a local Cartesian coordinate system, per default counted positive in
a right-hand local coordinate system from the abscissa.
The value shall be set to:
- `n (n ⥠0 and n < 3600)` if the angle is equal to or less than n x 0,1 degrees, and greater than (n-1) x 0,1 degrees,
- `36001` if the accuracy information is not available.
The value 3600 shall not be used.
**Unit:** _0,1 degrees_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngleValue ::= INTEGER {
valueNotUsed (3600),
unavailable (3601)
} (0..3601)
```
### CartesianAngularAccelerationComponentValue
This DE represents an angular acceleration value described in a local Cartesian coordinate system, per default counted positive in
a right-hand local coordinate system from the abscissa.
The value shall be set to:
- `-255` if the acceleration is equal to or less than -255 degrees/s2,
- `n` (`n > -255` and `n < 255`) if the acceleration is equal to or less than n x 1 degree/s2,
and greater than `(n-1)` x 0,01 degree/s2,
- `255` if the acceleration is greater than 254 degrees/s2,
- `256` if the information is unavailable.
**Unit:** _degree/s2 (degrees per second squared)_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngularAccelerationComponentValue ::= INTEGER {
negativeOutOfRange (-255),
positiveOutOfRange (255),
unavailable (256)
} (-255..256)
```
### CartesianAngularVelocityComponentValue
This DE represents an angular velocity component described in a local Cartesian coordinate system, per default counted positive in
a right-hand local coordinate system from the abscissa.
The value shall be set to:
- `-255` if the velocity is equal to or less than -255 degrees/s,
- `n` (`n > -255` and `n < 255`) if the velocity is equal to or less than n x 1 degree/s, and greater than (n-1) x 1 degree/s,
- `255` if the velocity is greater than 254 degrees/s,
- `256` if the information is unavailable.
**Unit:** _degree/s_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngularVelocityComponentValue ::= INTEGER {
negativeOutofRange (-255),
positiveOutOfRange (255),
unavailable (256)
} (-255..256)
```
### CauseCodeType
The DE represents the value of the cause code of an event.
The value shall be set to:
- 0 - reserved for future use,
- 1 - `trafficCondition` - in case the type of event is an abnormal traffic condition,
- 2 - `accident` - in case the type of event is a road accident,
- 3 - `roadworks` - in case the type of event is roadwork,
- 4 - reserved for future usage,
- 5 - `impassability` - in case the type of event is unmanaged road blocking, referring to any
blocking of a road, partial or total, which has not been adequately
secured and signposted,
- 6 - `adverseWeatherCondition-Adhesion` - in case the type of event is low adhesion,
- 7 - `aquaplaning` - danger of aquaplaning on the road,
- 8 - reserved for future usage,
- 9 - `hazardousLocation-SurfaceCondition` - in case the type of event is abnormal road surface condition,
- 10 - `hazardousLocation-ObstacleOnTheRoad` - in case the type of event is obstacle on the road,
- 11 - `hazardousLocation-AnimalOnTheRoad` - in case the type of event is animal on the road,
- 12 - `humanPresenceOnTheRoad` - in case the type of event is human presence on the road,
- 13 - reserved for future usage,
- 14 - `wrongWayDriving` - in case the type of the event is vehicle driving in wrong way,
- 15 - `rescueAndRecoveryWorkInProgress` - in case the type of event is rescue and recovery work for accident or for a road hazard in progress,
- 16 - reserved for future usage,
- 17 - `adverseWeatherCondition-ExtremeWeatherCondition`- in case the type of event is extreme weather condition,
- 18 - `adverseWeatherCondition-Visibility` - in case the type of event is low visibility,
- 19 - `adverseWeatherCondition-Precipitation` - in case the type of event is precipitation,
- 20 - `violence` - in case the the type of event is human violence on or near the road,
- 21-25 - reserved for future usage,
- 26 - `slowVehicle` - in case the type of event is slow vehicle driving on the road,
- 27 - `dangerousEndOfQueue` - in case the type of event is dangerous end of vehicle queue,
- 28-90 - are reserved for future usage,
- 91 - `vehicleBreakdown` - in case the type of event is break down vehicle on the road,
- 92 - `postCrash` - in case the type of event is a detected crash,
- 93 - `humanProblem` - in case the type of event is human health problem in vehicles involved in traffic,
- 94 - `stationaryVehicle` - in case the type of event is stationary vehicle,
- 95 - `emergencyVehicleApproaching` - in case the type of event is approaching vehicle operating emergency mission,
- 96 - `hazardousLocation-DangerousCurve` - in case the type of event is dangerous curve,
- 97 - `collisionRisk` - in case the type of event is a collision risk,
- 98 - `signalViolation` - in case the type of event is signal violation,
- 99 - `dangerousSituation` - in case the type of event is dangerous situation in which autonomous safety system in vehicle
is activated,
- 100 - `railwayLevelCrossing` - in case the type of event is a railway level crossing.
- 101-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
CauseCodeType ::= INTEGER {
trafficCondition (1),
accident (2),
roadworks (3),
impassability (5),
adverseWeatherCondition-Adhesion (6),
aquaplaning (7),
hazardousLocation-SurfaceCondition (9),
hazardousLocation-ObstacleOnTheRoad (10),
hazardousLocation-AnimalOnTheRoad (11),
humanPresenceOnTheRoad (12),
wrongWayDriving (14),
rescueAndRecoveryWorkInProgress (15),
adverseWeatherCondition-ExtremeWeatherCondition (17),
adverseWeatherCondition-Visibility (18),
adverseWeatherCondition-Precipitation (19),
violence (20),
slowVehicle (26),
dangerousEndOfQueue (27),
vehicleBreakdown (91),
postCrash (92),
humanProblem (93),
stationaryVehicle (94),
emergencyVehicleApproaching (95),
hazardousLocation-DangerousCurve (96),
collisionRisk (97),
signalViolation (98),
dangerousSituation (99),
railwayLevelCrossing (100)
} (0..255)
```
### CartesianCoordinateSmall
This DF represents the value of a cartesian coordinate with a range of -30,94 metres to +10,00 metres.
The value shall be set to:
- `3094` if the longitudinal offset is out of range, i.e. less than or equal to -30,94 metres,
- `n (n > -3 094 and n < 1 001)` if the longitudinal offset information is equal to or less than n x 0,01 metre and more than (n-1) x 0,01 metre,
- `1001` if the longitudinal offset is out of range, i.e. greater than 10 metres.
**Unit:** _0,01 m_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianCoordinateSmall::= INTEGER {
negativeOutOfRange (-3094),
positiveOutOfRange (1001)
} (-3094..1001)
```
### CartesianCoordinate
This DF represents the value of a cartesian coordinate with a range of -327,68 metres to +327,66 metres.
The value shall be set to:
- `-32 768` if the longitudinal offset is out of range, i.e. less than or equal to -327,68 metres,
- `n (n > -32 768 and n < 32 767)` if the longitudinal offset information is equal to or less than n x 0,01 metre and more than (n-1) x 0,01 metre,
- `32 767` if the longitudinal offset is out of range, i.e. greater than + 327,66 metres.
**Unit:** _0,01 m_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianCoordinate::= INTEGER{
negativeOutOfRange (-32768),
positiveOutOfRange (32767)
} (-32768..32767)
```
### CartesianCoordinateLarge
This DF represents the value of a cartesian coordinate with a range of -1 310,72 metres to +1 310,70 metres.
The value shall be set to:
- `-131072` if the longitudinal offset is out of range, i.e. less than or equal to -1 310,72 metres,
- `n (n > 131 072 and n < 131 071)` if the longitudinal offset information is equal to or less than n x 0,01 metre and more than (n-1) x 0,01 metre,
- `131 071` if the longitudinal offset is out of range, i.e. greater than + 1 310,70 metres.
**Unit:** _0,01 m_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianCoordinateLarge::= INTEGER{
negativeOutOfRange (-131072),
positiveOutOfRange (131071)
} (-131072..131071)
```
### CenDsrcTollingZoneID
This DE represents the ID of a CEN DSRC tolling zone.
**Categories:** Communication information
**Revision:** _V1.3.1_
>>>
NOTE: this DE is deprecated and shall not be used anymore.
>>>
```asn1
CenDsrcTollingZoneID::= ProtectedZoneId
```
### ClusterBreakupReason
This DE indicates the reason why a cluster leader intends to break up the cluster.
The value shall be set to:
- 0 - `notProvided` - if the information is not provided,
- 1 - `clusteringPurposeCompleted` - if the cluster purpose has been completed,
- 2 - `leaderMovedOutOfClusterBoundingBox` - if the leader moved out of the cluster's bounding box,
- 3 - `joiningAnotherCluster` - if the cluster leader is about to join another cluster,
- 4 - `enteringLowRiskAreaBasedOnMaps` - if the cluster is entering an area idenrified as low risk based on the use of maps,
- 5 - `receptionOfCpmContainingCluster` - if the leader received a Collective Perception Message containing information about the same cluster.
- 6 to 15 - are reserved for future use.
**Categories:** Cluster information
**Revision:** _Created in V2.1.1_
```asn1
ClusterBreakupReason ::= ENUMERATED {
notProvided (0),
clusteringPurposeCompleted (1),
leaderMovedOutOfClusterBoundingBox (2),
joiningAnotherCluster (3),
enteringLowRiskAreaBasedOnMaps (4),
receptionOfCpmContainingCluster (5),
max(15)
}
```
### ClusterLeaveReason
This DE indicates the reason why a cluster participant is leaving the cluster.
The value shall be set to:
- 0 - `notProvided ` - if the information is not provided,
- 1 - `clusterLeaderLost` - if the cluster leader cannot be found anymore,
- 2 - `clusterDisbandedByLeader` - if the cluster has been disbanded by the leader,
- 3 - `outOfClusterBoundingBox` - if the participants moved out of the cluster's bounding box,
- 4 - `outOfClusterSpeedRange` - if the cluster speed moved out of a defined range,
- 5 - `joiningAnotherCluster` - if the participant is joining another cluster,
- 6 - `cancelledJoin` - if the participant is cancelling a joining procedure,
- 7 - `failedJoin` - if the participant failed to join the cluster,
- 8 - `safetyCondition` - if a safety condition applies.
- 9 to 15 - are reserved for future use
**Categories:** Cluster information
**Revision:** _Created in V2.1.1_
```asn1
ClusterLeaveReason ::= ENUMERATED {
notProvided (0),
clusterLeaderLost (1),
clusterDisbandedByLeader (2),
outOfClusterBoundingBox (3),
outOfClusterSpeedRange (4),
joiningAnotherCluster (5),
cancelledJoin (6),
failedJoin (7),
safetyCondition (8),
max(15)
}
```
### CollisionRiskSubCauseCode
This DE represents the sub cause codes of the [**CauseCode**](#CauseCode) `collisionRisk`.
The value shall be set to:
- 0 - `unavailable` - in case information on the type of collision risk is unavailable,
- 1 - `longitudinalCollisionRisk`- in case the type of detected collision risk is longitudinal collision risk,
e.g. forward collision or face to face collision,
- 2 - `crossingCollisionRisk` - in case the type of detected collision risk is crossing collision risk,
- 3 - `lateralCollisionRisk` - in case the type of detected collision risk is lateral collision risk,
- 4 - `vulnerableRoadUser` - in case the type of detected collision risk involves vulnerable road users
e.g. pedestrians or bicycles.
- 5-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
CollisionRiskSubCauseCode ::= INTEGER {
unavailable (0),
longitudinalCollisionRisk (1),
crossingCollisionRisk (2),
lateralCollisionRisk (3),
vulnerableRoadUser (4)
}(0..255)
```
### ConfidenceLevel
This DE represents a confidence level in percentage.
The value shall be set to:
- `n (n > 0 and n < 101)` : for the confidence level in %,
- `101` : in case the confidence level is not available.
**Unit:** _Percent_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
ConfidenceLevel ::= INTEGER {
unavailable (101)
} (1..101)
```
### CoordinateConfidence
This DE indicates the coordinate confidence value which represents the estimated absolute accuracy of a position coordinate with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n` (`n > 0` and `n < 4095`) if the confidence value is is equal to or less than n x 0,01 metre, and greater than (n-1) x 0,01 metre,
- `4095` if the confidence value is greater than 40,94 metres,
- `4096` if the confidence value is not available.
**Unit:** _0,01 m_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CoordinateConfidence ::= INTEGER {
outOfRange (4095),
unavailable (4096)
} (1..4096)
```
### CorrelationCellValue
This DE represents the Bravais-Pearson correlation value for each cell of a lower triangular correlation matrix.
The value shall be set to:
- `-100` in case of full negative correlation,
- `n` (`n > -100` and `n < 0`) if the correlation is negative and equal to n x 100,
- `0` in case of no correlation,
- `n` (`n > 0` and `n < 100`) if the correlation is positive and equal to n x 100,
- `100` in case of full positive correlation,
- `101` in case the correlation information is unavailable.
**Unit:** _the value is scaled by 100_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CorrelationCellValue ::= INTEGER {
full-negative-correlation (-100),
no-correlation (0),
full-positive-correlation (100),
unavailable (101)
} (-100..101)
```
### CurvatureCalculationMode
The DE describes whether the yaw rate is used to calculate the curvature for a curvature value.
The value shall be set to:
- 0 - `yawRateUsed` - if the yaw rate is used,
- 1 - `yawRateNotUsed` - if the yaw rate is not used,
- 2 - `unavailable` - if the information of curvature calculation mode is unknown.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
CurvatureCalculationMode ::= ENUMERATED {
yawRateUsed (0),
yawRateNotUsed (1),
unavailable (2),
...
}
```
### CurvatureConfidence
This DE indicates the acceleration confidence value which represents the estimated absolute accuracy range of a curvature value with a confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- 0 - `onePerMeter-0-00002` - if the confidence value is less than or equal to 0,00002 m-1,
- 1 - `onePerMeter-0-0001` - if the confidence value is less than or equal to 0,0001 m-1 and greater than 0,00002 m-1,
- 2 - `onePerMeter-0-0005` - if the confidence value is less than or equal to 0,0005 m-1 and greater than 0,0001 m-1,
- 3 - `onePerMeter-0-002` - if the confidence value is less than or equal to 0,002 m-1 and greater than 0,0005 m-1,
- 4 - `nePerMeter-0-01` - if the confidence value is less than or equal to 0,01 m-1 and greater than 0,002 m-1,
- 5 - `nePerMeter-0-1` - if the confidence value is less than or equal to 0,1 m-1 and greater than 0,01 m-1,
- 6 - `outOfRange` - if the confidence value is out of range, i.e. greater than 0,1 m-1,
- 7 - `unavailable` - if the confidence value is not available.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: If a curvature value is received and its confidence value is set to 'outOfRange(6)', it means that the curvature value is not valid
and therefore cannot be trusted. Such value is not useful for the application.
>>>
```asn1
CurvatureConfidence ::= ENUMERATED {
onePerMeter-0-00002 (0),
onePerMeter-0-0001 (1),
onePerMeter-0-0005 (2),
onePerMeter-0-002 (3),
onePerMeter-0-01 (4),
onePerMeter-0-1 (5),
outOfRange (6),
unavailable (7)
}
```
### CurvatureValue
This DE describes vehicle turning curve with the following information:
```
Value = 1 / Radius * 10000
```
wherein radius is the vehicle turning curve radius in metres.
Positive values indicate a turning curve to the left hand side of the driver.
It corresponds to the vehicle coordinate system as defined in ISO 8855 [2].
The value shall be set to:
- `-1023` for values smaller than -1023,
- `n` (`n > -1023` and `n < 0) for negative values equal to or less than n, and greater than (n-1),
- `0` when the vehicle is moving straight,
- `n` (`n > 0` and `n < 1022) for positive values equal to or less than n, and greater than (n-1),
- `1022`, for values greater than 1021,
- `1023`, if the information is not available.
**Unit:** _1 over 10 000 metres_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the definition of value 1022 has changed slightly)_
>>>
NOTE: The present DE is limited to vehicle types as defined in ISO 8855 [2].
>>>
```asn1
CurvatureValue ::= INTEGER {
outOfRangeNegative (-1023),
straight (0),
outOfRangePositive (1022),
unavailable (1023)
} (-1023..1023)
```
### DangerousEndOfQueueSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `dangerousEndOfQueue`.
The value shall be set to:
- 0 - `unavailable` - in case information on the type of dangerous queue is unavailable,
- 1 - `suddenEndOfQueue`- in case a sudden end of queue is detected, e.g. due to accident or obstacle,
- 2 - `queueOverHill` - in case the dangerous end of queue is detected on the road hill,
- 3 - `queueAroundBend` - in case the dangerous end of queue is detected around the road bend,
- 4 - `queueInTunnel` - in case queue is detected in tunnel,
- 5-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
DangerousEndOfQueueSubCauseCode ::= INTEGER {
unavailable (0),
suddenEndOfQueue (1),
queueOverHill (2),
queueAroundBend (3),
queueInTunnel (4)
} (0..255)
```
### DangerousGoodsBasic
This DE indicates the type of the dangerous goods being carried by a heavy vehicle.
The value is assigned according to `class` and `division` definitions of dangerous goods as specified in part II,
chapter 2.1.1.1 of European Agreement concerning the International Carriage of Dangerous Goods by Road [i.3].
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
DangerousGoodsBasic::= ENUMERATED {
explosives1 (0),
explosives2 (1),
explosives3 (2),
explosives4 (3),
explosives5 (4),
explosives6 (5),
flammableGases (6),
nonFlammableGases (7),
toxicGases (8),
flammableLiquids (9),
flammableSolids (10),
substancesLiableToSpontaneousCombustion (11),
substancesEmittingFlammableGasesUponContactWithWater (12),
oxidizingSubstances (13),
organicPeroxides (14),
toxicSubstances (15),
infectiousSubstances (16),
radioactiveMaterial (17),
corrosiveSubstances (18),
miscellaneousDangerousSubstances (19)
}
```
### DangerousSituationSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `dangerousSituation`
The value shall be set to:
- 0 - `unavailable` - in case information on the type of dangerous situation is unavailable,
- 1 - `emergencyElectronicBrakeEngaged` - in case emergency electronic brake is engaged,
- 2 - `preCrashSystemEngaged` - in case pre-crash system is engaged,
- 3 - `espEngaged` - in case Electronic Stability Program (ESP) system is engaged,
- 4 - `absEngaged` - in case Anti-lock Braking System (ABS) is engaged,
- 5 - `aebEngaged` - in case Autonomous Emergency Braking (AEB) system is engaged,
- 6 - `brakeWarningEngaged` - in case brake warning is engaged,
- 7 - `collisionRiskWarningEngaged` - in case collision risk warning is engaged,
- 8-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
DangerousSituationSubCauseCode ::= INTEGER {
unavailable (0),
emergencyElectronicBrakeEngaged (1),
preCrashSystemEngaged (2),
espEngaged (3),
absEngaged (4),
ebEngaged (5),
brakeWarningEngaged (6),
collisionRiskWarningEngaged (7)
} (0..255)
```
### DeltaAltitude
This DE represents an offset altitude with regards to a defined altitude value.
It may be used to describe a geographical point with regards to a specific reference geographical position.
The value shall be set to:
- `-12 700` for values equal to or lower than -127 metres,
- `n` (`n > -12 700` and `n = 0) for altitude offset n x 0,01 metre below the reference position,
- `0` for no altitudinal offset,
- `n` (`n > 0` and `n < 12799`) for altitude offset n x 0,01 metre above the reference position,
- `12 799` for values equal to or greater than 127,99 metres,
- `12 800` when the information is unavailable.
**Unit:** _0,01 metre_
**Categories:** GeoReference information
**Revision:** _editorial update in V2.1.1_
```asn1
DeltaAltitude ::= INTEGER {
negativeOutOfRange (-12700),
positiveOutOfRange (12799),
unavailable (12800)
} (-12700..12800)
```
### DeltaLatitude
This DE represents an offset latitude with regards to a defined latitude value.
It may be used to describe a geographical point with regards to a specific reference geographical position.
The value shall be set to:
- `n` (`n ⥠-131 071` and `n < 0`) for offset n x 10-7 degree towards the south from the reference position,
- `0` for no latitudinal offset,
- `n` (`n > 0` and `n < 131 072`) for offset n x 10-7 degree towards the north from the reference position,
- `131 072` when the information is unavailable.
**Unit:** _10-7 degree_
**Categories:** GeoReference information
**Revision:** _editorial update in V2.1.1_
```asn1
DeltaLatitude ::= INTEGER {
unavailable (131072)
} (-131071..131072)
```
### DeltaLongitude
This DE represents an offset longitude with regards to a defined longitude value.
It may be used to describe a geographical point with regards to a specific reference geographical position.
The value shall be set to:
- `n` (`n ⥠-131 071` and `n < 0`) for offset n x 10-7 degree towards the west from the reference position,
- `0` for no longitudinal offset,
- `n` (`n > 0` and `n < 131 072`) for offset n x 10-7 degree towards the east from the reference position,
- `131 072` when the information is unavailable.
**Unit:** _10-7 degree_
**Categories:** GeoReference information
**Revision:** _editorial update in V2.1.1_
```asn1
DeltaLongitude ::= INTEGER {
unavailable (131072)
} (-131071..131072)
```
### DeltaTimeMilliSecondPositive
This DE represents a difference in time with respect to a reference time.
The value shall be set to:
- `n (n > 0 n < 10001)` to indicate a time value equal to or less than n x 0,001 s, and greater than (n-1) x 0,001 s,
Example: a time interval between two consecutive message transmissions.
**Unit:** _0,001 s_
**Categories:** Basic information
**Revision:** _Created in V2.1.1 from the DE TransmissionInterval in [i.2]_
```asn1
DeltaTimeMilliSecondPositive ::= INTEGER (1..10000)
```
### DeltaTimeMilliSecondSigned
This DE represents a signed difference in time with respect to a reference time.
The value shall be set to:
- `-2048` for time values equal to or less than -2,048 s,
- `n (n > -2048 and n < 2047)` to indicate a time value equal to or less than n x 0,001 s, and greater than (n-1) x 0,001 s,
- `2047` for time values greater than 2,046 s
**Unit:** _0,001 s_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
DeltaTimeMilliSecondSigned ::= INTEGER (-2048..2047)
```
### DeltaTimeQuarterSecond
This DE represents a difference in time with respect to a reference time.
It can be interpreted as the first 8 bits of a GenerationDeltaTime. To convert it to a [**GenerationDeltaTime**](#GenerationDeltaTime),
multiply by 256 (i.e. append a `00` byte)
**Unit:** _256 * 0,001 s_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
DeltaTimeQuarterSecond::= INTEGER {
unavailable (255)
} (1..255)
```
### DeltaTimeTenthOfSecond
This DE represents a difference in time with respect to a reference time.
The value shall be set to:
- `0` for a difference in time of 0 seconds.
- `n (n > 0 n < 128)` to indicate a time value equal to or less than n x 0,1 s, and greater than (n-1) x 0,1 s,
**Unit:** _0,1 s_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
DeltaTimeTenthOfSecond::= INTEGER {
unavailable (127)
} (0..127)
```
### DeltaTimeSecond
This DE represents a difference in time with respect to a reference time.
The value shall be set to:
- `-0` for a difference in time of 0 seconds.
- `n (n > 0 n ⤠86400)` to indicate a time value equal to or less than n x 1 s, and greater than (n-1) x 1 s,
**Unit:** _1 s_
**Categories:** Basic information
**Revision:** _Created in V2.1.1 from ValidityDuration_
```asn1
DeltaTimeSecond ::= INTEGER (0..86400)
```
### Direction
This DE indicates a direction with respect to a defined reference direction.
Example: a reference direction may be implicitly defined by the definition of a geographical zone.
The value shall be set to:
- 0 - `sameDirection` - to indicate the same direction as the reference direction,
- 1 - `oppositeDirection` - to indicate opposite direction as the reference direction,
- 2 - `bothDirections` - to indicate both directions, i.e. the same and the opposite direction,
- 3 - `unavailable` - to indicate that the information is unavailable.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
Direction::= INTEGER{
sameDirection (0),
oppositeDirection (1),
bothDirections (2),
unavailable (3)
} (0..3)
```
### DriveDirection
This DE indicates in which direction something is moving.
The value shall be set to:
- 0 - `forward` - to indicate it is moving forward,
- 1 - `backwards` - to indicate it is moving backwards,
- 2 - `unavailable` - to indicate that the information is unavailable.
**Categories:** Kinematic information
**Revision:** _editorial update in V2.1.1_
```asn1
DriveDirection ::= ENUMERATED {
forward (0),
backward (1),
unavailable (2)
}
```
### DrivingLaneStatus
This DE indicates whether a driving lane is open to traffic.
A lane is counted from inside border of the road excluding the hard shoulder. The size of the bit string shall
correspond to the total number of the driving lanes in the carriageway.
The numbering is matched to [**LanePosition**](#LanePosition).
The bit `0` is used to indicate the innermost lane, bit `1` is used to indicate the second lane from inside border.
If a lane is closed to traffic, the corresponding bit shall be set to `1`. Otherwise, it shall be set to `0`.
**Categories:** Traffic information
**Revision:** _V1.3.1_
>>>
NOTE: hard shoulder status is not provided by this DE but in [**HardShoulderStatus**](#HardShoulderStatus).
>>>
```asn1
DrivingLaneStatus ::= BIT STRING (SIZE (1..13))
```
### EmbarkationStatus
This DE indicates whether a vehicle (e.g. public transport vehicle, truck) is under the embarkation process.
If that is the case, the value is *TRUE*, otherwise *FALSE*.
**Categories:** Vehicle information
**Revision:** _editorial update in V2.1.1_
```asn1
EmbarkationStatus ::= BOOLEAN
```
### EmergencyPriority
This DE indicates the right of priority requested or assumed by an operating emergency vehicle.
The right-of-priority bit shall be set to `1` if the corresponding right is requested.
The corresponding bit shall be set to 1 under the following conditions:
- 0 - `requestForRightOfWay` - when the vehicle is requesting/assuming the right of way,
- 1 - `requestForFreeCrossingAtATrafficLight` - when the vehicle is requesting/assuming the right to pass at a (red) traffic light.
**Categories:** Traffic information
**Revision:** _description revised in V2.1.1_
```asn1
EmergencyPriority ::= BIT STRING {
requestForRightOfWay (0),
requestForFreeCrossingAtATrafficLight (1)
} (SIZE(2))
```
### EmergencyVehicleApproachingSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) "emergencyVehicleApproaching".
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on the emergency vehicle approaching event
is unavailable,
- 1 - `emergencyVehicleApproaching` - in case an operating emergency vehicle is approaching,
- 2 - `prioritizedVehicleApproaching` - in case a prioritized vehicle is approaching,
- 3-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
EmergencyVehicleApproachingSubCauseCode ::= INTEGER {
unavailable (0),
emergencyVehicleApproaching (1),
prioritizedVehicleApproaching (2)
} (0..255)
```
### EnergyStorageType
This DE indicated the type of energy being used and stored in vehicle.
The corresponding bit shall be set to 1 under the following conditions:
- 0 - `hydrogenStorage` - when hydrogen is being used and stored in vehicle,
- 1 - `electricEnergyStorage` - when electric energy is being used and stored in vehicle,
- 2 - `liquidPropaneGas` - when liquid Propane Gas (LPG) is being used and stored in vehicle,
- 3 - `compressedNaturalGas ` - when compressedNaturalGas (CNG) is being used and stored in vehicle,
- 4 - `diesel` - when diesel is being used and stored in vehicle,
- 5 - `gasoline` - when gasoline is being used and stored in vehicle,
- 6 - `ammonia` - when ammonia is being used and stored in vehicle.
- Otherwise, the corresponding bit shall be set to `0`.
**Categories:** Vehicle information
**Revision:** _editorial revision in V2.1.1_
```asn1
EnergyStorageType ::= BIT STRING {
hydrogenStorage (0),
electricEnergyStorage (1),
liquidPropaneGas (2),
compressedNaturalGas (3),
diesel (4),
gasoline (5),
ammonia (6)
}(SIZE(7))
```
### EuVehicleCategoryL
This DE represents one of the specific categories in the L category: L1, L2, L3, L4, L5, L6, or L7 according to UNECE/TRANS/WP.29/78/Rev.4 [i.16].
**Categories:** Vehicle information
**Revision:** _V2.1.1_
```asn1
EuVehicleCategoryL ::= ENUMERATED { l1, l2, l3, l4, l5, l6, l7 }
```
### EuVehicleCategoryM
This DE represents one of the specific categories in the M category: M1, M2, or M3 according to UNECE/TRANS/WP.29/78/Rev.4 [i.16].
**Categories:** Vehicle information
**Revision:** _V2.1.1_
```asn1
EuVehicleCategoryM ::= ENUMERATED {m1, m2, m3}
```
### EuVehicleCategoryN
This DE represents one of the specific categories in the N category: N1, N2, or N3 according to UNECE/TRANS/WP.29/78/Rev.4 [i.16].
**Categories:** Vehicle information
**Revision:** _V2.1.1_
```asn1
EuVehicleCategoryN ::= ENUMERATED {n1, n2, n3}
```
### EuVehicleCategoryO
This DE represents one of the specific categories in the O category: O1, O2, O3 or O4 according to UNECE/TRANS/WP.29/78/Rev.4 [i.16].
**Categories:** Vehicle information
**Revision:** _V2.1.1_
```asn1
EuVehicleCategoryO ::= ENUMERATED {o1, o2, o3, o4}
```
### ExteriorLights
This DE describes the status of the exterior light switches of a vehicle incl. VRU vehicles.
The corresponding bit shall be set to 1 under the following conditions:
- 0 - `lowBeamHeadlightsOn` - when the low beam head light switch is on,
- 1 - `highBeamHeadlightsOn` - when the high beam head light switch is on,
- 2 - `leftTurnSignalOn` - when the left turnSignal switch is on,
- 3 - `rightTurnSignalOn` - when the right turn signal switch is on,
- 4 - `daytimeRunningLightsOn` - when the daytime running light switch is on,
- 5 - `reverseLightOn` - when the reverse light switch is on,
- 6 - `fogLightOn` - when the tail fog light switch is on,
- 7 - `parkingLightsOn` - when the parking light switch is on.
If a vehicle is not equipped with a certain light or if the light switch status information is not available,
the corresponding bit shall be set to `0`.
As the bit value indicates only the state of the switch, the turn signal and hazard signal bit values shall not
alternate with the blinking interval.
For hazard indicator, the `leftTurnSignalOn` (2) and `rightTurnSignalOn` (3) shall be both set to 1.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: The value of each bit indicates the state of the switch, which commands the corresponding light.
The bit corresponding to a specific light is set to `1`, when the corresponding switch is turned on,
either manually by the driver or automatically by a vehicle system. The bit value does not indicate
if the corresponding lamps are alight or not.
>>>
```asn1
ExteriorLights ::= BIT STRING {
lowBeamHeadlightsOn (0),
highBeamHeadlightsOn (1),
leftTurnSignalOn (2),
rightTurnSignalOn (3),
daytimeRunningLightsOn (4),
reverseLightOn (5),
fogLightOn (6),
parkingLightsOn (7)
} (SIZE(8))
```
### GenerationDeltaTime
This DE represents a timestamp based on TimestampIts modulo 65 536.
This means that generationDeltaTime = TimestampIts mod 65 536.
**Categories:** Basic information
**Revision:** _Created in V2.1.1 based on ETSI TS 103 900 [i.1]_
```asn1
GenerationDeltaTime ::= INTEGER { oneMilliSec(1) } (0..65535)
```
### HardShoulderStatus
This DE indicates the current status of a hard shoulder: whether it is available for special usage
(e.g. for stopping or for driving) or closed for all vehicles.
The value shall be set to:
- 0 - `availableForStopping` - if the hard shoulder is available for stopping in e.g. emergency situations,
- 1 - `closed` - if the hard shoulder is closed and cannot be occupied in any case,
- 2 - `availableForDriving` - if the hard shoulder is available for regular driving.
**Categories:** Traffic information
**Revision:** _Description revised in V2.1.1_
```asn1
HardShoulderStatus ::= ENUMERATED {
availableForStopping (0),
closed (1),
availableForDriving (2)
}
```
### HazardousLocation-AnimalOnTheRoadSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `hazardousLocation-AnimalOnTheRoad`.
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on the animal on the road event is unavailable,
- 1 - `wildAnimals` - in case wild animals are detected on the road,
- 2 - `herdOfAnimals`- in case herd of animals are detected on the road,
- 3 - `smallAnimals` - in case small size animals are detected on the road,
- 4 - `largeAnimals` - in case large size animals are detected on the road.
- 5-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
HazardousLocation-AnimalOnTheRoadSubCauseCode ::= INTEGER {
unavailable (0),
wildAnimals (1),
herdOfAnimals (2),
smallAnimals (3),
largeAnimals (4)
} (0..255)
```
### HazardousLocation-DangerousCurveSubCauseCode
This DE represents the sub cause code of the [**CauseCode**](#CauseCode) `hazardousLocation-DangerousCurve`.
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on the dangerous curve is unavailable,
- 1 - `dangerousLeftTurnCurve` - in case the dangerous curve is a left turn curve,
- 2 - `dangerousRightTurnCurve` - in case the dangerous curve is a right turn curve,
- 3 - `multipleCurvesStartingWithUnknownTurningDirection` - in case of multiple curves for which the starting curve turning direction is not known,
- 4 - `multipleCurvesStartingWithLeftTurn` - in case of multiple curves starting with a left turn curve,
- 5 - `multipleCurvesStartingWithRightTurn` - in case of multiple curves starting with a right turn curve.
- 6-255 - are reserved for future usage.
The definition of whether a curve is dangerous may vary according to region and according to vehicle types/mass
and vehicle speed driving on the curve. This definition is out of scope of the present document.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
HazardousLocation-DangerousCurveSubCauseCode ::= INTEGER {
unavailable (0),
dangerousLeftTurnCurve (1),
dangerousRightTurnCurve (2),
multipleCurvesStartingWithUnknownTurningDirection (3),
multipleCurvesStartingWithLeftTurn (4),
multipleCurvesStartingWithRightTurn (5)
} (0..255)
```
### HazardousLocation-ObstacleOnTheRoadSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `hazardousLocation-ObstacleOnTheRoad`.
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on the detected obstacle is unavailable,
- 1 - `shedLoad` - in case detected obstacle is large amount of obstacles (shedload),
- 2 - `partsOfVehicles`- in case detected obstacles are parts of vehicles,
- 3 - `partsOfTyres` - in case the detected obstacles are parts of tyres,
- 4 - `bigObjects` - in case the detected obstacles are big objects,
- 5 - `fallenTrees` - in case the detected obstacles are fallen trees,
- 6 - `hubCaps` - in case the detected obstacles are hub caps,
- 7 - `waitingVehicles`- in case the detected obstacles are waiting vehicles.
- 8-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
HazardousLocation-ObstacleOnTheRoadSubCauseCode ::= INTEGER {
unavailable (0),
shedLoad (1),
partsOfVehicles (2),
partsOfTyres (3),
bigObjects (4),
fallenTrees (5),
hubCaps (6),
waitingVehicles (7)
} (0..255)
```
### HazardousLocation-SurfaceConditionSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `hazardousLocation-SurfaceCondition`.
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on the road surface condition is unavailable,
- 1 - `rockfalls` - in case rock falls are detected on the road surface,
- 2 - `earthquakeDamage`- in case the road surface is damaged by earthquake,
- 3 - `sewerCollapse` - in case of sewer collapse on the road surface,
- 4 - `subsidence` - in case road surface is damaged by subsidence,
- 5 - `snowDrifts` - in case road surface is damaged due to snow drift,
- 6 - `stormDamage` - in case road surface is damaged by strong storm,
- 7 - `burstPipe` - in case road surface is damaged due to pipe burst,
- 8 - `volcanoEruption` - in case road surface is damaged due to volcano eruption,
- 9 - `fallingIce` - in case road surface damage is due to falling ice,
- 10 - `fire` - in case there is fire on or near to the road surface.
- 11-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
HazardousLocation-SurfaceConditionSubCauseCode ::= INTEGER {
unavailable (0),
rockfalls (1),
earthquakeDamage (2),
sewerCollapse (3),
subsidence (4),
snowDrifts (5),
stormDamage (6),
burstPipe (7),
volcanoEruption (8),
fallingIce (9),
fire (10)
} (0..255)
```
### HeadingConfidence
This DE indicates the heading confidence value which represents the estimated absolute accuracy of a heading value with a confidence level of 95 %.
The value shall be set to:
- `n (n > 0 and n < 126)` if the confidence value is equal to or less than n x 0,1 degree and more than (n-1) x 0,1 degree,
- `126` if the confidence value is out of range, i.e. greater than 12,5 degrees,
- `127` if the confidence value information is not available.
**Unit:** _0,1 degree_
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**Wgs84AngleConfidence**](#Wgs84AngleConfidence) instead.
>>>
```asn1
HeadingConfidence ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### HeadingValue
This DE represents the orientation of the horizontal velocity vector with regards to the WGS84 north.
When the information is not available, the DE shall be set to 3 601. The value 3600 shall not be used.
Unit: 0,1 degree
Categories: GeoReference information
**Revision:** _Description revised in V2.1.1 (usage of value 3600 specified)_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**Wgs84AngleValue**](#Wgs84AngleValue) instead.
>>>
```asn1
HeadingValue ::= INTEGER {
wgs84North (0),
wgs84East (900),
wgs84South (1800),
wgs84West (2700),
doNotUse (3600),
unavailable (3601)
} (0..3601)
```
### HeightLonCarr
This DE represents the height of the left or right longitude carrier of vehicle from base to top (left or right carrier seen from vehicle
rear to front).
The value shall be set to:
- `n (n ⥠1 and n < 99)` if the height information is equal to or less than n x 0,01 metre and more than (n-1) x 0,01 metre,
- `99` if the height is out of range, i.e. equal to or greater than 0,98 m,
- `100` if the height information is not available.
**Unit:** _0,01 metre_
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1 (the definition of 99 has changed slightly)_
```asn1
HeightLonCarr ::= INTEGER {
outOfRange(99),
unavailable(100)
} (1..100)
```
### HumanPresenceOnTheRoadSubCauseCode
This DE represents the value of the sub cause code of the [**CauseCode**](#CauseCode) `humanPresenceOnTheRoad`.
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on human presence on the road is unavailable,
- 1 - `childrenOnRoadway` - in case children are detected on the road,
- 2 - `cyclistOnRoadway` - in case cyclist presence is detected on the road,
- 3 - `motorcyclistOnRoadway`- in case motorcyclist presence is detected on the road.
- 4-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _editorial revision in V2.1.1_
```asn1
HumanPresenceOnTheRoadSubCauseCode ::= INTEGER {
unavailable (0),
childrenOnRoadway (1),
cyclistOnRoadway (2),
motorcyclistOnRoadway (3)
} (0..255)
```
### HumanProblemSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) "humanProblem".
The value shall be set to:
- 0 - `unavailable` - in case further detailed information on human health problem is unavailable,
- 1 - `glycemiaProblem`- in case human problem is due to glycaemia problem,
- 2 - `heartProblem` - in case human problem is due to heart problem.
- 3-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
HumanProblemSubCauseCode ::= INTEGER {
unavailable (0),
glycemiaProblem (1),
heartProblem (2)
} (0..255)
```
### Identifier1B
This DE is a general identifier.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
Identifier1B ::= INTEGER (0..255)
```
### Identifier2B
This DE is a general identifier.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
Identifier2B ::= INTEGER (0..65535)
```
### InformationQuality
This DE represents the quality level of provided information.
The value shall be set to:
- `0` if the information is unavailable,
- `1` if the quality level is lowest,
- `n (n > 1 and n < 7)` if the quality level is n,
- `7` if the quality level is highest.
**Categories:** Basic information
**Revision:** _Editorial update in V2.1.1_
>>>
NOTE: Definition of quality level is out of scope of the present document.
>>>
```asn1
InformationQuality ::= INTEGER (0..7)
```
### InterferenceManagementZoneType
This DE defines the type of an interference management zone, so that an ITS-S can
assert the actions to do while passing by such zone (e.g. reduce the transmit power in case of a DSRC tolling station).
It is an extension of the type [**ProtectedZoneType**](#ProtectedZoneType).
The value shall be set to:
- 0 - `permanentCenDsrcTolling` - as specified in ETSI TS 102 792 [i.14],
- 1 - `temporaryCenDsrcTolling` - as specified in ETSI TS 102 792 [i.14],
- 2 - `unavailable` - default value. Set to 2 for backwards compatibility with DSRC tolling,
- 3 - `urbanRail` - as specified in ETSI TS 103 724 [i.13], clause 7,
- 4 - `satelliteStation` - as specified in ETSI TS 103 724 [i.13], clause 7,
- 5 - `fixedLinks` - as specified in ETSI TS 103 724 [i.13], clause 7.
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
```asn1
InterferenceManagementZoneType ::= ENUMERATED {
permanentCenDsrcTolling (0),
temporaryCenDsrcTolling (1),
unavailable (2),
urbanRail (3),
satelliteStation (4),
fixedLinks (5),
...
}
```
### Iso3833VehicleType
This DE represents the vehicle type according to ISO 3833 [3].
A "term No" refers to the number of the corresponding term and its definition in ISO 3833.
The value shall be set to:
- 0 - `passengerCar` - term No 3.1.1
- 1 - `saloon` - term No 3.1.1.1 (sedan)
- 2 - `convertibleSaloon` - term No 3.1.1.2
- 3 - `pullmanSaloon` - term No 3.1.1.3
- 4 - `stationWagon` - term No 3.1.1.4
- 5 - `truckStationWagon` - term No 3.1.1.4.1
- 6 - `coupe` - term No 3.1.1.5 (coupe)
- 7 - `convertible` - term No 3.1.1.6 (open tourer, roadstar, spider)
- 8 - `multipurposePassengerCar` - term No 3.1.1.7
- 9 - `forwardControlPassengerCar`- term No 3.1.1.8
- 10 - `specialPassengerCar` - term No 3.1.1.9
- 11 - `bus` - term No 3.1.2
- 12 - `minibus` - term No 3.1.2.1
- 13 - `urbanBus` - term No 3.1.2.2
- 14 - `interurbanCoach` - term No 3.1.2.3
- 15 - `longDistanceCoach` - term No 3.1.2.4
- 16 - `articulatedBus` - term No 3.1.2.5
- 17 - `trolleyBus ` - term No 3.1.2.6
- 18 - `specialBus` - term No 3.1.2.7
- 19 - `commercialVehicle ` - term No 3.1.3
- 20 - `specialCommercialVehicle` - term No 3.1.3.1
- 21 - `specialVehicle ` - term No 3.1.4
- 22 - `trailingTowingVehicle ` - term No 3.1.5 (draw-bar tractor)
- 23 - `semiTrailerTowingVehicle` - term No 3.1.6 (fifth wheel tractor)
- 24 - `trailer` - term No 3.2.1
- 25 - `busTrailer` - term No 3.2.1.1
- 26 - `generalPurposeTrailer` - term No 3.2.1.2
- 27 - `caravan` - term No 3.2.1.3
- 28 - `specialTrailer` - term No 3.2.1.4
- 29 - `semiTrailer` - term No 3.2.2
- 30 - `busSemiTrailer ` - term No 3.2.2.1
- 31 - `generalPurposeSemiTrailer` - term No 3.2.2.2
- 32 - `specialSemiTrailer` - term No 3.2.2.3
- 33 - `roadTrain` - term No 3.3.1
- 34 - `passengerRoadTrain ` - term No 3.3.2
- 35 - `articulatedRoadTrain` - term No 3.3.3
- 36 - `doubleRoadTrain` - term No 3.3.4
- 37 - `compositeRoadTrain` - term No 3.3.5
- 38 - `specialRoadTrain` - term No 3.3.6
- 39 - `moped` - term No 3.4
- 40 - `motorCycle` - term No 3.5
- 41-255 - reserved for future use
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
Iso3833VehicleType ::= INTEGER {
passengerCar (0),
saloon (1),
convertibleSaloon (2),
pullmanSaloon (3),
stationWagon (4),
truckStationWagon (5),
coupe (6),
convertible (7),
multipurposePassengerCar (8),
forwardControlPassengerCar (9),
specialPassengerCar (10),
bus (11),
minibus (12),
urbanBus (13),
interurbanCoach (14),
longDistanceCoach (15),
articulatedBus (16),
trolleyBus (17),
specialBus (18),
commercialVehicle (19),
specialCommercialVehicle (20),
specialVehicle (21),
trailingTowingVehicle (22),
semiTrailerTowingVehicle (23),
trailer (24),
busTrailer (25),
generalPurposeTrailer (26),
caravan (27),
specialTrailer (28),
semiTrailer (29),
busSemiTrailer (30),
generalPurposeSemiTrailer (31),
specialSemiTrailer (32),
roadTrain (33),
passengerRoadTrain (34),
articulatedRoadTrain (35),
doubleRoadTrain (36),
compositeRoadTrain (37),
specialRoadTrain (38),
moped (39),
motorCycle (40)
} (0..255)
```
### LanePosition
This DE indicates a transversal position on the carriageway at a specific longitudinal position, in resolution of lanes of the carriageway.
For right-hand traffic roads, the value shall be set to:
- `-1` if the position is off, i.e. besides the road,
- `0` if the position is on the inner hard shoulder, i.e. the hard should adjacent to the leftmost lane,
- `n (n >0 and n < 14)`, if the position is on the n-th driving lane counted from the leftmost lane to the rightmost lane of a specific traffic direction,
- `14` if the position is on the outer hard shoulder, i.e. the hard should adjacent to rightmost lane (if present).
For left-hand traffic roads, the value shall be set to:
- `-1` if the position is off, i.e. besides the road,
- `0` if the position is on the inner hard shoulder, i.e. the hard should adjacent to the rightmost lane,
- `n (n >0 and n < 14)`, if the position is on the n-th driving lane counted from the rightmost lane to the leftmost lane of a specific traffic direction,
- `14` if the position is on the outer hard shoulder, i.e. the hard should adjacent to leftmost lane (if present).
If the carriageway allows only traffic in one direction (e.g. in case of dual or multiple carriageway roads), the position is counted from the physical border of the carriageway.
If the carriageway allows traffic in both directions and there is no physical delimitation between traffic directions (e.g. on a single carrriageway road),
the position is counted from the legal (i.e. optical) separation between traffic directions (horizontal marking).
**Categories:** Road topology information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: in practice this means that the position is counted from "inside" to "outside" no matter which traffic practice is used.
>>>
```asn1
LanePosition ::= INTEGER {
offTheRoad (-1),
innerHardShoulder (0),
outerHardShoulder (14)
} (-1..14)
```
### LaneType
This DE represents the type of a lane.
The value shall be set to:
- 0 - `traffic` - Lane dedicated to the movement of vehicles,
- 1 - `through` - Lane dedicated to the movement of vehicles travelling ahead and not turning,
- 2 - `reversible` - Lane where the direction of traffic can be changed to match the peak flow,
- 3 - `acceleration` - Lane that allows vehicles entering a road to accelerate to the speed of through traffic before merging with it,
- 4 - `deceleration` - Lane that allows vehicles exiting a road to decelerate before leaving it,
- 5 - `leftHandTurning` - Lane reserved for slowing down and making a left turn, so as not to disrupt traffic,
- 6 - `rightHandTurning` - Lane reserved for slowing down and making a right turn so as not to disrupt traffic,
- 7 - `dedicatedVehicle` - Lane dedicated to movement of motor vehicles with specific characteristics, such as heavy goods vehicles, etc.,
- 8 - `bus` - Lane dedicated to movement of buses providing public transport,
- 9 - `taxi` - Lane dedicated to movement of taxis,
- 10 - `hov` - Carpooling lane or high occupancy vehicle lane,
- 11 - `hot` - High occupancy vehicle lanes that is allowed to be used without meeting the occupancy criteria by paying a toll,
- 12 - `pedestrian` - Lanes dedicated to pedestrians such as pedestrian sidewalk paths,
- 13 - `cycleLane` - Lane dedicated to exclusive or preferred use by bicycles,
- 14 - `median` - Lane not dedicated to movement of vehicles but representing a median / central reservation such as the central median,
separating the two directional carriageways of the highway,
- 15 - `striping` - Lane not dedicated to movement of vehicles but covered with roadway markings,
- 16 - `trackedVehicle` - Lane dedicated to movement of trains, trams and trolleys,
- 17 - `parking` - Lanes dedicated to vehicles parking, stopping and loading lanes,
- 18 - `emergency` - Lane dedicated to vehicles in breakdown or to emergency vehicles also called hard shoulder,
- 19 - `verge` - Lane representing the verge, i.e. a narrow strip of grass or plants and sometimes also trees located between
the road surface edge and the boundary of a road,
- 20 `minimumRiskManoeuvre` - Lane dedicated to automated vehicles making a minimum risk manoeuvre.
- values 21 to 30 reserved for future use.
**Categories:** Road topology information
**Revision:** _Created in V2.1.1_
```asn1
LaneType::= INTEGER{
traffic (0),
through (1),
reversible (2),
acceleration (3),
deceleration (4),
leftHandTurning (5),
rightHandTurning (6),
dedicatedVehicle (7),
bus (8),
taxi (9),
hov (10),
hot (11),
pedestrian (12),
cycleLane (13),
median (14),
striping (15),
trackedVehicle (16),
parking (17),
emergency (18),
verge (19),
minimumRiskManoeuvre (20),
unknown (31)
}(0..31)
```
### LaneWidth
This DE represents the width of a lane measured at a defined position.
The value shall be set to:
- `n (n ⥠1 and n < 1022)` if the lane width information is equal to or less than n x 0,01 metre and more than (n-1) x 0,01 metre,
- `1022` if the lane width is out of range, i.e. greater than 10,21 m,
- `1023` if the lane width information is not available.
The value 0 shall not be used.
**Unit:** _0,01 metre_
**Categories:** Road topology information
**Revision:** _Created in V2.1.1_
```asn1
LaneWidth::= INTEGER (0..1023)
```
### Latitude
This DE represents the absolute geographical latitude in a WGS84 coordinate system, providing a range of 90 degrees in north or
in south hemisphere.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
The value shall be set to:
- `n (n ⥠-900 000 000 and n < 0)` x 10-7 degree, i.e. negative values for latitudes south of the Equator,
- `0` is used for the latitude of the equator,
- `n (n > 0 and n < 900 000 001)` x 10-7 degree, i.e. positive values for latitudes north of the Equator,
- `900 000 001` when the information is unavailable.
**Unit:** _10-7 degree_
**Categories:** GeoReference information
**Revision:** _Editorial update in V2.1.1_
```asn1
Latitude ::= INTEGER {
unavailable(900000001)
} (-900000000..900000001)
```
### LateralAccelerationValue
This DE represents the vehicle acceleration at lateral direction in the centre of the mass of the empty vehicle.
It corresponds to the vehicle coordinate system as specified in ISO 8855 [2].
The value shall be set to:
- `-160` for acceleration values equal to or less than -16 m/s2,
- `n (n > -160 and n ⤠0)` to indicate that the vehicle is accelerating towards the right side with regards to the vehicle orientation
with acceleration equal to or less than n x 0,1 m/s2 and greater than (n-1) x 0,1 m/s2,
- `n (n > 0 and n < 160)` to indicate that the vehicle is accelerating towards the left hand side with regards to the vehicle orientation
with acceleration equal to or less than n x 0,1 m/s2 and greater than (n-1) x 0,1 m/s2,
- `160` for acceleration values greater than 15,9 m/s2,
- `161` when the data is unavailable.
**Unit:** _0,1 m/s2_
**Categories:** Vehicle information
**Revision:** _Description updated in V2.1.1 (the meaning of 160 has changed slightly)._
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**AccelerationValue**](#AccelerationValue) instead.
>>>
```asn1
LateralAccelerationValue ::= INTEGER {
negativeOutOfRange (-160),
positiveOutOfRange (160),
unavailable (161)
} (-160 .. 161)
```
### LightBarSirenInUse
This DE indicates the status of light bar and any sort of audible alarm system besides the horn.
This includes various common sirens as well as backup up beepers and other slow speed manoeuvring alerts.
The corresponding bit shall be set to 1 under the following conditions:
- 0 - `lightBarActivated` - when the light bar is activated,
- 1 - `sirenActivated` - when the siren is activated.
Otherwise, it shall be set to 0.
**Categories:** Vehicle information
**Revision:** _Editorial update in V2.1.1_
```asn1
LightBarSirenInUse ::= BIT STRING {
lightBarActivated (0),
sirenActivated (1)
} (SIZE(2))
```
### Longitude
This DE represents the absolute geographical longitude in a WGS84 coordinate system, providing a range of 180 degrees
to the east or to the west of the prime meridian.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > -1 800 000 000 and n < 0)` x 10-7 degree, i.e. negative values for longitudes to the west,
- `0` to indicate the prime meridian,
- `n (n > 0 and n < 1 800 000 001)` x 10-7 degree, i.e. positive values for longitudes to the east,
- `1 800 000 001` when the information is unavailable.
The value -1 800 000 000 shall not be used.
**Unit:** _10-7 degree_
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1_
```asn1
Longitude ::= INTEGER {
valueNotUsed (-1800000000),
unavailable (1800000001)
} (-1800000000..1800000001)
```
### LongitudinalAccelerationValue
This DE represents the vehicle acceleration at longitudinal direction in the centre of the mass of the empty vehicle.
The value shall be provided in the vehicle coordinate system as defined in ISO 8855 [2], clause 2.11.
The value shall be set to:
- `-160` for acceleration values equal to or less than -16 m/s2,
- `n (n > -160 and n ⤠0)` to indicate that the vehicle is braking with acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2
- `n (n > 0 and n < 160)` to indicate that the vehicle is accelerating with acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `160` for acceleration values greater than 15,9 m/s2,
- `161` when the data is unavailable.
This acceleration is along the tangent plane of the road surface and does not include gravity components.
**Unit:** _0,1 m/s2_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the meaning of 160 has changed slightly). T_
>>>
NOTE: The empty load vehicle is defined in ISO 1176 [i.8], clause 4.6.
>>>
```asn1
LongitudinalAccelerationValue::= INTEGER {
negativeOutOfRange (-160),
positiveOutOfRange (160),
unavailable (161)
} (-160 .. 161)
```
### LongitudinalLanePositionValue
This DE represents the longitudinal offset of a map-matched position along a matched lane, beginning from the lane's starting point.
The value shall be set to:
- `n (n ⥠1 and n < 32766)` if the longitudinal offset information is equal to or less than n x 0,1 metre and more than (n-1) x 0,1 metre,
- `32 766` if the longitudinal offset is out of range, i.e. greater than 3276,5 m,
- `32 767` if the longitudinal offset information is not available.
**Unit:** _0,1 metre_
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
LongitudinalLanePositionValue ::= INTEGER {
outOfRange(32766),
unavailable(32767)
}(0..32767)
```
### LongitudinalLanePositionConfidence
This DE indicates the longitudinal lane position confidence value which represents the estimated accuracy of longitudinal lane position measurement with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > 0 and n < 1 022)` if the confidence value is equal to or less than n x 0,1 m, and more than (n-1) x 0,1 m,
- `1 022` if the confidence value is out of range i.e. greater than 102,1 m,
- `1 023` if the confidence value is unavailable.
**Unit:** _0,1 metre_
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
LongitudinalLanePositionConfidence ::= INTEGER {
outOfRange (1022),
unavailable (1023)
} (0..1023)
```
### MatrixIncludedComponents
This DE indicates the components of an [**PerceivedObject**](#PerceivedObject) that are included in the [**LowerTriangularPositiveSemidefiniteMatrix**](#LowerTriangularPositiveSemidefiniteMatrix).
The corresponding bit shall be set to 1 if the component is included:
- 0 - `xCoordinate` - when the component xCoordinate of the component [**CartesianPosition3dWithConfidence**](#CartesianPosition3dWithConfidence) is included,
- 1 - `yCoordinate` - when the component yCoordinate of the component [**CartesianPosition3dWithConfidence**](#CartesianPosition3dWithConfidence) is included,
- 2 - `zCoordinate` - when the component zCoordinate of the component [**CartesianPosition3dWithConfidence**](#CartesianPosition3dWithConfidence) is included,
- 3 - `xVelocityOrVelocityMagnitude` - when the component xVelocity of the component [**VelocityCartesian**](#VelocityCartesian) or the component VelocityMagnitude of the component [**VelocityPolarWithZ**](#VelocityPolarWithZ) is included,
- 4 - `yVelocityOrVelocityDirection` - when the component yVelocity of the component [**VelocityCartesian**](#VelocityCartesian) or the component VelocityDirection of the component [**VelocityPolarWithZ**](#VelocityPolarWithZ) is included,
- 5 - `zVelocity` - when the component zVelocity of the component [**VelocityCartesian**](#VelocityCartesian) or of the component [**VelocityPolarWithZ**](#VelocityPolarWithZ) is included,
- 6 - `xAccelOrAccelMagnitude` - when the component xAcceleration of the component [**AccelerationCartesian**](#AccelerationCartesian) or the component AccelerationMagnitude of the component [**AccelerationPolarWithZ**](#AccelerationPolarWithZ) is included,
- 7 - `yAccelOrAccelDirection` - when the component yAcceleration of the component [**AccelerationCartesian**](#AccelerationCartesian) or the component AccelerationDirection of the component [**AccelerationPolarWithZ**](#AccelerationPolarWithZ) is included,
- 8 - `zAcceleration` - when the component zAcceleration of the component [**AccelerationCartesian**](#AccelerationCartesian) or of the component [**AccelerationPolarWithZ**](#AccelerationPolarWithZ) is included,
- 9 - `zAngle` - when the component zAngle is included,
- 10 - `yAngle` - when the component yAngle is included,
- 11 - `xAngle` - when the component xAngle is included,
- 12 - `zAngularVelocity` - when the component zAngularVelocity is included.
Otherwise, it shall be set to 0.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
MatrixIncludedComponents::= BIT STRING{
xPosition (0),
yPosition (1),
zPosition (2),
xVelocityOrVelocityMagnitude (3),
yVelocityOrVelocityDirection (4),
zSpeed (5),
xAccelOrAccelMagnitude (6),
yAccelOrAccelDirection (7),
zAcceleration (8),
zAngle (9),
yAngle (10),
xAngle (11),
zAngularVelocity (12)
} (SIZE(13,...))
```
### MessageId
This DE represents the type of facility layer message.
The value shall be set to:
- 1 - `denm` - for Decentralized Environmental Notification Message (DENM) as specified in ETSI EN 302 637-3 [i.2],
- 2 - `cam` - for Cooperative Awareness Message (CAM) as specified in ETSI EN 302 637-2 [i.1],
- 3 - `poi` - for Point of Interest message as specified in ETSI TS 101 556-1 [i.9],
- 4 - `spatem` - for Signal Phase And Timing Extended Message (SPATEM) as specified in ETSI TS 103 301 [i.15],
- 5 - `mapem` - for MAP Extended Message (MAPEM) as specified in ETSI TS 103 301 [i.15],
- 6 - `ivim` - for in Vehicle Information Message (IVIM) as specified in ETSI TS 103 301 [i.15],
- 7 - `ev-rsr` - for Electric vehicle recharging spot reservation message, as defined in ETSI TS 101 556-3 [i.11],
- 8 - `tistpgtransaction` - for messages for Tyre Information System (TIS) and Tyre Pressure Gauge (TPG) interoperability, as specified in ETSI TS 101 556-2 [i.10],
- 9 - `srem` - for Signal Request Extended Message as specified in ETSI TS 103 301 [i.15],
- 10 - `ssem` - for Signal request Status Extended Message as specified in ETSI TS 103 301 [i.15],
- 11 - `evcsn` - for Electrical Vehicle Charging Spot Notification message as specified in ETSI TS 101 556-1 [i.9],
- 12 - `saem` - for Services Announcement Extended Message as specified in ETSI EN 302 890-1 [i.17],
- 13 - `rtcmem` - for Radio Technical Commission for Maritime Services Extended Message (RTCMEM) as specified in ETSI TS 103 301 [i.15],
- 14 - `cpm` - reserved for Collective Perception Message (CPM),
- 15 - `imzm` - for Interference Management Zone Message (IMZM) as specified in ETSI TS 103 724 [i.13],
- 16 - `vam` - for Vulnerable Road User Awareness Message as specified in ETSI TS 130 300-3 [i.12],
- 17 - `dsm` - reserved for Diagnosis, logging and Status Message,
- 18 - `pcim` - reserved for Parking Control Infrastructure Message,
- 19 - `pcvm` - reserved for Parking Control Vehicle Message,
- 20 - `mcm` - reserved for Manoeuvre Coordination Message,
- 21 - `pam` - reserved for Parking Availability Message,
- 22-255 - reserved for future usage.
**Categories:** Communication information
**Revision:** _Created in V2.1.1 from [**ItsPduHeader**](#ItsPduHeader)._
```asn1
MessageId::= INTEGER {
denm (1),
cam (2),
poi (3),
spatem (4),
mapem (5),
ivim (6),
ev-rsr (7),
tistpgtransaction (8),
srem (9),
ssem (10),
evcsn (11),
saem (12),
rtcmem (13),
cpm (14),
imzm (15),
vam (16),
dsm (17),
pcim (18),
pcvm (19),
mcm (20),
pam (21)
} (0..255)
```
### NumberOfOccupants
This DE represents the number of occupants in a vehicle.
The value shall be set to:
- `n (n ⥠0 and n < 126)` for the number n of occupants,
- `126` for values equal to or higher than 125,
- `127` if information is not available.
**Unit:** _1 person_
**Categories:** Vehicle information
**Revision:** _Editorial update in V2.1.1_
```asn1
NumberOfOccupants ::= INTEGER {
outOfRange (126),
unavailable (127)
} (0 .. 127)
```
### ObjectPerceptionQuality
This DE represents a single-value indication about the overall information quality of a perceived object.
The value shall be set to:
-`0` : if there is no confidence in detected object, e.g. for "ghost"-objects or if confidence could not be computed,
- `n (n > 0 and n < 15)` : for the applicable confidence value,
-`15` : if there is full confidence in the detected Object.
**Unit:** _n/a_
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectPerceptionQuality ::= INTEGER {
noConfidence (0),
fullConfidence (15)
} (0..15)
```
### ObjectDimensionValue
This DE represents a single dimension of an object.
The value shall be set to:
- `n (n > 0 and n < 255)` if the accuracy is equal to or less than n x 0,1 m, and more than (n-1) x 0,1 m,
- `255` if the accuracy is out of range i.e. greater than 25,4 m,
- `256` if the data is unavailable.
**Unit:** _0,1 m_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
ObjectDimensionValue ::= INTEGER {
outOfRange (255),
unavailable (256)
}(1..256)
```
### ObjectDimensionConfidence
This DE indicates the object dimension confidence value which represents the estimated absolute accuracy of an object dimension value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > 0 and n < 31)` if the confidence value is equal to or less than n x 0,1 metre, and more than (n-1) x 0,1 metre,
- `31` if the confidence value is out of range i.e. greater than 3,0 m,
- `32` if the confidence value is unavailable.
**Unit:** _0,1 m_
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectDimensionConfidence ::= INTEGER {
outOfRange (31),
unavailable (32)
} (1..32)
```
### ObjectFace
This DE indicates the face or part of a face of a solid object.
The object is modelled as a rectangular prism that has a length that is greater than its width, with the faces of the object being defined as:
- front: the face defined by the prism?s width and height, and which is the first face in direction of longitudinal movement of the object,
- back: the face defined by the prism?s width and height, and which is the last face in direction of longitudinal movement of the object,
- side: the faces defined by the prism?s length and height with "left" and "right" defined by looking at the front face and "front" and "back" defined w.r.t to the front and back faces.
Note: It is permissible to derive the required object dimensions and orientation from models to provide a best guess.
**Categories:** Basic information
**Revision:** _V2.1.1_
```asn1
ObjectFace ::= ENUMERATED {
front (0),
sideLeftFront (1),
sideLeftBack (2),
sideRightFront (3),
sideRightBack (4),
back (5)
}
```
### OpeningDaysHours
This DE represents a time period to describe the opening days and hours of a Point of Interest.
(for example local commerce).
**Categories:** Basic information
**Revision:** _V1.3.1_
```asn1
OpeningDaysHours ::= UTF8String
```
### OrdinalNumber1B
The DE represents an ordinal number that indicates the position of an element in a set.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
OrdinalNumber1B ::= INTEGER(0..255)
```
### OrdinalNumber3b
The DE represents an ordinal number that indicates the position of an element in a set.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
OrdinalNumber3b ::= INTEGER(1..8)
```
### OtherSubClass
This DE indicates the subclass of a detected object for [**ObjectClass**](#ObjectClass) "otherSubclass".
The value shall be set to:
- `0` - unknown - if the subclass is unknown.
- `1` - singleObject - if the object is a single object.
- `2` - multipleObjects - if the object is a group of multiple objects.
- `3` - bulkMaterial - if the object is a bulk material.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
OtherSubClass ::= INTEGER {
unknown (0),
singleObject (1),
multipleObjects (2),
bulkMaterial (3)
} (0..255)
```
### PathDeltaTime
This DE represents the recorded or estimated travel time between a position and a predefined reference position.
**Unit:** _0,01 second_
**Categories:** GeoReference information
**Revision:** _V1.3.1_
```asn1
PathDeltaTime ::= INTEGER (1..65535, ...)
```
### PerformanceClass
This DE denotes the ability of an ITS-S to provide up-to-date information.
A performance class value is used to describe age of data. The exact values are out of scope of the present document.
The value shall be set to:
- `0` if the performance class is unknown,
- `1` for performance class A as defined in ETSI TS 101 539-1 [i.5],
- `2` for performance class B as defined in ETSI TS 101 539-1 [i.5],
- Values in the range `3 to 7` are reserved for future use.
**Categories:** Vehicle information
**Revision:** _Editorial update in V2.1.1_
```asn1
PerformanceClass ::= INTEGER {
unavailable (0),
performanceClassA (1),
performanceClassB (2)
} (0..7)
```
### PhoneNumber
This DE represents a telephone number
**Categories:** Basic information
**Revision:** _V1.3.1_
```asn1
PhoneNumber ::= NumericString (SIZE(1..16))
```
### PosCentMass
This DE indicates the perpendicular distance from the centre of mass of an empty load vehicle to the front line of
the vehicle bounding box of the empty load vehicle.
The value shall be set to:
- `n (n > 0 and n < 62)` for any aplicable value n between 0,1 metre and 6,2 metres,
- `62` for values equal to or higher than `6.1 metres`,
- `63` if the information is unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the meaning of 62 has changed slightly)_
>>>
NOTE: The empty load vehicle is defined in ISO 1176 [i.8], clause 4.6.
>>>
```asn1
PosCentMass ::= INTEGER {
tenCentimetres (1),
outOfRange (62),
unavailable (63)
} (1..63)
```
### PositioningSolutionType
This DE indicates the positioning technology being used to estimate a geographical position.
The value shall be set to:
- 0 `noPositioningSolution` - no positioning solution used,
- 1 `sGNSS` - Global Navigation Satellite System used,
- 2 `dGNSS` - Differential GNSS used,
- 3 `sGNSSplusDR` - GNSS and dead reckoning used,
- 4 `dGNSSplusDR` - Differential GNSS and dead reckoning used,
- 5 `dR` - dead reckoning used.
**Categories:** GeoReference information
**Revision:** _V1.3.1_
```asn1
PositioningSolutionType ::= ENUMERATED {
noPositioningSolution (0),
sGNSS (1),
dGNSS (2),
sGNSSplusDR (3),
dGNSSplusDR (4),
dR (5),
...
}
```
### PositionOfOccupants
This DE indicates whether a passenger seat is occupied or whether the occupation status is detectable or not.
The number of row in vehicle seats layout is counted in rows from the driver row backwards from front to the rear
of the vehicle.
The left side seat of a row refers to the left hand side seen from vehicle rear to front.
Additionally, a bit is reserved for each seat row, to indicate if the seat occupation of a row is detectable or not,
i.e. `row1NotDetectable (3)`, `row2NotDetectable(8)`, `row3NotDetectable(13)` and `row4NotDetectable(18)`.
Finally, a bit is reserved for each row seat to indicate if the seat row is present or not in the vehicle,
i.e. row1NotPresent `(4)`, row2NotPresent `(9)`, `row3NotPresent(14)`, `row4NotPresent(19)`.
When a seat is detected to be occupied, the corresponding seat occupation bit shall be set to `1`.
For example, when the row 1 left seat is occupied, `row1LeftOccupied(0)` bit shall be set to 1.
When a seat is detected to be not occupied, the corresponding seat occupation bit shall be set to `0`.
Otherwise, the value of seat occupation bit shall be set according to the following conditions:
- If the seat occupation of a seat row is not detectable, the corresponding bit shall be set to `1`.
When any seat row not detectable bit is set to `1`, all corresponding seat occupation bits of the same row
shall be set to `1`.
- If the seat row is not present, the corresponding not present bit of the same row shall be set to `1`.
When any of the seat row not present bit is set to `1`, the corresponding not detectable bit for that row
shall be set to `1`, and all the corresponding seat occupation bits in that row shall be set to `0`.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
PositionOfOccupants ::= BIT STRING {
row1LeftOccupied (0),
row1RightOccupied (1),
row1MidOccupied (2),
row1NotDetectable (3),
row1NotPresent (4),
row2LeftOccupied (5),
row2RightOccupied (6),
row2MidOccupied (7),
row2NotDetectable (8),
row2NotPresent (9),
row3LeftOccupied (10),
row3RightOccupied (11),
row3MidOccupied (12),
row3NotDetectable (13),
row3NotPresent (14),
row4LeftOccupied (15),
row4RightOccupied (16),
row4MidOccupied (17),
row4NotDetectable (18),
row4NotPresent (19)
} (SIZE(20))
```
### PosFrontAx
This DE indicates the perpendicular distance between the vehicle front line of the bounding box and the front wheel axle in 0,1 metre.
The value shall be set to:
- `n (n > 0 and n < 19)` for any aplicable value between 0,1 metre and 1,9 metres,
- `19` for values equal to or higher than 1.8 metres,
- `20` if the information is unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the meaning of 19 has changed slightly)_
```asn1
PosFrontAx ::= INTEGER {
outOfRange (19),
unavailable(20)
} (1..20)
```
### PosLonCarr
This DE represents the distance from the centre of vehicle front bumper to the right or left longitudinal carrier of vehicle.
The left/right carrier refers to the left/right as seen from a passenger sitting in the vehicle.
The value shall be set to:
- `n (n > 0 and n < 126)` for any aplicable value between 0,01 metre and 1,26 metres,
- `126` for values equal to or higher than 1.25 metres,
- `127` if the information is unavailable.
**Unit:** _0,01 metre_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the meaning of 126 has changed slightly)_
```asn1
PosLonCarr ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### PosPillar
This DE represents the perpendicular inter-distance of neighbouring pillar axis of vehicle starting from the
middle point of the front line of the vehicle bounding box.
The value shall be set to:
- `n (n > 0 and n < 29)` for any aplicable value between 0,1 metre and 2,9 metres,
- `29` for values equal to or greater than 2.8 metres,
- `30` if the information is unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _description revised in V2.1.1 (the meaning of 29 has changed slightly)_
```asn1
PosPillar ::= INTEGER {
outOfRange (29),
unavailable (30)
} (1..30)
```
### PostCrashSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `postCrash` .
The value shall be set to:
- 0 `unavailable` - in case further detailed information on post crash event is unavailable,
- 1 `accidentWithoutECallTriggered` - in case no eCall has been triggered for an accident,
- 2 `accidentWithECallManuallyTriggered` - in case eCall has been manually triggered and transmitted to eCall back end,
- 3 `accidentWithECallAutomaticallyTriggered` - in case eCall has been automatically triggered and transmitted to eCall back end,
- 4 `accidentWithECallTriggeredWithoutAccessToCellularNetwork` - in case eCall has been triggered but cellular network is not accessible from triggering vehicle.
- 5-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
PostCrashSubCauseCode ::= INTEGER {
unavailable (0),
accidentWithoutECallTriggered (1),
accidentWithECallManuallyTriggered (2),
accidentWithECallAutomaticallyTriggered (3),
accidentWithECallTriggeredWithoutAccessToCellularNetwork (4)
} (0..255)
```
### PrecipitationIntensity
This DE represent the total amount of rain falling during one hour. It is measured in mm per hour at an area of 1 square metre.
The following values are specified:
- `n (n > 0 and n < 2000)` if the amount of rain falling is equal to or less than n x 0,1 mm/h and greater than (n-1) x 0,1 mm/h,
- `2000` if the amount of rain falling is greater than 199.9 mm/h,
- `2001` if the information is not available.
**Unit:** _0,1 mm/h_
**Categories:** Basic Information
**Revision:** _created in V2.1.1_
```asn1
PrecipitationIntensity ::= INTEGER {
outOfRange (2000),
unavailable (2001)
} (1..2001)
```
### ProtectedZoneId
This DE represents the indentifier of a protected communication zone.
**Categories:** Infrastructure information Communication information
**Revision:** _Revision in V2.1.1 (changed name from ProtectedZoneID to ProtectedZoneId)_
```asn1
ProtectedZoneId ::= INTEGER (0.. 134217727)
```
### ProtectedZoneRadius
This DE represents the radius of a protected communication zone.
**Unit:** _metre_
**Categories:** Infrastructure information Communication information
**Revision:** _V1.3.1_
```asn1
ProtectedZoneRadius ::= INTEGER (1..255,...)
```
### ProtectedZoneType
This DE indicates the type of a protected communication zone, so that an ITS-S is aware of the actions to do
while passing by such zone (e.g. reduce the transmit power in case of a DSRC tolling station).
The protected zone type is defined in ETSI TS 102 792 [i.14].
**Categories:** Communication information
**Revision:** _V1.3.1_
```asn1
ProtectedZoneType::= ENUMERATED {
permanentCenDsrcTolling (0),
...,
temporaryCenDsrcTolling (1)
}
```
### PtActivationData
This DE is used for various tasks in the public transportation environment, especially for controlling traffic
signal systems to prioritize and speed up public transportation in urban area (e.g. intersection "_bottlenecks_").
The traffic lights may be controlled by an approaching bus or tram automatically. This permits "_In Time_" activation
of the green phase, will enable the individual traffic to clear a potential traffic jam in advance. Thereby the
approaching bus or tram may pass an intersection with activated green light without slowing down the speed due to
traffic congestion. Other usage of the DE is the provision of information like the public transport line number
or the schedule delay of a public transport vehicle.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
PtActivationData ::= OCTET STRING (SIZE(1..20))
```
### PtActivationType
This DE indicates a certain coding type of the PtActivationData data.
The folowing value are specified:
- `0` undefinedCodingType : undefined coding type,
- `1` r09-16CodingType : coding of PtActivationData conform to VDV recommendation 420 [i.7],
- `2` vdv-50149CodingType : coding of PtActivationData based on VDV recommendation 420 [i.7].
- values 3 to 255 : reserved for alternative and future use.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
PtActivationType ::= INTEGER {
undefinedCodingType (0),
r09-16CodingType (1),
vdv-50149CodingType (2)
} (0..255)
```
### RailwayLevelCrossingSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `railwayLevelCrossing` .
The value shall be set to:
- 0 `unavailable` - in case no further detailed information on the railway level crossing status is available,
- 1 `doNotCrossAbnormalSituation` - in case when something wrong is detected by equation or sensors of the railway level crossing,
including level crossing is closed for too long (e.g. more than 10 minutes long ; default value),
- 2 `closed` - in case the crossing is closed (barriers down),
- 3 `unguarded` - in case the level crossing is unguarded (i.e a Saint Andrew cross level crossing without detection of train),
- 4 `nominal` - in case the barriers are up and lights are off.
- 5-255: reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
RailwayLevelCrossingSubCauseCode ::= INTEGER {
unavailable (0),
doNotCrossAbnormalSituation (1),
closed (2),
unguarded (3),
nominal (4)
} (0..255)
```
### RelevanceDistance
This DE describes a distance of relevance for information indicated in a message.
The value shall be set to:
- 0 `lessThan50m` - for distances below 50 m,
- 1 `lessThan100m` - for distances below 100 m,
- 2 `lessThan200m` - for distances below 200 m,
- 3 `lessThan500m` - for distances below 300 m,
- 4 `lessThan1000m` - for distances below 1 000 m,
- 5 `lessThan5km` - for distances below 5 000 m,
- 6 `lessThan10km` - for distances below 10 000 m,
- 7 `over10km` - for distances over 10 000 m.
**Categories:** GeoReference information
**Revision:** _Editorial update in V2.1.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**StandardLength3b**](#StandardLength3b) instead.
>>>
```asn1
RelevanceDistance ::= ENUMERATED {
lessThan50m(0),
lessThan100m(1),
lessThan200m(2),
lessThan500m(3),
lessThan1000m(4),
lessThan5km(5),
lessThan10km(6),
over10km(7)
}
```
### RelevanceTrafficDirection
This DE indicates a traffic direction that is relevant to information indicated in a message.
The value shall be set to:
- 0 `allTrafficDirections` - for all traffic directions,
- 1 `upstreamTraffic` - for upstream traffic,
- 2 `downstreamTraffic` - for downstream traffic,
- 3 `oppositeTraffic` - for traffic in the opposite direction.
The terms `upstream`, `downstream` and `oppositeTraffic` are relative to the event position.
**Categories:** GeoReference information
**Revision:** _Editorial update in V2.1.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**TrafficDirection**](#TrafficDirection) instead.
>>>
```asn1
RelevanceTrafficDirection ::= ENUMERATED {
allTrafficDirections(0),
upstreamTraffic(1),
downstreamTraffic(2),
oppositeTraffic(3)
}
```
### RequestResponseIndication
This DE indicates whether an ITS message is transmitted as request from ITS-S or a response transmitted from
ITS-S after receiving request from other ITS-Ss.
The value shall be set to:
- 0 `request` - for a request message,
- 1 `response` - for a response message.
**Categories:** Communication information
**Revision:** _Editorial update in V2.1.1_
```asn1
RequestResponseIndication ::= ENUMERATED {
request (0),
response (1)
}
```
### RescueAndRecoveryWorkInProgressSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `rescueAndRecoveryWorkInProgress`
The value shall be set to:
- 0 `unavailable` - in case further detailed information on rescue and recovery work is unavailable,
- 1 `emergencyVehicles` - in case rescue work is ongoing by emergency vehicles,
- 2 `rescueHelicopterLanding` - in case rescue helicopter is landing,
- 3 `policeActivityOngoing` - in case police activity is ongoing,
- 4 `medicalEmergencyOngoing` - in case medical emergency recovery is ongoing,
- 5 `childAbductionInProgress`- in case a child kidnapping alarm is activated and rescue work is ongoing,
- 6-255: reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
RescueAndRecoveryWorkInProgressSubCauseCode ::= INTEGER {
unavailable (0),
emergencyVehicles (1),
rescueHelicopterLanding (2),
policeActivityOngoing (3),
medicalEmergencyOngoing (4),
childAbductionInProgress (5)
} (0..255)
```
### RoadType
This DE indicates the type of a road segment.
The value shall be set to:
- 0 `urban-NoStructuralSeparationToOppositeLanes` - for an urban road with no structural separation between lanes carrying traffic in opposite directions,
- 1 `urban-WithStructuralSeparationToOppositeLanes` - for an urban road with structural separation between lanes carrying traffic in opposite directions,
- 2 `nonUrban-NoStructuralSeparationToOppositeLanes` - for an non urban road with no structural separation between lanes carrying traffic in opposite directions,
- 3 `nonUrban-WithStructuralSeparationToOppositeLanes` - for an non urban road with structural separation between lanes carrying traffic in opposite directions.
**Categories:** Road Topology Information
**Revision:** _Editorial update in V2.1.1_
```asn1
RoadType ::= ENUMERATED {
urban-NoStructuralSeparationToOppositeLanes (0),
urban-WithStructuralSeparationToOppositeLanes (1),
nonUrban-NoStructuralSeparationToOppositeLanes (2),
nonUrban-WithStructuralSeparationToOppositeLanes (3)
}
```
### RoadworksSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `roadworks`.
The value shall be set to:
- 0 `unavailable` - in case further detailed information on roadworks is unavailable,
- 1 `majorRoadworks` - in case a major roadworks is ongoing,
- 2 `roadMarkingWork` - in case a road marking work is ongoing,
- 3 `slowMovingRoadMaintenance` - in case slow moving road maintenance work is ongoing,
- 4 `shortTermStationaryRoadworks`- in case a short term stationary roadwork is ongoing,
- 5 `streetCleaning` - in case a vehicle street cleaning work is ongoing,
- 6 `winterService` - in case winter service work is ongoing.
- 7-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
RoadworksSubCauseCode ::= INTEGER {
unavailable (0),
majorRoadworks (1),
roadMarkingWork (2),
slowMovingRoadMaintenance (3),
shortTermStationaryRoadworks (4),
streetCleaning (5),
winterService (6)
} (0..255)
```
### SafeDistanceIndicator
This DE indicates if a distance is safe.
The value shall be set to:
- `FALSE` if the triple {LaD, LoD, VD} < {MSLaD, MSLoD, MSVD} is simultaneously satisfied with confidence level of 90 % or more,
- `TRUE` otherwise.
**Categories:** Traffic information Kinematic information
**Revision:** _created in V2.1.1_
>>>
NOTE: the abbreviations used are Lateral Distance (LaD), Longitudinal Distance (LoD) and Vertical Distance (VD)
and their respective thresholds, Minimum Safe Lateral Distance (MSLaD), Minimum Safe Longitudinal Distance (MSLoD), and Minimum Safe Vertical Distance (MSVD).
>>>
```asn1
SafeDistanceIndicator::= BOOLEAN
```
### SemiAxisLength
This DE indicates the horizontal position confidence value which represents the estimated absolute position accuracy, in one of the axis direction as defined in a shape of ellipse with a
confidence level of 95 %.
The value shall be set to:
- `n (n > 0 and n < 4 094)` if the accuracy is equal to or less than n * 0,01 metre,
- `4 094` if the accuracy is out of range, i.e. greater than 4,093 m,
- `4 095` if the accuracy information is unavailable.
The value 0 shall not be used.
**Unit:** _0,01 metre_
**Categories:** GeoReference Information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: The fact that a position coordinate value is received with confidence value set to 'unavailable(4095)'.
can be caused by several reasons, such as:
- the sensor cannot deliver the accuracy at the defined confidence level because it is a low-end sensor,
- the sensor cannot calculate the accuracy due to lack of variables, or
- there has been a vehicle bus (e.g. CAN bus) error.
In all 3 cases above, the position coordinate value may be valid and used by the application.
If a position coordinate value is received and its confidence value is set to 'outOfRange(4094)', it means that
the position coordinate value is not valid and therefore cannot be trusted. Such value is not useful
for the application.
>>>
```asn1
SemiAxisLength ::= INTEGER{
doNotUse (0),
outOfRange (4094),
unavailable (4095)
} (0..4095)
```
### SensorType
This DE indicates the type of sensor.
The value shall be set to:
- `0` undefined - in case the sensor type is undefined.
- `1` radar - in case the sensor is a radar,
- `2` lidar - in case the sensor is a lidar,
- `3` monovideo - in case the sensor is mono video,
- `4` stereovision - in case the sensor is stereo vision,
- `5` nightvision - in case the sensor is night vision,
- `6` ultrasonic - in case the sensor is ultrasonic,
- `7` pmd - in case the sensor is photonic mixing device,
- `8` inductionLoop - in case the sensor is an induction loop,
- `9` sphericalCamera - in case the sensor is a spherical camera,
- `10` uwb - in case the sensor is ultra wide band,
- `11` acoustic - in case the sensor is acoustic,
- `12` localAggregation - in case the information is provided by a system that aggregates information from different local sensors. Aggregation may include fusion,
- `13` itsAggregation - in case the information is provided by a system that aggregates information from other received ITS messages.
- 14-31 - are reserved for future usage.
**Categories:** Sensing Information
**Revision:** _created in V2.1.1_
```asn1
SensorType ::= INTEGER {
undefined (0),
radar (1),
lidar (2),
monovideo (3),
stereovision (4),
nightvision (5),
ultrasonic (6),
pmd (7),
inductionLoop (8),
sphericalCamera (9),
uwb (10),
acoustic (11),
localAggregation (12),
itsAggregation (13)
} (0..31)
```
### SequenceNumber
This DE represents a sequence number.
**Categories:** Basic information
**Revision:** _V1.3.1_
```asn1
SequenceNumber ::= INTEGER (0..65535)
```
### SignalViolationSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `signalViolation`.
The value shall be set to:
- 0 `unavailable` - in case further detailed information on signal violation event is unavailable,
- 1 `stopSignViolation` - in case a stop sign violation is detected,
- 2 `trafficLightViolation` - in case a traffic light violation is detected,
- 3 `turningRegulationViolation`- in case a turning regulation violation is detected.
- 4-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
SignalViolationSubCauseCode ::= INTEGER {
unavailable (0),
stopSignViolation (1),
trafficLightViolation (2),
turningRegulationViolation (3)
} (0..255)
```
### SlowVehicleSubCauseCode
This DE represents the sub cause codes of the [**CauseCode**](#CauseCode) "slowVehicle".
The value shall be set to:
- 0 `unavailable` - in case further detailed information on slow vehicle driving event is
unavailable,
- 1 `maintenanceVehicle` - in case of a slow driving maintenance vehicle on the road,
- 2 `vehiclesSlowingToLookAtAccident`- in case vehicle is temporally slowing down to look at accident, spot, etc.,
- 3 `abnormalLoad` - in case an abnormal loaded vehicle is driving slowly on the road,
- 4 `abnormalWideLoad` - in case an abnormal wide load vehicle is driving slowly on the road,
- 5 `convoy` - in case of slow driving convoy on the road,
- 6 `snowplough` - in case of slow driving snow plough on the road,
- 7 `deicing` - in case of slow driving de-icing vehicle on the road,
- 8 `saltingVehicles` - in case of slow driving salting vehicle on the road.
- 9-255 - are reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
SlowVehicleSubCauseCode ::= INTEGER {
unavailable (0),
maintenanceVehicle (1),
vehiclesSlowingToLookAtAccident (2),
abnormalLoad (3),
abnormalWideLoad (4),
convoy (5),
snowplough (6),
deicing (7),
saltingVehicles (8)
} (0..255)
```
### SpecialTransportType
The DE indicates if a vehicle is carrying goods in the special transport conditions.
The corresponding bit shall be set to 1 under the following conditions:
- 0 `heavyLoad` - the vehicle is carrying goods with heavy load,
- 1 `excessWidth` - the vehicle is carrying goods in excess of width,
- 2 `excessLength` - the vehicle is carrying goods in excess of length,
- 3 `excessHeight` - the vehicle is carrying goods in excess of height.
Otherwise, the corresponding bit shall be set to 0.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
```asn1
SpecialTransportType ::= BIT STRING {
heavyLoad (0),
excessWidth (1),
excessLength (2),
excessHeight (3)
} (SIZE(4))
```
### SpeedConfidence
This DE indicates the speed confidence value which represents the estimated absolute accuracy of a speed value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n > 0 and n < 126)` if the confidence value is equal to or less than n * 0,01 m/s.
- `126` if the confidence value is out of range, i.e. greater than 1,25 m/s,
- `127` if the confidence value information is not available.
**Unit:** _0,01 m/s_
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: If a speed value is received and its confidence value is set to `outOfRange(126)`, it means that the speed value is not valid
and therefore cannot be trusted. Such is not useful for the application.
>>>
```asn1
SpeedConfidence ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### SpeedLimit
This DE represents a speed limitation applied to a geographical position, a road section or a geographical region.
**Unit:** _km/h_
**Categories:** Infrastructure information Traffic information
**Revision:** _V1.3.1_
```asn1
SpeedLimit ::= INTEGER (1..255)
```
### SpeedValue
This DE represents a speed value, i.e. the magnitude of the velocity-vector.
The value shall be set to:
- `0` in a standstill situation.
- `n (n > 0 and n < 16 382)` if the applicable value is equal to or less than n x 0,01 m/s, and greater than (n-1) x 0,01 m/s,
- `16 382` for speed values greater than 163,81 m/s,
- `16 383` if the speed accuracy information is not available.
**Unit:** _0,01 m/s_
**Categories:** Kinematic information
**Revision:** _Description revised in V2.1.1 (the meaning of 16382 has changed slightly)_
>>>
NOTE: the definition of standstill is out of scope of the present document.
>>>
```asn1
SpeedValue ::= INTEGER {
standstill (0),
outOfRange (16382),
unavailable (16383)
} (0..16383)
```
### VelocityComponentValue
This DE represents the value of a velocity component in a defined coordinate system.
The value shall be set to:
- `-16 383` if the velocity is equal to or smaller than -163,83 m/s,
- `n (n > -16 383 and n < 16 382)` if the applicable value is equal to or less than n x 0,01 m/s, and greater than `(n-1) x 0,01 m/s,
- `16 382` for velocity values equal to or greater than 163,81 m/s,
- `16 383` if the velocity information is not available.
**Unit:** _0,01 m/s_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
VelocityComponentValue ::= INTEGER {
negativeOutOfRange (-16383),
positiveOutOfRange (16382),
unavailable (16383)
} (-16383..16383)
```
### StabilityLossProbability
This DE indicates the estimated probability of a stability level and conversely also the probability of a stability loss.
The value shall be set to:
- `0` to indicate an estimated probability of a loss of stability of 0 %, i.e. "stable",
- `n (n > 0 and n < 50)` to indicate the actual stability level,
- `50` to indicate a estimated probability of a loss of stability of 100 %, i.e. "total loss of stability",
- the values between 51 and 62 are reserved for future use,
- `63`: this value indicates that the information is unavailable.
**Unit:** _2 %_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
StabilityLossProbability ::= INTEGER {
stable (0),
totalLossOfStability (50),
unavailable (63)
} (0..63)
```
### StandardLength12b
The DE represents length as a measure of distance between points or as a dimension of an object or shape.
**Unit:** _0,1 metre_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
StandardLength12b::= INTEGER (0..4095)
```
### StandardLength3b
The DE represents length as a measure of distance between points.
The value shall be set to:
- 0 `lessThan50m` - for distances below 50 m,
- 1 `lessThan100m` - for distances below 100 m,
- 2 `lessThan200m` - for distances below 200 m,
- 3 `lessThan500m` - for distances below 300 m,
- 4 `lessThan1000m` - for distances below 1 000 m,
- 5 `lessThan5km` - for distances below 5 000 m,
- 6 `lessThan10km` - for distances below 10 000 m,
- 7 `over10km` - for distances over 10 000 m.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1 from RelevanceDistance_
```asn1
StandardLength3b ::= ENUMERATED {
lessThan50m (0),
lessThan100m (1),
lessThan200m (2),
lessThan500m (3),
lessThan1000m (4),
lessThan5km (5),
lessThan10km (6),
over10km (7)
}
```
### StandardLength9b
The DE represents length as a measure of distance between points or as a dimension of an object.
**Unit:** _0,1 metre_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
StandardLength9b::= INTEGER (0..511)
```
### StandardLength1B
The DE represents length as a measure of distance between points or as a dimension of an object.
**Unit:** _0,1 metre_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
StandardLength1B::= INTEGER (0..255)
```
### StandardLength2B
The DE represents length as a measure of distance between points or as a dimension of an object.
**Unit:** _0,1 metre_
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
StandardLength2B::= INTEGER (0..65535)
```
### StationarySince
This DE indicates the duration in minutes since which something is stationary.
The value shall be set to:
- 0 `lessThan1Minute` - for being stationary since less than 1 minute,
- 1 `lessThan2Minutes` - for being stationary since less than 2 minute and for equal to or more than 1 minute,
- 2 `lessThan15Minutes` - for being stationary since less than 15 minutes and for equal to or more than 1 minute,
- 3 `equalOrGreater15Minutes` - for being stationary since equal to or more than 15 minutes.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
StationarySince ::= ENUMERATED {
lessThan1Minute (0),
lessThan2Minutes (1),
lessThan15Minutes (2),
equalOrGreater15Minutes (3)
}
```
### StationaryVehicleSubCauseCode
This DE provides the value of the sub cause codes of the [**CauseCode**](#CauseCode) "stationaryVehicle".
The value shall be set to:
- 0 `unavailable` - in case further detailed information on stationary vehicle is unavailable,
- 1 `humanProblem` - in case stationary vehicle is due to health problem of driver or passenger,
- 2 `vehicleBreakdown` - in case stationary vehicle is due to vehicle break down,
- 3 `postCrash` - in case stationary vehicle is caused by collision,
- 4 `publicTransportStop` - in case public transport vehicle is stationary at bus stop,
- 5 `carryingDangerousGoods`- in case the stationary vehicle is carrying dangerous goods,
- 6 `vehicleOnFire` - in case of vehicle on fire.
- 7-255 reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
StationaryVehicleSubCauseCode ::= INTEGER {
unavailable (0),
humanProblem (1),
vehicleBreakdown (2),
postCrash (3),
publicTransportStop (4),
carryingDangerousGoods (5),
vehicleOnFire (6)
} (0..255)
```
### StationId
This DE represents the identifier of an ITS-S.
The ITS-S ID may be a pseudonym. It may change over space and/or over time.
**Categories:** Basic information
**Revision:** _Created in V2.1.1 based on [**StationID**](#StationID)_
```asn1
StationId ::= INTEGER(0..4294967295)
```
### StationID
This DE represents the identifier of an ITS-S.
The ITS-S ID may be a pseudonym. It may change over space and/or over time.
**Categories:** Basic information
**Revision:** _V1.3.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**StationId**](#StationId) instead.
>>>
```asn1
StationID ::= INTEGER(0..4294967295)
```
### StationType
This DE represents the type of technical context the ITS-S is integrated in.
The station type depends on the integration environment of ITS-S into vehicle, mobile devices or at infrastructure.
The value shall be set to:
- 0 `unknown` - information about the ITS-S context is not provided,
- 1 `pedestrian` - ITS-S carried by human being not using a mechanical device for their trip (VRU profile 1),
- 2 `cyclist` - ITS-S mounted on non-motorized unicycles, bicycles , tricycles, quadracycles (VRU profile 2),
- 3 `moped` - ITS-S mounted on light motor vehicles with less than four wheels as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16]
class L1, L2 (VRU Profile 3),
- 4 `motorcycles` - ITS-S mounted on motor vehicles with less than four wheels as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16]
class L3, L4, L5, L6, L7 (VRU Profile 3),
- 5 `passengerCar` - ITS-S mounted on small passenger vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class M1,
- 6 `bus` - ITS-S mounted on large passenger vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class M2, M3,
- 7 `lightTruck` - ITS-S mounted on light Goods Vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class N1,
- 8 `heavyTruck` - ITS-S mounted on Heavy Goods Vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class N2 and N3,
- 9 `trailer` - ITS-S mounted on an unpowered vehicle that is intended to be towed by a powered vehicle as defined in
UNECE/TRANS/WP.29/78/Rev.4 [i.16] class O,
- 10 `specialVehicles` - ITS-S mounted on vehicles which have special purposes other than the above (e.g. moving road works vehicle),
- 11 `tram` - ITS-S mounted on a vehicle which runs on tracks along public streets,
- 12 `lightVruVehicle` - ITS-S carried by a human being traveling on light vehicle , incl. possible use of roller skates or skateboards (VRU profile 2),
- 13 `animal` - ITS-S carried by an animal presenting a safety risk to other road users e.g. domesticated dog in a city or horse (VRU Profile 4),
- 14 - reserved for future usage,
- 15 `roadSideUnit` - ITS-S mounted on an infrastructure typically positioned outside of the drivable roadway (e.g. on a gantry, on a pole,
on a stationary road works trailer); the infrastructure is static during the entire operation period of the ITS-S (e.g. no stop and go activity),
- 16-255 - are reserved for future usage.
**Categories:** Communication information.
**Revision:** _revised in V2.1.1 (named values 12 and 13 added and note to value 9 deleted)_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**TrafficParticipantType**](#TrafficParticipantType) instead.
>>>
```asn1
StationType ::= INTEGER {
unknown (0),
pedestrian (1),
cyclist (2),
moped (3),
motorcycle (4),
passengerCar (5),
bus (6),
lightTruck (7),
heavyTruck (8),
trailer (9),
specialVehicle (10),
tram (11),
lightVruVehicle (12),
animal (13),
roadSideUnit (15)
} (0..255)
```
### SteeringWheelAngleConfidence
This DE indicates the steering wheel angle confidence value which represents the estimated absolute accuracy for a steering wheel angle value with a confidence level of 95 %.
The value shall be set to:
- `n (n > 0 and n < 126)` if the confidence value is equal to or less than n x 1,5 degrees,
- `126` if the confidence value is out of range, i.e. greater than 187,5 degrees,
- `127` if the confidence value is not available.
If a steering wheel angle value is received and its confidence value is set to 'outOfRange(126)',
it means that the steering wheel angle value is not valid and therefore cannot be trusted.
Such value is not useful for the application.
**Unit:** _1,5 degree_
**Categories:** Vehicle Information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: The fact that a steering wheel angle value is received with confidence value set to 'unavailable(127)'
can be caused by several reasons, such as:
- the sensor cannot deliver the accuracy at the defined confidence level because it is a low-end sensor,
- the sensor cannot calculate the accuracy due to lack of variables, or
- there has been a vehicle bus (e.g. CAN bus) error.
In all 3 cases above, the steering wheel angle value may be valid and used by the application.
>>>
```asn1
SteeringWheelAngleConfidence ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### SteeringWheelAngleValue
This DE represents the steering wheel angle of the vehicle at certain point in time.
The value shall be provided in the vehicle coordinate system as defined in ISO 8855 [2], clause 2.11.
The value shall be set to:
- `-511` if the steering wheel angle is equal to or greater than 511 x 1,5 degrees = 766,5 degrees to the right,
- `n (n > -511 and n ⤠0)` if the steering wheel angle is equal to or less than n x 1,5 degrees, and greater than (n-1) x 1,5 degrees,
turning clockwise (i.e. to the right),
- `n (n > 1 and n < 511)` if the steering wheel angle is equal to or less than n x 0,1 degrees, and greater than (n-1) x 0,1 degrees,
turning counter-clockwise (i.e. to the left),
- `511` if the steering wheel angle is greater than 510 x 1,5 degrees = 765 degrees to the left,
- `512` if information is not available.
**Unit:** _1,5 degree_
**Revision:** _Description revised in V2.1.1 (meaning of value 511 has changed slightly)._
```asn1
SteeringWheelAngleValue ::= INTEGER {
negativeOutOfRange (-511),
positiveOutOfRange (511),
unavailable (512)
} (-511..512)
```
### SubCauseCodeType
This DE indicates the generic sub cause of a detected event.
**Categories:** Traffic information
**Revision:** _Description revised in V2.1.1 (this is the generic sub cause type)_
>>>
NOTE: The sub cause code value assignment varies based on value of [**CauseCode**](#CauseCode).
>>>
```asn1
SubCauseCodeType ::= INTEGER (0..255)
```
### Temperature
This DE indicates a temperature value.
The value shall be set to:
- `-60` for temperature equal to or less than -60 degrees C,
- `n (n > -60 and n < 67)` for the actual temperature n in degrees C,
- `67` for temperature equal to or greater than 67 degrees C.
**Unit:** _degrees Celsius_
**Categories:** Basic information
**Revision:** _Editorial update in V2.1.1_
```asn1
Temperature ::= INTEGER {
equalOrSmallerThanMinus60Deg (-60),
equalOrGreaterThan67Deg(67)} (-60..67)
```
### TimestampIts
This DE represents the number of elapsed (TAI) milliseconds since the ITS Epoch.
The ITS epoch is `00:00:00.000 UTC, 1 January 2004`.
"Elapsed" means that the true number of milliseconds is continuously counted without interruption,
i.e. it is not altered by leap seconds, which occur in UTC.
EXAMPLE: The value for TimestampIts for 1 January 2007 00:00:00.000 UTC is `94 694 401 000` milliseconds,
which includes one leap second insertion since the ITS epoch.
**Unit:** _0,001 s_
**Categories:** Basic information
**Revision:** _Description revised in in V2.1.1_
>>>
NOTE: International Atomic Time (TAI) is the time reference coordinate on the basis of the readings of atomic clocks,
operated in accordance with the definition of the second, the unit of time of the International System of Units.
TAI is a continuous time scale. UTC has discontinuities, as it is occasionally adjusted by leap seconds.
As of 1 January, 2022, TimestampIts is 5 seconds ahead of UTC, because since the ITS epoch on 1 January 2004 00:00:00.000 UTC,
further 5 leap seconds have been inserted in UTC.
>>>
```asn1
TimestampIts ::= INTEGER (0..4398046511103)
```
### TrafficConditionSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `trafficCondition`.
The value shall be set to:
- 0 `unavailable` - in case further detailed information on traffic jam is unavailable,
- 1 `increasedVolumeOfTraffic` - in case detected jam volume is increased,
- 2 `trafficJamSlowlyIncreasing` - in case detected traffic jam volume is increasing slowly,
- 3 `trafficJamIncreasing` - in case traffic jam volume is increasing,
- 4 `trafficJamStronglyIncreasing`- in case traffic jam volume is strongly increasing,
- 5 `trafficStationary` - in case traffic is stationary,
- 6 `trafficJamSlightlyDecreasing`- in case traffic jam volume is decreasing slowly,
- 7 `trafficJamDecreasing` - in case traffic jam volume is decreasing,
- 8 `trafficJamStronglyDecreasing`- in case traffic jam volume is decreasing rapidly,
- 9-255: reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
TrafficConditionSubCauseCode ::= INTEGER {
unavailable (0),
increasedVolumeOfTraffic (1),
trafficJamSlowlyIncreasing (2),
trafficJamIncreasing (3),
trafficJamStronglyIncreasing (4),
trafficStationary (5),
trafficJamSlightlyDecreasing (6),
trafficJamDecreasing (7),
trafficJamStronglyDecreasing (8)
} (0..255)
```
### TrafficDirection
This DE indicates a traffic direction that is relevant to information indicated in a message.
The value shall be set to:
- 0 `allTrafficDirections` - for all traffic directions,
- 1 `upstreamTraffic` - for upstream traffic,
- 2 `downstreamTraffic` - for downstream traffic,
- 3 `oppositeTraffic` - for traffic in the opposite direction.
The terms `upstream`, `downstream` and `oppositeTraffic` are relative to the event position.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1 from RelevanceTrafficDirection_
>>>
NOTE: Upstream traffic corresponds to the incoming traffic towards the event position,
and downstream traffic to the departing traffic away from the event position.
>>>
```asn1
TrafficDirection ::= ENUMERATED {
allTrafficDirections (0),
upstreamTraffic (1),
downstreamTraffic (2),
oppositeTraffic (3)
}
```
### TrafficParticipantType
This DE represents the type of a traffic participant.
The value shall be set to:
- 0 `unknown` - information about traffic participant is not provided,
- 1 `pedestrian` - human being not using a mechanical device for their trip (VRU profile 1),
- 2 `cyclist` - non-motorized unicycles, bicycles , tricycles, quadracycles (VRU profile 2),
- 3 `moped` - light motor vehicles with less than four wheels as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class L1, L2 (VRU Profile 3),
- 4 `motorcycles` - motor vehicles with less than four wheels as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class L3, L4, L5, L6, L7 (VRU Profile 3),
- 5 `passengerCar` - small passenger vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class M1,
- 6 `bus` - large passenger vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class M2, M3,
- 7 `lightTruck` - light Goods Vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class N1,
- 8 `heavyTruck` - Heavy Goods Vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class N2 and N3,
- 9 `trailer` - unpowered vehicle that is intended to be towed by a powered vehicle as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class O,
- 10 `specialVehicles` - vehicles which have special purposes other than the above (e.g. moving road works vehicle),
- 11 `tram` - vehicle which runs on tracks along public streets,
- 12 `lightVruVehicle` - human being traveling on light vehicle, incl. possible use of roller skates or skateboards (VRU profile 2),
- 13 `animal` - animal presenting a safety risk to other road users e.g. domesticated dog in a city or horse (VRU Profile 4),
- 14 `agricultural` - agricultural and forestry vehicles as defined in UNECE/TRANS/WP.29/78/Rev.4 [i.16] class T,
- 15 `roadSideUnit` - infrastructure typically positioned outside of the drivable roadway (e.g. on a gantry, on a pole,
on a stationary road works trailer); the infrastructure is static during the entire operation period of the ITS-S (e.g. no stop and go activity),
- 16-255 - are reserved for future usage.
**Categories:** Communication information.
**Revision:** _Created in V2.1.1 based on StationType_
```asn1
TrafficParticipantType ::= INTEGER {
unknown (0),
pedestrian (1),
cyclist (2),
moped (3),
motorcycle (4),
passengerCar (5),
bus (6),
lightTruck (7),
heavyTruck (8),
trailer (9),
specialVehicle (10),
tram (11),
lightVruVehicle (12),
animal (13),
agricultural (14),
roadSideUnit (15)
} (0..255)
```
### TrafficRule
This DE indicates traffic rules that apply to vehicles at a certain position.
The value shall be set to:
- `0` - if overtaking is prohibited for all vehicles,
- `1` - if overtaking is prohibited for trucks,
- `2` - if vehicles should pass to the right lane,
- `3` - if vehicles should pass to the left lane.
**Categories:** Infrastructure information Traffic information
**Revision:** _Editorial update in V2.1.1_
```asn1
TrafficRule ::= ENUMERATED {
noPassing (0),
noPassingForTrucks (1),
passToRight (2),
passToLeft (3),
...}
```
### TrailerPresenceInformation
This DE provides information about the presence of a trailer.
The value shall be set to:
- 0 `noTrailerPresent` - to indicate that no trailer is present, i.e. either the vehicle is physically not enabled to tow a trailer or it has been detected that no trailer is present.
- 1 `trailerPresentWithKnownLength` - to indicate that a trailer has been detected as present and the length is included in the vehicle length value.
- 2 `trailerPresentWithUnknownLength` - to indicate that a trailer has been detected as present and the length is not included in the vehicle length value.
- 3 `trailerPresenceIsUnknown` - to indicate that information about the trailer presence is unknown, i.e. the vehicle is physically enabled to tow a trailer but the detection of trailer presence/absence is not possible.
- 4 `unavailable` - to indicate that the information about the presence of a trailer is not available, i.e. it is neither known whether the vehicle is able to tow a trailer
nor the detection of trailer presence/absence is possible.
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1 based on VehicleLengthConfidenceIndication_
```asn1
TrailerPresenceInformation ::= ENUMERATED {
noTrailerPresent (0),
trailerPresentWithKnownLength (1),
trailerPresentWithUnknownLength (2),
trailerPresenceIsUnknown (3),
unavailable (4)
}
```
### TrajectoryInterceptionProbability
This DE defines the probability that the ego trajectory intercepts with any other object's trajectory on the road.
The value shall be set to:
- `n (n = 0 and n ⤠50)` to indicate the actual probability,
- the values between 51 and 62 are reserved,
- `63`: to indicate that the information is unavailable.
**Unit:** _2 %_
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
TrajectoryInterceptionProbability ::= INTEGER {
unavailable (63)
} (0..63)
```
### TrajectoryInterceptionConfidence
This DE defines the confidence level of the trajectoryInterceptionProbability.
The value shall be set to:
- `0` - to indicate confidence level less than 50 %,
- `1` - to indicate confidence level greater than or equal to 50 % and less than 70 %,
- `2` - to indicate confidence level greater than or equal to 70 % and less than 90 %,
- `3` - to indicate confidence level greater than or equal to 90%.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
TrajectoryInterceptionConfidence ::= INTEGER {
lessthan50percent (0),
between50and70Percent (1),
between70and90Percent (2),
above90Percent (3)
} (0..3)
```
### TransmissionInterval
This DE represents the time interval between two consecutive message transmissions.
**Unit:** _0,001 s_
**Categories:** Basic information
**Revision:** _V1.3.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**DeltaTimeMilliSecondPos**](#DeltaTimeMilliSecondPos) instead.
>>>
```asn1
TransmissionInterval::= INTEGER (1..10000)
```
### TurningDirection
This DE provides the turning direction.
The value shall be set to:
- `left` for turning to te left.
- `right`for turing to the right.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
TurningDirection::= ENUMERATED {
left,
right
}
```
### TurningRadius
This DE represents the smallest circular turn (i.e. U-turn) that the vehicle is capable of making.
The value shall be set to:
- `n (n > 0 and n < 254)` to indicate the applicable value is equal to or less than n x 0,4 metre, and greater than (n-1) x 0,4 metre,
- `254` to indicate that the turning radius is greater than 253 x 0,4 metre = 101.2 metres,
- `255` to indicate that the information is unavailable.
For vehicle with tracker, the turning radius applies to the vehicle only.
**Unit:** _0,4 metre_
**Categories:** Vehicle information
**Revision:** _Description revised V2.1.1 (the meaning of 254 has changed slightly)_
```asn1
TurningRadius ::= INTEGER {
outOfRange (254),
unavailable (255)
} (1..255)
```
### ValidityDuration
This DE represents the duration of a traffic event validity.
**Unit:** _1 s_
**Categories:** Basic information
**Revision:** _V1.3.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**DeltaTimeSecond**](#DeltaTimeSecond) instead.
>>>
```asn1
ValidityDuration::= INTEGER {
timeOfDetection(0),
oneSecondAfterDetection(1)
} (0..86400)
```
### VDS
This DE represents the Vehicle Descriptor Section (VDS). The values are assigned according to ISO 3779 [i.6].
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
VDS ::= IA5String (SIZE(6))
```
### VehicleBreakdownSubCauseCode
This DE represents the value of the sub cause codes of the [**CauseCode**](#CauseCode) `vehicleBreakdown`.
The value shall be set to:
- 0 `unavailable` - in case further detailed information on cause of vehicle break down is unavailable,
- 1 `lackOfFuel` - in case vehicle break down is due to lack of fuel,
- 2 `lackOfBatteryPower` - in case vehicle break down is caused by lack of battery power,
- 3 `engineProblem` - in case vehicle break down is caused by an engine problem,
- 4 `transmissionProblem` - in case vehicle break down is caused by transmission problem,
- 5 `engineCoolingProblem`- in case vehicle break down is caused by an engine cooling problem,
- 6 `brakingSystemProblem`- in case vehicle break down is caused by a braking system problem,
- 7 `steeringProblem` - in case vehicle break down is caused by a steering problem,
- 8 `tyrePuncture` - in case vehicle break down is caused by tyre puncture,
- 9 `tyrePressureProblem` - in case low tyre pressure in detected,
- 10 `vehicleOnFire` - in case the vehicle is on fire.
- 11-255 - are reserved for future usage.
**Categories:** Traffic information
```asn1
VehicleBreakdownSubCauseCode ::= INTEGER {
unavailable (0),
lackOfFuel (1),
lackOfBatteryPower (2),
engineProblem (3),
transmissionProblem (4),
engineCoolingProblem (5),
brakingSystemProblem (6),
steeringProblem (7),
tyrePuncture (8),
tyrePressureProblem (9),
vehicleOnFire (10)
} (0..255)
```
### VehicleHeight
This DE represents the height of the vehicle, measured from the ground to the highest point, excluding any antennas.
In case vehicles are equipped with adjustable ride heights, camper shells, and any other
equipment which may result in varying height, the largest possible height shall be used.
The value shall be set to:
- `n (n >0 and n < 127)` indicates the applicable value is equal to or less than n x 0,05 metre, and greater than (n-1) x 0,05 metre,
- `127` indicates that the vehicle width is greater than 6,3 metres,
- `128` indicates that the information in unavailable.
**Unit:** _0,05 metre_
**Categories:** Vehicle information
**Revision:** _created in V2.1.1_
```asn1
VehicleHeight ::= INTEGER {
outOfRange (126),
unavailable (127)
}(1..128)
```
### VehicleLengthConfidenceIndication
This DE provides information about the presence of a trailer.
The value shall be set to:
- 0 `noTrailerPresent` - to indicate that no trailer is present, i.e. either the vehicle is physically not enabled to tow a trailer or it has been detected that no trailer is present,
- 1 `trailerPresentWithKnownLength` - to indicate that a trailer has been detected as present and the length is included in the vehicle length value,
- 2 `trailerPresentWithUnknownLength` - to indicate that a trailer has been detected as present and the length is not included in the vehicle length value,
- 3 `trailerPresenceIsUnknown` - to indicate that information about the trailer presence is unknown, i.e. the vehicle is physically enabled to tow a trailer but the detection of trailer presence/absence is not possible,
- 4 `unavailable` - to indicate that the information about the presence of a trailer is not available, i.e. it is neither known whether the vehicle is able to tow a trailer,
nor the detection of trailer presence/absence is possible.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**TrailerPresenceInformation**](#TrailerPresenceInformation) instead.
>>>
```asn1
VehicleLengthConfidenceIndication ::= ENUMERATED {
noTrailerPresent (0),
trailerPresentWithKnownLength (1),
trailerPresentWithUnknownLength (2),
trailerPresenceIsUnknown (3),
unavailable (4)
}
```
### VehicleLengthValue
This DE represents the length of a vehicle.
The value shall be set to:
- `n (n > 0 and n < 1022)` to indicate the applicable value n is equal to or less than n x 0,1 metre, and greater than (n-1) x 0,1 metre,
- `1 022` to indicate that the vehicle length is greater than 102.1 metres,
- `1 023` to indicate that the information in unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _Description updated in V2.1.1 (the meaning of 1 022 has changed slightly)._
```asn1
VehicleLengthValue ::= INTEGER {
outOfRange(1022),
unavailable(1023)
} (1..1023)
```
### VehicleMass
This DE represents the mass of an empty loaded vehicle.
The value shall be set to:
- `n (n > 0 and n < 1023)` to indicate that the applicable value is equal to or less than n x 105 gramm, and greater than (n-1) x 105 gramm,
- `1 023` indicates that the vehicle mass is greater than 102 200 000 g,
- `1 024` indicates the vehicle mass information is unavailable.
**Unit:** _105 gramm_
**Categories:** Vehicle information
**Revision:** _Description updated in V2.1.1 (the meaning of 1 023 has changed slightly)._
>>>
NOTE: The empty load vehicle is defined in ISO 1176 [i.8], clause 4.6.
>>>
```asn1
VehicleMass ::= INTEGER {
outOfRange (1023),
unavailable(1024)
} (1..1024)
```
### VehicleRole
This DE indicates the role played by a vehicle at a point in time.
The value shall be set to:
- 0 `default` - to indicate the default vehicle role as indicated by the vehicle type,
- 1 `publicTransport` - to indicate that the vehicle is used to operate public transport service,
- 2 `specialTransport` - to indicate that the vehicle is used for special transport purpose, e.g. oversized trucks,
- 3 `dangerousGoods` - to indicate that the vehicle is used for dangerous goods transportation,
- 4 `roadWork` - to indicate that the vehicle is used to realize roadwork or road maintenance mission,
- 5 `rescue` - to indicate that the vehicle is used for rescue purpose in case of an accident, e.g. as a towing service,
- 6 `emergency` - to indicate that the vehicle is used for emergency mission, e.g. ambulance, fire brigade,
- 7 `safetyCar` - to indicate that the vehicle is used for public safety, e.g. patrol,
- 8 `agriculture` - to indicate that the vehicle is used for agriculture, e.g. farm tractor,
- 9 `commercial` - to indicate that the vehicle is used for transportation of commercial goods,
- 10 `military` - to indicate that the vehicle is used for military purpose,
- 11 `roadOperator` - to indicate that the vehicle is used in road operator missions,
- 12 `taxi` - to indicate that the vehicle is used to provide an authorized taxi service.
- 13 `reserved` - is reserved for future usage.
- 14 `reserved` - is reserved for future usage.
- 15 `reserved` - is reserved for future usage.
**Categories:** Vehicle Information
**Revision:** _Description updated in V2.1.1 (removed reference to CEN/TS 16157-3)_
```asn1
VehicleRole ::= ENUMERATED {
default (0),
publicTransport (1),
specialTransport(2),
dangerousGoods (3),
roadWork (4),
rescue (5),
emergency (6),
safetyCar (7),
agriculture (8),
commercial (9),
military (10),
roadOperator (11),
taxi (12),
reserved1 (13),
reserved2 (14),
reserved3 (15)
}
```
### VehicleWidth
This DE represents the width of a vehicle, excluding side mirrors and possible similar extensions.
The value shall be set to:
- `n (n >0 and n < 61)` indicates the applicable value is equal to or less than n x 0,1 metre, and greater than (n-1) x 0,1 metre,
- `61`indicates that the vehicle width is greater than 6,0 metres,
- `62`indicates that the information in unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _Description updated in V2.1.1 (the meaning of 61 has changed slightly)._
```asn1
VehicleWidth ::= INTEGER {
outOfRange (61),
unavailable (62)
} (1..62)
```
### VerticalAccelerationValue
This DE represents the vehicle acceleration at vertical direction in the centre of the mass of the empty vehicle.
The value shall be provided in the vehicle coordinate system as defined in ISO 8855 [2], clause 2.11.
The value shall be set to:
- `-160` for acceleration values equal to or less than -16 m/s2,
- `n (n > -160 and n ⤠0)` to indicate downwards acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `n (n > 0 and n < 160)` to indicate upwards acceleration equal to or less than n x 0,1 m/s2, and greater than (n-1) x 0,1 m/s2,
- `160` for acceleration values greater than 15,9 m/s2,
- `161` when the data is unavailable.
**Unit:** _0,1 m/s2_
**Categories:** Vehicle information
**Revision:** _Desciption updated in V2.1.1 (the meaning of 160 has changed slightly)._
>>>
NOTE: The empty load vehicle is defined in ISO 1176 [i.8], clause 4.6.
>>>
```asn1
VerticalAccelerationValue ::= INTEGER {
negativeOutOfRange (-160),
positiveOutOfRange (160),
unavailable (161)
} (-160 .. 161)
```
### VruClusterProfiles
This DE Identifies all the VRU profile types within a cluster.
It consist of a Bitmap encoding VRU profiles, to allow multiple profiles to be indicated in a single cluster (heterogeneous cluster if more than one profile).
The corresponding bit shall be set to 1 under the following conditions:
- 0 `pedestrian` - indicates that the VRU cluster contains at least one pedestrian VRU,
- 1 `bicycle` - indicates that the VRU cluster contains at least one bicycle VRU member,
- 2 `motorcyclist`- indicates that the VRU cluster contains at least one motorcycle VRU member,
- 3 `animal` - indicates that the VRU cluster contains at least one animal VRU member.
Otherwise, the corresponding bit shall be set to 0.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruClusterProfiles ::= BIT STRING {
pedestrian (0),
bicyclist (1),
motorcyclist (2),
animal (3)
} (SIZE(4))
```
### VruDeviceUsage
This DE represents the possible usage conditions of the VRU device.
- The value shall be set to:
- 0 `unavailable` - to indicate that the usage conditions are unavailable,
- 1 `other (1)` - to indicate that the VRU device is in a state not defined below,
- 2 `idle (2)` - to indicate that the human is currently not interacting with the device,
- 3 `listeningToAudio` - to indicate that any audio source other than calling is in use,
- 4 `typing (4)` - to indicate that the human is texting or performaing any other manual input activity,
- 5 `calling (5)` - to indicate that the VRU device is currently receiving a call,
- 6 `playingGames (6)` - to indicate that the human is playing games,
- 7 `reading (7)` - to indicate that the human is reading on the VRU device,
- 8 `viewing (8)` - to indicate that the human is watching dynamic content, including following navigation prompts, viewing videos or other visual contents that are not static.
- value 9 to 255 - are reserved for future usage. Value 255 set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruDeviceUsage ::= ENUMERATED {
unavailable (0),
other (1),
idle (2),
listeningToAudio (3),
typing (4),
calling (5),
playingGames (6),
reading (7),
viewing (8),
max (255)
}
```
### VruEnvironment
This DE represents the possible VRU environment conditions.
- The value shall be set to:
- 0 `unavailable` - to indicate that the information on the type of environment is unavailable,
- 1 `intersectionCrossing` - to indicate that the VRU is on an intersection or crossing,
- 2 `zebraCrossing` - to indicate that the VRU is on a zebra crossing (crosswalk),
- 3 `sidewalk` - to indicate that the VRU is on a sidewalk,
- 4 `onVehicleRoad` - to indicate that the VRU is on a traffic lane,
- 5 `protectedGeographicArea`- to indicate that the VRU is in a protected area.
- value 5 to 255 - are reserved for future usage. Value 255 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruEnvironment ::= ENUMERATED {
unavailable (0),
intersectionCrossing (1),
zebraCrossing (2),
sidewalk (3),
onVehicleRoad (4),
protectedGeographicArea (5),
max (255)
}
```
### VruMovementControl
This DE indicates the status of the possible human control over a VRU vehicle.
The value shall be set to:
- 0 `unavailable` - to indicate that the information is unavailable,
- 1 `braking` - to indicate that the VRU is braking,
- 2 `hardBraking` - to indicate that the VRU is braking hard,
- 3 `stopPedaling` - to indicate that the VRU stopped pedaling,
- 4 `brakingAndStopPedaling` - to indicate that the VRU stopped pedaling an is braking,
- 5 `hardBrakingAndStopPedaling` - to indicate that the VRU stopped pedaling an is braking hard,
- 6 `noReaction` - to indicate that the VRU is not changing its behavior.
- 7 to 255 - are reserved for future usage. Value 255 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruMovementControl ::= ENUMERATED {
unavailable (0),
braking (1),
hardBraking (2),
stopPedaling (3),
brakingAndStopPedaling (4),
hardBrakingAndStopPedaling (5),
noReaction (6),
max (255)
}
```
### VruSubProfilePedestrian
This DE indicates the profile of a pedestrian.
The value shall be set to:
- 0 `unavailable` - to indicate that the information on is unavailable,
- 1 `ordinary-pedestrian` - to indicate a pedestrian to which no more-specific profile applies,
- 2 `road-worker` - to indicate a pedestrian with the role of a road worker,
- 3 `first-responder` - to indicate a pedestrian with the role of a first responder.
- value 4 to 15 - are reserved for future usage. Value 15 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSubProfilePedestrian ::= ENUMERATED {
unavailable (0),
ordinary-pedestrian (1),
road-worker (2),
first-responder (3),
max (15)
}
```
### VruSubProfileBicyclist
This DE indicates the profile of a VRU and its light VRU vehicle / mounted animal.
The value shall be set to:
- 0 `unavailable` - to indicate that the information is unavailable,
- 1 `bicyclist ` - to indicate a cycle and bicyclist,
- 2 `wheelchair-user` - to indicate a wheelchair and its user,
- 3 `horse-and-rider` - to indicate a horse and rider,
- 4 `rollerskater` - to indicate a rolleskater and skater,
- 5 `e-scooter` - to indicate an e-scooter and rider,
- 6 `personal-transporter` - to indicate a personal-transporter and rider,
- 7 `pedelec` - to indicate a pedelec and rider,
- 8 `speed-pedelec` - to indicate a speed-pedelec and rider.
- 9 to 15 - are reserved for future usage. Value 15 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSubProfileBicyclist ::= ENUMERATED {
unavailable (0),
bicyclist (1),
wheelchair-user (2),
horse-and-rider (3),
rollerskater (4),
e-scooter (5),
personal-transporter (6),
pedelec (7),
speed-pedelec (8),
max (15)
}
```
### VruSubProfileMotorcyclist
This DE indicates the profile of a motorcyclist and corresponding vehicle.
The value shall be set to:
- 0 `unavailable ` - to indicate that the information is unavailable,
- 1 `moped` - to indicate a moped and rider,
- 2 `motorcycle` - to indicate a motorcycle and rider,
- 3 `motorcycle-and-sidecar-right` - to indicate a motorcycle with sidecar on the right and rider,
- 4 `motorcycle-and-sidecar-left` - to indicate a motorcycle with sidecar on the left and rider.
- 5 to 15 - are reserved for future usage. Value 15 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSubProfileMotorcyclist ::= ENUMERATED {
unavailable (0),
moped (1),
motorcycle (2),
motorcycle-and-sidecar-right (3),
motorcycle-and-sidecar-left (4),
max (15)
}
```
### VruSubProfileAnimal
This DE indicates the profile of an animal
The value shall be set to:
- 0 `unavailable` - to indicate that the information is unavailable,
- 1 `wild-animal` - to indicate a animal living in the wildness,
- 2 `farm-animal` - to indicate an animal beloning to a farm,
- 3 `service-animal` - to indicate an animal that supports a human being.
- 4 to 15 - are reserved for future usage. Value 15 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSubProfileAnimal ::= ENUMERATED {
unavailable (0),
wild-animal (1),
farm-animal (2),
service-animal (3),
max (15)
}
```
### VruSizeClass
This DE indicates the approximate size of a VRU including the VRU vehicle used.
The value shall be set to:
- 0 `unavailable` - to indicate that there is no matched size class or due to privacy reasons in profile 1,
- 1 `low` - to indicate that the VRU size class is low depending on the VRU profile,
- 2 `medium` - to indicate that the VRU size class is medium depending on the VRU profile,
- 3 `high` - to indicate that the VRU size class is high depending on the VRU profile.
- 4 to 15 - are reserved for future usage. Value 15 is set to "max" in order to bound the size of the encoded field.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSizeClass ::= ENUMERATED {
unavailable (0),
low (1),
medium (2),
high (3),
max (15)
}
```
### VruSpecificExteriorLights
This DE describes the status of the exterior light switches of a VRU.
The value of each bit indicates the state of the switch, which commands the corresponding light.
The bit corresponding to a specific light shall be set to 1, when the corresponding switch is turned on, either manually by the driver or VRU
or automatically by a vehicle or VRU system:
- 0 `unavailable` - indicates no information available,
- 1 `backFlashLight ` - indicates the status of the back flash light,
- 2 `helmetLight` - indicates the status of the helmet light,
- 3 `armLight` - indicates the status of the arm light,
- 4 `legLight` - indicates the status of the leg light,
- 5 `wheelLight` - indicates the status of the wheel light.
- Bits 6 to 8 - are reserved for future use.
The bit values do not indicate if the corresponding lamps are alight or not.
If VRU is not equipped with a certain light or if the light switch status information is not available, the corresponding bit shall be set to 0.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruSpecificExteriorLights ::= BIT STRING {
unavailable (0),
backFlashLight (1),
helmetLight (2),
armLight (3),
legLight (4),
wheelLight (5)
} (SIZE(8))
```
### WheelBaseVehicle
This DE indicates the perpendicular distance between front and rear axle of the wheel base of vehicle.
The value shall be set to:
- `n (n ⥠1 and n < 126)` if the value is equal to or less than n x 0,1 metre and more than (n-1) x 0,1 metre,
- `126` indicates that the wheel base distance is equal to or greater than 12,5 metres,
- `127` indicates that the information is unavailable.
**Unit:** _0,1 metre_
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
WheelBaseVehicle ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### Wgs84AngleConfidence
This DE indicates the angle confidence value which represents the estimated accuracy of an angle value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `n (n ⥠1 and n < 126)` if the confidence value is equal to or less than n x 0,1 degrees and more than (n-1) x 0,1 degrees,
- `126` if the confidence value is out of range, i.e. greater than 12,5 degrees,
- `127` if the confidence value is not available.
**Unit:** _0,1 degrees_
**Categories:** GeoReference Information
**Revision:** _Created in V2.1.1_
```asn1
Wgs84AngleConfidence ::= INTEGER {
outOfRange (126),
unavailable (127)
} (1..127)
```
### Wgs84AngleValue
This DE represents an angle value in degrees described in the WGS84 reference system with respect to the WGS84 north.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
When the information is not available, the DE shall be set to 3 601. The value 3600 shall not be used.
**Unit:** _0,1 degrees_
**Categories:** GeoReference Information
**Revision:** _Created in V2.1.1_
```asn1
Wgs84AngleValue ::= INTEGER {
wgs84North (0),
wgs84East (900),
wgs84South (1800),
wgs84West (2700),
doNotUse (3600),
unavailable (3601)
} (0..3601)
```
### WMInumber
This DE represents the World Manufacturer Identifier (WMI). The values are assigned according to ISO 3779 [i.6].
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
WMInumber ::= IA5String (SIZE(1..3))
```
### WrongWayDrivingSubCauseCode
This DE represents the sub cause codes of the [**CauseCode**](#CauseCode) `wrongWayDriving` .
The value shall be set to:
- 0 `unavailable` - in case further detailed information on wrong way driving event is unavailable,
- 1 `wrongLane` - in case vehicle is driving on a lane for which it has no authorization to use,
- 2 `wrongDirection` - in case vehicle is driving in a direction that it is not allowed,
- 3-255 - reserved for future usage.
**Categories:** Traffic information
**Revision:** _V1.3.1_
```asn1
WrongWayDrivingSubCauseCode ::= INTEGER {
unavailable (0),
wrongLane (1),
wrongDirection (2)
} (0..255)
```
### YawRateConfidence
This DE indicates the yaw rate confidence value which represents the estimated accuracy for a yaw rate value with a default confidence level of 95 %.
If required, the confidence level can be defined by the corresponding standards applying this DE.
The value shall be set to:
- `0` if the confidence value is equal to or less than 0,01 degree/second,
- `1` if the confidence value is equal to or less than 0,05 degrees/second or greater than 0,01 degree/second,
- `2` if the confidence value is equal to or less than 0,1 degree/second or greater than 0,05 degree/second,
- `3` if the confidence value is equal to or less than 1 degree/second or greater than 0,1 degree/second,
- `4` if the confidence value is equal to or less than 5 degrees/second or greater than 1 degrees/second,
- `5` if the confidence value is equal to or less than 10 degrees/second or greater than 5 degrees/second,
- `6` if the confidence value is equal to or less than 100 degrees/second or greater than 10 degrees/second,
- `7` if the confidence value is out of range, i.e. greater than 100 degrees/second,
- `8` if the confidence value is unavailable.
NOTE: The fact that a yaw rate value is received with confidence value set to `unavailable(8)` can be caused by
several reasons, such as:
- the sensor cannot deliver the accuracy at the defined confidence level because it is a low-end sensor,
- the sensor cannot calculate the accuracy due to lack of variables, or
- there has been a vehicle bus (e.g. CAN bus) error.
In all 3 cases above, the yaw rate value may be valid and used by the application.
If a yaw rate value is received and its confidence value is set to `outOfRange(7)`, it means that the
yaw rate value is not valid and therefore cannot be trusted. Such value is not useful the application.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
```asn1
YawRateConfidence ::= ENUMERATED {
degSec-000-01 (0),
degSec-000-05 (1),
degSec-000-10 (2),
degSec-001-00 (3),
degSec-005-00 (4),
degSec-010-00 (5),
degSec-100-00 (6),
outOfRange (7),
unavailable (8)
}
```
### YawRateValue
This DE represents the vehicle rotation around z-axis of the coordinate system centred on the centre of mass of the empty-loaded
vehicle. The leading sign denotes the direction of rotation.
The value shall be provided in the vehicle coordinate system as defined in ISO 8855 [2], clause 2.11.
The value shall be set to:
- `-32 766` to indicate that the yaw rate is equal to or greater than 327,66 degrees/second to the right,
- `n (n > -32 766 and n ⤠0)` to indicate that the rotation is clockwise (i.e. to the right) and is equal to or less than n x 0,01 degrees/s,
and greater than (n-1) x 0,01 degrees/s,
- `n (n > 0 and n < 32 766)` to indicate that the rotation is anti-clockwise (i.e. to the left) and is equal to or less than n x 0,01 degrees/s,
and greater than (n-1) x 0,01 degrees/s,
- `32 766` to indicate that the yaw rate is greater than 327.65 degrees/second to the left,
- `32 767` to indicate that the information is not available.
The yaw rate value shall be a raw data value, i.e. not filtered, smoothed or otherwise modified.
The reading instant should be the same as for the vehicle acceleration.
**Unit:** _0,01 degree per second._
**Categories:** Vehicle Information
**Revision:** _Desription revised in V2.1.1 (the meaning of 32766 has changed slightly)._
>>>
NOTE: The empty load vehicle is defined in ISO 1176 [i.8], clause 4.6.
>>>
```asn1
YawRateValue ::= INTEGER {
negativeOutOfRange (-32766),
positiveOutOfRange (32766),
unavailable (32767)
} (-32766..32767)
```
### Acceleration3dWithConfidence
This DF represents an acceleration vector with associated confidence value.
It shall include the following components:
* polarAcceleration of type [**AccelerationPolarWithZ**](#AccelerationPolarWithZ)
the representation of the acceleration vector in a polar or cylindrical coordinate system.
* cartesianAcceleration of type [**AccelerationCartesian**](#AccelerationCartesian)
the representation of the acceleration vector in a cartesian coordinate system.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
Acceleration3dWithConfidence::= CHOICE {
polarAcceleration AccelerationPolarWithZ,
cartesianAcceleration AccelerationCartesian
}
```
### AccelerationPolarWithZ
This DF represents an acceleration vector in a polar or cylindrical coordinate system.
It shall include the following components:
* accelerationMagnitude of type [**AccelerationMagnitude**](#AccelerationMagnitude)
magnitude of the acceleration vector projected onto the reference plane, with the associated confidence value.
* accelerationDirection of type [**CartesianAngle**](#CartesianAngle)
polar angle of the acceleration vector projected onto the reference plane, with the associated confidence value.
* zAcceleration of type [**AccelerationComponent**](#AccelerationComponent) OPTIONAL
the optional z component of the acceleration vector along the reference axis of the cylindrical coordinate system, with the associated confidence value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationPolarWithZ::= SEQUENCE{
accelerationMagnitude AccelerationMagnitude,
accelerationDirection CartesianAngle,
zAcceleration AccelerationComponent OPTIONAL
}
```
### AccelerationCartesian
This DF represents a acceleration vector in a cartesian coordinate system.
It shall include the following components:
* xAcceleration of type [**AccelerationComponent**](#AccelerationComponent)
the x component of the acceleration vector with the associated confidence value.
* yAcceleration of type [**AccelerationComponent**](#AccelerationComponent)
the y component of the acceleration vector with the associated confidence value.
* zAcceleration of type [**AccelerationComponent**](#AccelerationComponent) OPTIONAL
the optional z component of the acceleration vector with the associated confidence value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationCartesian::= SEQUENCE{
xAcceleration AccelerationComponent,
yAcceleration AccelerationComponent,
zAcceleration AccelerationComponent OPTIONAL
}
```
### AccelerationComponent
This DF represents an acceleration component along with a confidence value.
It shall include the following components:
* value of type [**AccelerationValue**](#AccelerationValue)
the value of the acceleration component which can be estimated as the mean of the current distribution.
* confidence of type [**AccelerationConfidence**](#AccelerationConfidence)
the confidence value associated to the provided value.
**Categories:** Kinematic Information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationComponent ::= SEQUENCE {
value AccelerationValue,
confidence AccelerationConfidence
}
```
### AccelerationChangeIndication
This DF represents information associated to changes in acceleration.
It shall include the following components:
* accelOrDecel of type [**AccelerationChange**](#AccelerationChange)
the indication of an acceleration change.
* actionDeltaTime of type [**DeltaTimeTenthOfSecond**](#DeltaTimeTenthOfSecond)
the period over which the acceleration change action is performed.
**Categories:** Kinematic Information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationChangeIndication ::= SEQUENCE {
accelOrDecel AccelerationChange,
actionDeltaTime DeltaTimeTenthOfSecond,
...
}
```
### AccelerationMagnitude
This DF represents the magnitude of the acceleration vector and associated confidence value.
It shall include the following components:
* accelerationMagnitudeValue of type [**AccelerationMagnitudeValue**](#AccelerationMagnitudeValue)
the magnitude of the acceleration vector.
* accelerationConfidence of type [**AccelerationConfidence**](#AccelerationConfidence)
the confidence value of the magnitude value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
AccelerationMagnitude::= SEQUENCE {
accelerationMagnitudeValue AccelerationMagnitudeValue,
accelerationConfidence AccelerationConfidence
}
```
### ActionId
This DF represents an identifier used to describe a protocol action taken by an ITS-S.
It shall include the following components:
* originatingStationId of type [**StationId**](#StationId)
Id of the ITS-S that takes the action.
* sequenceNumber of type [**SequenceNumber**](#SequenceNumber)
a sequence number.
**Categories:** Communication information
**Revision:** _Created in V2.1.1 based on [**ActionID**](#ActionID)._
```asn1
ActionId ::= SEQUENCE {
originatingStationId StationId,
sequenceNumber SequenceNumber
}
```
### ActionID
This DF represents an identifier used to describe a protocol action taken by an ITS-S.
It shall include the following components:
* originatingStationId of type [**StationID**](#StationID)
Id of the ITS-S that takes the action.
* sequenceNumber of type [**SequenceNumber**](#SequenceNumber)
a sequence number.
**Categories:** Communication information
**Revision:** _V1.3.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use the [**ActionId**](#ActionId) instead.
>>>
```asn1
ActionID ::= SEQUENCE {
originatingStationId StationID,
sequenceNumber SequenceNumber
}
```
### ActionIdList
This DF shall contain a list of [**ActionId**](#ActionId).
**Categories:** Communication Information
**Revision:** _Created in V2.1.1 based on ReferenceDenms from DENM Release 1_
```asn1
ActionIdList::= SEQUENCE (SIZE(1..8, ...)) OF ActionId
```
### Altitude
This DF provides the altitude and confidence level of an altitude information in a WGS84 coordinate system.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
It shall include the following components:
* altitudeValue of type [**AltitudeValue**](#AltitudeValue)
altitude of a geographical point.
* altitudeConfidence of type [**AltitudeConfidence**](#AltitudeConfidence)
confidence level of the altitudeValue.
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use the [**AltitudeWithConfidence**](#AltitudeWithConfidence) instead.
>>>
```asn1
Altitude ::= SEQUENCE {
altitudeValue AltitudeValue,
altitudeConfidence AltitudeConfidence
}
```
### BasicContainer
This DE represents a general container for usage in various types of messages.
It shall include the following components:
* stationType of type [**TrafficParticipantType**](#TrafficParticipantType)
the type of technical context in which the ITS-S that has generated the message is integrated in.
* referencePosition of type [**ReferencePositionWithConfidence**](#ReferencePositionWithConfidence)
the reference position of the station that has generated the message that contains the basic container.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
BasicContainer ::= SEQUENCE {
stationType TrafficParticipantType,
referencePosition ReferencePositionWithConfidence,
...
}
```
### CartesianAngle
This DF represents a general Data Frame to describe an angle component along with a confidence value in a cartesian coordinate system.
It shall include the following components:
* value of type [**CartesianAngleValue**](#CartesianAngleValue)
The angle value which can be estimated as the mean of the current distribution.
* confidence of type [**AngleConfidence**](#AngleConfidence)
The confidence value associated to the provided value.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngle ::= SEQUENCE {
value CartesianAngleValue,
confidence AngleConfidence
}
```
### CartesianAngularVelocityComponent
This DF represents an angular velocity component along with a confidence value in a cartesian coordinate system.
It shall include the following components:
* value of type [**CartesianAngularVelocityComponentValue**](#CartesianAngularVelocityComponentValue)
The angular velocity component.
* confidence of type [**AngularSpeedConfidence**](#AngularSpeedConfidence)
The confidence value associated to the provided value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngularVelocityComponent ::= SEQUENCE {
value CartesianAngularVelocityComponentValue,
confidence AngularSpeedConfidence
}
```
### CartesianAngularAccelerationComponent
This DF represents a general Data Frame to describe an angular acceleration component along with a confidence value in a cartesian coordinate system.
It shall include the following components:
* value of type [**CartesianAngularAccelerationComponentValue**](#CartesianAngularAccelerationComponentValue)
The angular acceleration component value.
* confidence of type [**AngularAccelerationConfidence**](#AngularAccelerationConfidence)
The confidence value associated to the provided value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
CartesianAngularAccelerationComponent ::= SEQUENCE {
value CartesianAngularAccelerationComponentValue,
confidence AngularAccelerationConfidence
}
```
### CartesianCoordinateWithConfidence
This DF represents a coordinate along with a confidence value in a cartesian reference system.
It shall include the following components:
* value of type [**CartesianCoordinateLarge**](#CartesianCoordinateLarge)
the coordinate value, which can be estimated as the mean of the current distribution.
* confidence of type [**CoordinateConfidence**](#CoordinateConfidence)
the coordinate confidence value associated to the provided value.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
CartesianCoordinateWithConfidence ::= SEQUENCE {
value CartesianCoordinateLarge,
confidence CoordinateConfidence
}
```
### CartesianPosition3d
This DF represents a position in a two- or three-dimensional cartesian coordinate system.
It shall include the following components:
* xCoordinate of type [**CartesianCoordinate**](#CartesianCoordinate)
the X coordinate value.
* yCoordinate of type [**CartesianCoordinate**](#CartesianCoordinate)
the Y coordinate value.
* zCoordinate of type [**CartesianCoordinate**](#CartesianCoordinate) OPTIONAL
the optional Z coordinate value.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
CartesianPosition3d::=SEQUENCE{
xCoordinate CartesianCoordinate,
yCoordinate CartesianCoordinate,
zCoordinate CartesianCoordinate OPTIONAL
}
```
### CartesianPosition3dWithConfidence
This DF represents a position in a two- or three-dimensional cartesian coordinate system with an associated confidence level for each coordinate.
It shall include the following components:
* xCoordinate of type [**CartesianCoordinateWithConfidence**](#CartesianCoordinateWithConfidence)
the X coordinate value with the associated confidence level.
* yCoordinate of type [**CartesianCoordinateWithConfidence**](#CartesianCoordinateWithConfidence)
the Y coordinate value with the associated confidence level.
* zCoordinate of type [**CartesianCoordinateWithConfidence**](#CartesianCoordinateWithConfidence) OPTIONAL
the optional Z coordinate value with the associated confidence level.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
CartesianPosition3dWithConfidence::= SEQUENCE{
xCoordinate CartesianCoordinateWithConfidence,
yCoordinate CartesianCoordinateWithConfidence,
zCoordinate CartesianCoordinateWithConfidence OPTIONAL
}
```
### CauseCode
This DF is a representation of the cause code value of a traffic event.
It shall include the following components:
* causeCode of type [**CauseCodeType**](#CauseCodeType)
the main cause of a detected event.
* subCauseCode of type [**SubCauseCodeType**](#SubCauseCodeType)
the subordinate cause of a detected event.
The semantics of the entire DF are completely defined by the component causeCode. The interpretation of the subCauseCode may
provide additional information that is not strictly necessary to understand the causeCode itself, and is therefore optional.
**Categories:** Traffic information
**Revision:** _Editorial update in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use the [**CauseCodeV2**](#CauseCodeV2) instead.
>>>
```asn1
CauseCode ::= SEQUENCE {
causeCode CauseCodeType,
subCauseCode SubCauseCodeType,
...
}
```
### CauseCodeChoice
This DF is a representation of the cause code value and associated sub cause code value of a traffic event.
* reserved0 of type [**SubCauseCodeType**](#SubCauseCodeType)
* trafficCondition1 of type [**TrafficConditionSubCauseCode**](#TrafficConditionSubCauseCode)
* accident2 of type [**AccidentSubCauseCode**](#AccidentSubCauseCode)
* roadworks3 of type [**RoadworksSubCauseCode**](#RoadworksSubCauseCode)
* reserved4 of type [**SubCauseCodeType**](#SubCauseCodeType)
* impassability5 of type [**SubCauseCodeType**](#SubCauseCodeType)
* adverseWeatherCondition-Adhesion6 of type [**AdverseWeatherCondition-AdhesionSubCauseCode**](#AdverseWeatherCondition-AdhesionSubCauseCode)
* aquaplaning7 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved8 of type [**SubCauseCodeType**](#SubCauseCodeType)
* hazardousLocation-SurfaceCondition9 of type [**HazardousLocation-SurfaceConditionSubCauseCode**](#HazardousLocation-SurfaceConditionSubCauseCode)
* hazardousLocation-ObstacleOnTheRoad10 of type [**HazardousLocation-ObstacleOnTheRoadSubCauseCode**](#HazardousLocation-ObstacleOnTheRoadSubCauseCode)
* hazardousLocation-AnimalOnTheRoad11 of type [**HazardousLocation-AnimalOnTheRoadSubCauseCode**](#HazardousLocation-AnimalOnTheRoadSubCauseCode)
* humanPresenceOnTheRoad12 of type [**HumanPresenceOnTheRoadSubCauseCode**](#HumanPresenceOnTheRoadSubCauseCode)
* reserved13 of type [**SubCauseCodeType**](#SubCauseCodeType)
* wrongWayDriving14 of type [**WrongWayDrivingSubCauseCode**](#WrongWayDrivingSubCauseCode)
* rescueAndRecoveryWorkInProgress15 of type [**RescueAndRecoveryWorkInProgressSubCauseCode**](#RescueAndRecoveryWorkInProgressSubCauseCode)
* reserved16 of type [**SubCauseCodeType**](#SubCauseCodeType)
* adverseWeatherCondition-ExtremeWeatherCondition17 of type [**AdverseWeatherCondition-ExtremeWeatherConditionSubCauseCode**](#AdverseWeatherCondition-ExtremeWeatherConditionSubCauseCode)
* adverseWeatherCondition-Visibility18 of type [**AdverseWeatherCondition-VisibilitySubCauseCode**](#AdverseWeatherCondition-VisibilitySubCauseCode)
* adverseWeatherCondition-Precipitation19 of type [**AdverseWeatherCondition-PrecipitationSubCauseCode**](#AdverseWeatherCondition-PrecipitationSubCauseCode)
* violence20 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved21 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved22 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved23 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved24 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved25 of type [**SubCauseCodeType**](#SubCauseCodeType)
* slowVehicle26 of type [**SlowVehicleSubCauseCode**](#SlowVehicleSubCauseCode)
* dangerousEndOfQueue27 of type [**DangerousEndOfQueueSubCauseCode**](#DangerousEndOfQueueSubCauseCode)
* reserved28 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved29 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved30 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved31 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved32 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved33 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved34 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved35 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved36 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved37 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved38 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved39 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved40 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved41 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved42 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved43 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved44 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved45 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved46 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved47 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved48 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved49 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved50 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved51 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved52 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved53 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved54 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved55 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved56 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved57 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved58 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved59 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved60 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved61 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved62 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved63 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved64 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved65 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved66 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved67 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved68 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved69 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved70 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved71 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved72 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved73 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved74 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved75 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved76 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved77 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved78 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved79 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved80 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved81 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved82 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved83 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved84 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved85 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved86 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved87 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved88 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved89 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved90 of type [**SubCauseCodeType**](#SubCauseCodeType)
* vehicleBreakdown91 of type [**VehicleBreakdownSubCauseCode**](#VehicleBreakdownSubCauseCode)
* postCrash92 of type [**PostCrashSubCauseCode**](#PostCrashSubCauseCode)
* humanProblem93 of type [**HumanProblemSubCauseCode**](#HumanProblemSubCauseCode)
* stationaryVehicle94 of type [**StationaryVehicleSubCauseCode**](#StationaryVehicleSubCauseCode)
* emergencyVehicleApproaching95 of type [**EmergencyVehicleApproachingSubCauseCode**](#EmergencyVehicleApproachingSubCauseCode)
* hazardousLocation-DangerousCurve96 of type [**HazardousLocation-DangerousCurveSubCauseCode**](#HazardousLocation-DangerousCurveSubCauseCode)
* collisionRisk97 of type [**CollisionRiskSubCauseCode**](#CollisionRiskSubCauseCode)
* signalViolation98 of type [**SignalViolationSubCauseCode**](#SignalViolationSubCauseCode)
* dangerousSituation99 of type [**DangerousSituationSubCauseCode**](#DangerousSituationSubCauseCode)
* railwayLevelCrossing100 of type [**RailwayLevelCrossingSubCauseCode**](#RailwayLevelCrossingSubCauseCode)
* reserved101 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved102 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved103 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved104 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved105 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved106 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved107 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved108 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved109 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved110 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved111 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved112 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved113 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved114 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved115 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved116 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved117 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved118 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved119 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved120 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved121 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved122 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved123 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved124 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved125 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved126 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved127 of type [**SubCauseCodeType**](#SubCauseCodeType)
* reserved128 of type [**SubCauseCodeType**](#SubCauseCodeType)
**Categories:** Traffic information
**Revision:** _Created in V2.1.1_
>>>
NOTE: this DF is defined for use as part of CauseCodeV2. It is recommended to use CauseCodeV2.
>>>
```asn1
CauseCodeChoice::= CHOICE {
reserved0 SubCauseCodeType,
trafficCondition1 TrafficConditionSubCauseCode,
accident2 AccidentSubCauseCode,
roadworks3 RoadworksSubCauseCode,
reserved4 SubCauseCodeType,
impassability5 SubCauseCodeType,
adverseWeatherCondition-Adhesion6 AdverseWeatherCondition-AdhesionSubCauseCode,
aquaplaning7 SubCauseCodeType,
reserved8 SubCauseCodeType,
hazardousLocation-SurfaceCondition9 HazardousLocation-SurfaceConditionSubCauseCode,
hazardousLocation-ObstacleOnTheRoad10 HazardousLocation-ObstacleOnTheRoadSubCauseCode,
hazardousLocation-AnimalOnTheRoad11 HazardousLocation-AnimalOnTheRoadSubCauseCode,
humanPresenceOnTheRoad12 HumanPresenceOnTheRoadSubCauseCode,
reserved13 SubCauseCodeType,
wrongWayDriving14 WrongWayDrivingSubCauseCode,
rescueAndRecoveryWorkInProgress15 RescueAndRecoveryWorkInProgressSubCauseCode,
reserved16 SubCauseCodeType,
adverseWeatherCondition-ExtremeWeatherCondition17 AdverseWeatherCondition-ExtremeWeatherConditionSubCauseCode,
adverseWeatherCondition-Visibility18 AdverseWeatherCondition-VisibilitySubCauseCode,
adverseWeatherCondition-Precipitation19 AdverseWeatherCondition-PrecipitationSubCauseCode,
violence20 SubCauseCodeType,
reserved21 SubCauseCodeType,
reserved22 SubCauseCodeType,
reserved23 SubCauseCodeType,
reserved24 SubCauseCodeType,
reserved25 SubCauseCodeType,
slowVehicle26 SlowVehicleSubCauseCode,
dangerousEndOfQueue27 DangerousEndOfQueueSubCauseCode,
reserved28 SubCauseCodeType,
reserved29 SubCauseCodeType,
reserved30 SubCauseCodeType,
reserved31 SubCauseCodeType,
reserved32 SubCauseCodeType,
reserved33 SubCauseCodeType,
reserved34 SubCauseCodeType,
reserved35 SubCauseCodeType,
reserved36 SubCauseCodeType,
reserved37 SubCauseCodeType,
reserved38 SubCauseCodeType,
reserved39 SubCauseCodeType,
reserved40 SubCauseCodeType,
reserved41 SubCauseCodeType,
reserved42 SubCauseCodeType,
reserved43 SubCauseCodeType,
reserved44 SubCauseCodeType,
reserved45 SubCauseCodeType,
reserved46 SubCauseCodeType,
reserved47 SubCauseCodeType,
reserved48 SubCauseCodeType,
reserved49 SubCauseCodeType,
reserved50 SubCauseCodeType,
reserved51 SubCauseCodeType,
reserved52 SubCauseCodeType,
reserved53 SubCauseCodeType,
reserved54 SubCauseCodeType,
reserved55 SubCauseCodeType,
reserved56 SubCauseCodeType,
reserved57 SubCauseCodeType,
reserved58 SubCauseCodeType,
reserved59 SubCauseCodeType,
reserved60 SubCauseCodeType,
reserved61 SubCauseCodeType,
reserved62 SubCauseCodeType,
reserved63 SubCauseCodeType,
reserved64 SubCauseCodeType,
reserved65 SubCauseCodeType,
reserved66 SubCauseCodeType,
reserved67 SubCauseCodeType,
reserved68 SubCauseCodeType,
reserved69 SubCauseCodeType,
reserved70 SubCauseCodeType,
reserved71 SubCauseCodeType,
reserved72 SubCauseCodeType,
reserved73 SubCauseCodeType,
reserved74 SubCauseCodeType,
reserved75 SubCauseCodeType,
reserved76 SubCauseCodeType,
reserved77 SubCauseCodeType,
reserved78 SubCauseCodeType,
reserved79 SubCauseCodeType,
reserved80 SubCauseCodeType,
reserved81 SubCauseCodeType,
reserved82 SubCauseCodeType,
reserved83 SubCauseCodeType,
reserved84 SubCauseCodeType,
reserved85 SubCauseCodeType,
reserved86 SubCauseCodeType,
reserved87 SubCauseCodeType,
reserved88 SubCauseCodeType,
reserved89 SubCauseCodeType,
reserved90 SubCauseCodeType,
vehicleBreakdown91 VehicleBreakdownSubCauseCode,
postCrash92 PostCrashSubCauseCode,
humanProblem93 HumanProblemSubCauseCode,
stationaryVehicle94 StationaryVehicleSubCauseCode,
emergencyVehicleApproaching95 EmergencyVehicleApproachingSubCauseCode,
hazardousLocation-DangerousCurve96 HazardousLocation-DangerousCurveSubCauseCode,
collisionRisk97 CollisionRiskSubCauseCode,
signalViolation98 SignalViolationSubCauseCode,
dangerousSituation99 DangerousSituationSubCauseCode,
railwayLevelCrossing100 RailwayLevelCrossingSubCauseCode,
reserved101 SubCauseCodeType,
reserved102 SubCauseCodeType,
reserved103 SubCauseCodeType,
reserved104 SubCauseCodeType,
reserved105 SubCauseCodeType,
reserved106 SubCauseCodeType,
reserved107 SubCauseCodeType,
reserved108 SubCauseCodeType,
reserved109 SubCauseCodeType,
reserved110 SubCauseCodeType,
reserved111 SubCauseCodeType,
reserved112 SubCauseCodeType,
reserved113 SubCauseCodeType,
reserved114 SubCauseCodeType,
reserved115 SubCauseCodeType,
reserved116 SubCauseCodeType,
reserved117 SubCauseCodeType,
reserved118 SubCauseCodeType,
reserved119 SubCauseCodeType,
reserved120 SubCauseCodeType,
reserved121 SubCauseCodeType,
reserved122 SubCauseCodeType,
reserved123 SubCauseCodeType,
reserved124 SubCauseCodeType,
reserved125 SubCauseCodeType,
reserved126 SubCauseCodeType,
reserved127 SubCauseCodeType,
reserved128 SubCauseCodeType
}
```
### CauseCodeV2
This DF is an alternative representation of the cause code value of a traffic event.
It shall include the following components:
* ccAndScc of type [**CauseCodeChoice**](#CauseCodeChoice)
the main cause of a detected event. Each entry is of a different type and represents the sub cause code.
The semantics of the entire DF are completely defined by the component causeCode. The interpretation of the subCauseCode may
provide additional information that is not strictly necessary to understand the causeCode itself, and is therefore optional.
**Categories:** Traffic information
**Revision:** _Created in V2.1.1_
```asn1
CauseCodeV2 ::= SEQUENCE {
ccAndScc CauseCodeChoice,
...
}
```
### CenDsrcTollingZone
The DF describes the position of a CEN DSRC road side equipment.
It shall include the following components:
* protectedZoneLatitude of type [**Latitude**](#Latitude)
the latitude of the CEN DSRC road side equipment.
* protectedZoneLongitude of type [**Longitude**](#Longitude)
the latitude of the CEN DSRC road side equipment.
* cenDsrcTollingZoneId of type [**ProtectedZoneId**](#ProtectedZoneId) OPTIONAL
**Categories:** Infrastructure information Communication information
**Revision:** _revised in V2.1.1 (cenDsrcTollingZoneId is directly of type ProtectedZoneId)_
```asn1
CenDsrcTollingZone ::= SEQUENCE {
protectedZoneLatitude Latitude,
protectedZoneLongitude Longitude,
cenDsrcTollingZoneId ProtectedZoneId OPTIONAL,
...
}
```
### CircularShape
This DF represents the shape of a circular area or a right cylinder that is centred on the shape?s reference point.
It shall include the following components:
* shapeReferencePoint of type [**CartesianPosition3d**](#CartesianPosition3d) OPTIONAL
optional reference point that represents the centre of the circle, relative to an externally specified reference position.
If this component is absent, the externally specified reference position represents the shape?s reference point.
* radius of type [**StandardLength12b**](#StandardLength12b)
the radius of the circular area.
* height of type [**StandardLength12b**](#StandardLength12b) OPTIONAL
the optional height, present if the shape is a right cylinder extending in the positive z-axis.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
CircularShape ::= SEQUENCE {
shapeReferencePoint CartesianPosition3d OPTIONAL,
radius StandardLength12b,
height StandardLength12b OPTIONAL
}
```
### ClosedLanes
This DF indicates the opening/closure status of the lanes of a carriageway.
It shall include the following components:
* innerhardShoulderStatus of type [**HardShoulderStatus**](#HardShoulderStatus) OPTIONAL
this information is optional and shall be included if an inner hard shoulder is present and the information is known.
It indicates the open/closing status of inner hard shoulder lanes.
* outerhardShoulderStatus of type [**HardShoulderStatus**](#HardShoulderStatus) OPTIONAL
this information is optional and shall be included if an outer hard shoulder is present and the information is known.
It indicates the open/closing status of outer hard shoulder lanes.
* drivingLaneStatus of type [**DrivingLaneStatus**](#DrivingLaneStatus) OPTIONAL
this information is optional and shall be included if the information is known.
It indicates the open/closing status of driving lanes.
For carriageways with more than 13 driving lanes, the drivingLaneStatus component shall not be present.
**Categories:** Infrastructure information Road topology information
**Revision:** _Description revised in V2.1.1_
```asn1
ClosedLanes ::= SEQUENCE {
innerhardShoulderStatus HardShoulderStatus OPTIONAL,
outerhardShoulderStatus HardShoulderStatus OPTIONAL,
drivingLaneStatus DrivingLaneStatus OPTIONAL,
...
}
```
### ClusterBreakupInfo
This DF provides information about the breakup of a cluster.
It shall include the following components:
* clusterBreakupReason of type [**ClusterBreakupReason**](#ClusterBreakupReason)
indicates the reason for breakup.
* breakupTime of type [**DeltaTimeQuarterSecond**](#DeltaTimeQuarterSecond)
indicates the time of breakup.
**Categories:** Cluster Information
**Revision:** _Created in V2.1.1_
```asn1
ClusterBreakupInfo ::= SEQUENCE {
clusterBreakupReason ClusterBreakupReason,
breakupTime DeltaTimeQuarterSecond,
...
}
```
### ClusterJoinInfo
This DF provides information about the joining of a cluster.
It shall include the following components:
* clusterId of type [**Identifier1B**](#Identifier1B)
indicates the identifier of the cluster.
* joinTime of type [**DeltaTimeQuarterSecond**](#DeltaTimeQuarterSecond)
indicates the time of joining.
**Categories:** Cluster Information
**Revision:** _Created in V2.1.1_
```asn1
ClusterJoinInfo ::= SEQUENCE {
clusterId Identifier1B,
joinTime DeltaTimeQuarterSecond,
...
}
```
### ClusterLeaveInfo
The DF provides information about the leaving of a cluster.
It shall include the following components:
* clusterId of type [**Identifier1B**](#Identifier1B)
indicates the cluster.
* clusterLeaveReason of type [**ClusterLeaveReason**](#ClusterLeaveReason)
indicates the reason for leaving.
**Categories:** Cluster Information
**Revision:** _Created in V2.1.1_
```asn1
ClusterLeaveInfo ::= SEQUENCE {
clusterId Identifier1B,
clusterLeaveReason ClusterLeaveReason,
...
}
```
### CorrelationColumn
This DF represents a column of a lower triangular positive semi-definite matrix and consists of a list of correlation cell values ordered by rows.
Given a matrix "A" of size n x n, the number of columns to be included in the lower triangular matrix is k=n-1.
Each column "i" of the lower triangular matrix then contains k-(i-1) values (ordered by rows from 1 to n-1), where "i" refers to the column number count
starting at 1 from the left.
**Categories:** Sensing Information
**Revision:** _Created in V2.1.1_
```asn1
CorrelationColumn ::= SEQUENCE SIZE (1..13,...) OF CorrelationCellValue
```
### Curvature
This DF represents the curvature of the vehicle trajectory and the associated confidence value.
The curvature detected by a vehicle represents the curvature of actual vehicle trajectory.
It shall include the following components:
* curvatureValue of type [**CurvatureValue**](#CurvatureValue)
Detected curvature of the vehicle trajectory.
* curvatureConfidence of type [**CurvatureConfidence**](#CurvatureConfidence)
along with a confidence value of the curvature value with a predefined confidence level.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
```asn1
Curvature ::= SEQUENCE {
curvatureValue CurvatureValue,
curvatureConfidence CurvatureConfidence
}
```
### DangerousGoodsExtended
This DF provides a description of dangerous goods being carried by a heavy vehicle.
It shall include the following components:
* dangerousGoodsType of type [**DangerousGoodsBasic**](#DangerousGoodsBasic)
Type of dangerous goods.
* unNumber of type **INTEGER** (0..9999)
a 4-digit number that identifies the substance of the dangerous goods as specified in
United Nations Recommendations on the Transport of Dangerous Goods - Model Regulations [i.4],
* elevatedTemperature of type **BOOLEAN**
whether the carried dangerous goods are transported at high temperature.
If yes, the value shall be set to TRUE,
* tunnelsRestricted of type **BOOLEAN**
whether the heavy vehicle carrying dangerous goods is restricted to enter tunnels.
If yes, the value shall be set to TRUE,
* limitedQuantity of type **BOOLEAN**
whether the carried dangerous goods are packed with limited quantity.
If yes, the value shall be set to TRUE,
* emergencyActionCode of type [**IA5String**](#IA5String) (SIZE (1..24)) OPTIONAL
physical signage placard at the vehicle that carries information on how an emergency
service should deal with an incident. This component is optional; it shall be present if the information is available.
* phoneNumber of type [**PhoneNumber**](#PhoneNumber) OPTIONAL
contact phone number of assistance service in case of incident or accident.
This component is optional, it shall be present if the information is available.
* companyName of type [**UTF8String**](#UTF8String) (SIZE (1..24)) OPTIONAL
name of company that manages the transportation of the dangerous goods.
This component is optional; it shall be present if the information is available.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
DangerousGoodsExtended ::= SEQUENCE {
dangerousGoodsType DangerousGoodsBasic,
unNumber INTEGER (0..9999),
elevatedTemperature BOOLEAN,
tunnelsRestricted BOOLEAN,
limitedQuantity BOOLEAN,
emergencyActionCode IA5String (SIZE (1..24)) OPTIONAL,
phoneNumber PhoneNumber OPTIONAL,
companyName UTF8String (SIZE (1..24)) OPTIONAL,
...
}
```
### DeltaReferencePosition
This DF defines a geographical point position as a 3 dimensional offset position to a geographical reference point.
It shall include the following components:
* deltaLatitude of type [**DeltaLatitude**](#DeltaLatitude)
A delta latitude offset with regards to the latitude value of the reference position.
* deltaLongitude of type [**DeltaLongitude**](#DeltaLongitude)
A delta longitude offset with regards to the longitude value of the reference position.
* deltaAltitude of type [**DeltaAltitude**](#DeltaAltitude)
A delta altitude offset with regards to the altitude value of the reference position.
**Categories:** GeoReference information
**Revision:** _V1.3.1_
```asn1
DeltaReferencePosition ::= SEQUENCE {
deltaLatitude DeltaLatitude,
deltaLongitude DeltaLongitude,
deltaAltitude DeltaAltitude
}
```
### DigitalMap
This DF represents a portion of digital map. It shall contain a list of waypoints [**ReferencePosition**](#ReferencePosition).
**Categories:** GeoReference information
**Revision:** _V1.3.1_
```asn1
DigitalMap ::= SEQUENCE (SIZE(1..256)) OF ReferencePosition
```
### EllipticalShape
This DF represents the shape of an elliptical area or right elliptical cylinder that is centred on the shape?s reference point.
It shall include the following components:
* shapeReferencePoint of type [**CartesianPosition3d**](#CartesianPosition3d) OPTIONAL
optional reference point which represents the centre of the ellipse, relative to an externally specified reference position.
If this component is absent, the externally specified reference position represents the shape?s reference point.
* semiMajorAxisLength of type [**StandardLength12b**](#StandardLength12b)
half length of the major axis of the ellipse.
* semiMinorAxisLength of type [**StandardLength12b**](#StandardLength12b)
half length of the minor axis of the ellipse.
* orientation of type [**Wgs84AngleValue**](#Wgs84AngleValue) OPTIONAL
the optional orientation of the major axis of the ellipse in the WGS84 coordinate system.
* height of type [**StandardLength12b**](#StandardLength12b) OPTIONAL
the optional height, present if the shape is a right elliptical cylinder extending in the positive z-axis.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
EllipticalShape ::= SEQUENCE {
shapeReferencePoint CartesianPosition3d OPTIONAL,
semiMajorAxisLength StandardLength12b,
semiMinorAxisLength StandardLength12b,
orientation Wgs84AngleValue OPTIONAL,
height StandardLength12b OPTIONAL
}
```
### EulerAnglesWithConfidence
This DF represents the Euler angles which describe the orientation of an object bounding box in a Cartesian coordinate system with an associated confidence level for each angle.
It shall include the following components:
* zAngle of type [**CartesianAngle**](#CartesianAngle)
z-angle of object bounding box at the time of measurement, with the associated confidence.
The angle is measured with positive values considering the object orientation turning around the z-axis using the right-hand rule, starting from the x-axis.
This extrinsic rotation shall be applied around the centre point of the object bounding box before all other rotations.
* yAngle of type [**CartesianAngle**](#CartesianAngle) OPTIONAL
optional y-angle of object bounding box at the time of measurement, with the associated confidence.
The angle is measured with positive values considering the object orientation turning around the y-axis using the right-hand rule, starting from the z-axis.
This extrinsic rotation shall be applied around the centre point of the object bounding box after the rotation by zAngle and before the rotation by xAngle.
* xAngle of type [**CartesianAngle**](#CartesianAngle) OPTIONAL
optional x-angle of object bounding box at the time of measurement, with the associated confidence.
The angle is measured with positive values considering the object orientation turning around the x-axis using the right-hand rule, starting from the z-axis.
This extrinsic rotation shall be applied around the centre point of the object bounding box after all other rotations.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
EulerAnglesWithConfidence ::= SEQUENCE {
zAngle CartesianAngle,
yAngle CartesianAngle OPTIONAL,
xAngle CartesianAngle OPTIONAL
}
```
### EuVehicleCategoryCode
This DF represents a vehicle category according to the UNECE/TRANS/WP.29/78/Rev.4 [i.16].
The following options are available:
* euVehicleCategoryL of type [**EuVehicleCategoryL**](#EuVehicleCategoryL)
indicates a vehicle in the L category.
* euVehicleCategoryM of type [**EuVehicleCategoryM**](#EuVehicleCategoryM)
indicates a vehicle in the M category.
* euVehicleCategoryN of type [**EuVehicleCategoryN**](#EuVehicleCategoryN)
indicates a vehicle in the N category.
* euVehicleCategoryO of type [**EuVehicleCategoryO**](#EuVehicleCategoryO)
indicates a vehicle in the O category.
* euVehicleCategoryT of type **NULL**
indicates a vehicle in the T category.
* euVehicleCategoryG of type **NULL**
indicates a vehicle in the G category.
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
EuVehicleCategoryCode ::= CHOICE {
euVehicleCategoryL EuVehicleCategoryL,
euVehicleCategoryM EuVehicleCategoryM,
euVehicleCategoryN EuVehicleCategoryN,
euVehicleCategoryO EuVehicleCategoryO,
euVehicleCategoryT NULL,
euVehicleCategoryG NULL
}
```
### EventHistory
The DF shall contain a list of [**EventPoint**](#EventPoint).
The eventPosition of each [**EventPoint**](#EventPoint) is defined with respect to the previous [**EventPoint**](#EventPoint) in the list.
Except for the first [**EventPoint**](#EventPoint) which is defined with respect to a position outside of the context of this DF.
**Categories:** GeoReference information Traffic information
**Revision:** _Generalized the semantics in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use the [**EventZone**](#EventZone) instead.
>>>
```asn1
EventHistory::= SEQUENCE (SIZE(1..23)) OF EventPoint
```
### EventPoint
This DF provides information related to an event at a defined position.
It shall include the following components:
* eventPosition of type [**DeltaReferencePosition**](#DeltaReferencePosition)
offset position of a detected event point to a defined position.
* eventDeltaTime of type [**PathDeltaTime**](#PathDeltaTime) OPTIONAL
optional time travelled by the detecting ITS-S since the previous detected event point.
* informationQuality of type [**InformationQuality**](#InformationQuality)
Information quality of the detection for this event point.
**Categories:** GeoReference information Traffic information
**Revision:** _generalized the semantics in V2.1.1_
```asn1
EventPoint ::= SEQUENCE {
eventPosition DeltaReferencePosition,
eventDeltaTime PathDeltaTime OPTIONAL,
informationQuality InformationQuality
}
```
### EventZone
The DF shall contain a list of [**EventPoint**](#EventPoint), where all [**EventPoint**](#EventPoint) either contain the COMPONENT eventDeltaTime
or do not contain the COMPONENT eventDeltaTime.
The eventPosition of each [**EventPoint**](#EventPoint) is defined with respect to the previous [**EventPoint**](#EventPoint) in the list.
Except for the first [**EventPoint**](#EventPoint) which is defined with respect to a position outside of the context of this DF.
**Categories:** GeoReference information Traffic information
**Revision:** _created in V2.1.1 based on EventHistory_
```asn1
EventZone::= EventHistory
((WITH COMPONENT (WITH COMPONENTS {..., eventDeltaTime PRESENT})) |
(WITH COMPONENT (WITH COMPONENTS {..., eventDeltaTime ABSENT})))
```
### GeneralizedLanePosition
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 Vehicle ITS-S would normally not be present.
The following options are available:
* trafficLanePosition of type [**LanePosition**](#LanePosition)
a position on a traffic lane.
* nonTrafficLanePosition of type [**LanePositionAndType**](#LanePositionAndType)
a position on a lane which is not a traffic lane.
* trafficIslandPosition of type [**TrafficIslandPosition**](#TrafficIslandPosition)
a position on a traffic island
* mapPosition of type [**MapPosition**](#MapPosition)
a position on a lane identified in a MAPEM.
**Categories:** Road Topology information
**Revision:** _created in V2.1.1_
```asn1
GeneralizedLanePosition::= CHOICE {
trafficLanePosition LanePosition,
nonTrafficLanePosition LanePositionAndType,
trafficIslandPosition TrafficIslandPosition,
mapPosition MapPosition,
...
}
```
### Heading
This DF represents the Heading in a WGS84 co-ordinates system.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
It shall include the following components:
* headingValue of type [**HeadingValue**](#HeadingValue)
the heading value.
* headingConfidence of type [**HeadingConfidence**](#HeadingConfidence)
the confidence value of the heading value with a predefined confidence level.
**Categories:** Kinematic Information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use the [**Wgs84Angle**](#Wgs84Angle) instead.
>>>
```asn1
Heading ::= SEQUENCE {
headingValue HeadingValue,
headingConfidence HeadingConfidence
}
```
### HeadingChangeIndication
This DF provides information associated to heading change indicators such as a change of direction.
It shall include the following components:
* direction of type [**TurningDirection**](#TurningDirection)
the direction of heading change value.
* actionDeltaTime of type [**DeltaTimeTenthOfSecond**](#DeltaTimeTenthOfSecond)
the period over which a direction change action is performed.
**Categories:** Kinematic Information
**Revision:** _created in V2.1.1_
```asn1
HeadingChangeIndication ::= SEQUENCE {
direction TurningDirection,
actionDeltaTime DeltaTimeTenthOfSecond,
...
}
```
### InterferenceManagementChannel
This DF represents a frequency channel
It shall include the following components:
* centreFrequency of type **INTEGER** (1 .. 99999)
the centre frequency of the channel in 10(exp+2) Hz (where exp is exponent)
* channelWidth of type **INTEGER** (0 .. 9999)
width of the channel in 10exp Hz (where exp is exponent)
* exponent of type **INTEGER** (0 .. 15)
exponent of the power of 10 used in the calculation of the components above.
**Categories:** Communication information
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementChannel ::= SEQUENCE {
centreFrequency INTEGER (1 .. 99999),
channelWidth INTEGER (0 .. 9999),
exponent INTEGER (0 .. 15)
}
```
### InterferenceManagementZone
This DF represents a zone inside which the ITS communication should be restricted in order to manage interference.
It shall include the following components:
* zoneDefinition of type [**InterferenceManagementZoneDefinition**](#InterferenceManagementZoneDefinition)
contains the geographical definition of the zone.
* managementInfo of type [**InterferenceManagementInfo**](#InterferenceManagementInfo)
contains interference management information applicable in the zone defined in the component zoneDefinition.
**Categories:** Communication information
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementZone ::= SEQUENCE {
zoneDefinition InterferenceManagementZoneDefinition,
managementInfo InterferenceManagementInfo
}
```
### InterferenceManagementZoneDefinition
This DF represents the geographical definition of the zone where band sharing occurs.
It shall include the following components:
* interferenceManagementZoneLatitude of type [**Latitude**](#Latitude)
Latitude of the centre point of the interference management zone.
* interferenceManagementZoneLongitude of type [**Longitude**](#Longitude)
Longitude of the centre point of the interference management zone.
* interferenceManagementZoneId of type [**ProtectedZoneId**](#ProtectedZoneId) OPTIONAL
optional identification of the interference management zone.
* interferenceManagementZoneShape of type [**Shape**](#Shape) (WITH COMPONENTS{..., radial ABSENT, radialShapes ABSENT}) OPTIONAL
shape of the interference management zone placed at the centre point.
**Categories:** Communication information
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementZoneDefinition::= SEQUENCE{
interferenceManagementZoneLatitude Latitude,
interferenceManagementZoneLongitude Longitude,
interferenceManagementZoneId ProtectedZoneId OPTIONAL,
interferenceManagementZoneShape Shape (WITH COMPONENTS{..., radial ABSENT, radialShapes ABSENT}) OPTIONAL,
...
}
```
### InterferenceManagementInfo
This DF shall contain a list of up to 16 definitions containing interference management information, per affected frequency channels.
**Categories:** Communication information.
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementInfo::= SEQUENCE (SIZE(1..16,...)) OF InterferenceManagementInfoPerChannel
```
### InterferenceManagementInfoPerChannel
This DF contains interference management information for one affected frequency channel.
It shall include the following components:
* interferenceManagementChannel of type [**InterferenceManagementChannel**](#InterferenceManagementChannel)
frequency channel for which the zone should be applied interference management
* interferenceManagementZoneType of type [**InterferenceManagementZoneType**](#InterferenceManagementZoneType)
type of the interference management zone.
* interferenceManagementMitigationType of type [**MitigationForTechnologies**](#MitigationForTechnologies) OPTIONAL
optional type of the mitigation to be used in the interference management zone.
In the case where no mitigation should be applied by the ITS-S, this is indicated by the field interferenceManagementMitigationType being absent.
* expiryTime of type [**TimestampIts**](#TimestampIts) OPTIONAL
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
**Categories:** Communication information
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementInfoPerChannel ::= SEQUENCE {
interferenceManagementChannel InterferenceManagementChannel,
interferenceManagementZoneType InterferenceManagementZoneType,
interferenceManagementMitigationType MitigationForTechnologies OPTIONAL,
expiryTime TimestampIts OPTIONAL,
...
}
```
### InterferenceManagementZones
This DF shall contain a list of up to 16 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.
**Categories:** Communication information
**Revision:** _created in V2.1.1_
```asn1
InterferenceManagementZones ::= SEQUENCE (SIZE(1..16), ...) OF InterferenceManagementZone
```
### IntersectionReferenceId
This DF represents a unique id for an intersection, in accordance with ETSI TS 103 301 [i.15].
It shall include the following components:
* region of type [**Identifier2B**](#Identifier2B) OPTIONAL
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 [**Id**](#Id) is unique within the region.
* id of type [**Identifier2B**](#Identifier2B)
the identifier of the intersection
**Categories:** Road topology information
**Revision:** _created in V2.1.1_
>>>
NOTE: when the component region is present, the IntersectionReferenceId is guaranteed to be globally unique.
>>>
```asn1
IntersectionReferenceId ::= SEQUENCE {
region Identifier2B OPTIONAL,
id Identifier2B
}
```
### ItineraryPath
This DF shall contain a list of waypoints [**ReferencePosition**](#ReferencePosition).
**Categories:** GeoReference information
**Revision:** _Editorial update in V2.1.1_
```asn1
ItineraryPath ::= SEQUENCE SIZE(1..40) OF ReferencePosition
```
### ItsPduHeader
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.
It shall include the following components:
* protocolVersion of type [**OrdinalNumber1B**](#OrdinalNumber1B)
version of the ITS message.
* messageId of type [**MessageId**](#MessageId)
type of the ITS message.
* stationId of type [**StationId**](#StationId)
the identifier of the ITS-S that generated the ITS message.
**Categories:** Communication information
**Revision:** _update in V2.1.1: messageID and stationID changed to messageId and stationId; messageId is of type MessageId._
```asn1
ItsPduHeader ::= SEQUENCE {
protocolVersion OrdinalNumber1B,
messageId MessageId,
stationId StationId
}
```
### LanePositionAndType
This DF indicates a transversal position in resolution of lanes and the associated lane type.
It shall include the following components:
* transversalPosition of type [**LanePosition**](#LanePosition)
the transversal position.
* laneType of type [**LaneType**](#LaneType)
the type of the lane identified in the component transversalPosition.
**Categories:** Road topology information
**Revision:** _Created in V2.1.1_
```asn1
LanePositionAndType::= SEQUENCE {
transversalPosition LanePosition,
laneType LaneType,
...
}
```
### LateralAcceleration
This DF indicates the vehicle acceleration at lateral direction and the confidence value of the lateral acceleration.
It shall include the following components:
* lateralAccelerationValue of type [**LateralAccelerationValue**](#LateralAccelerationValue)
lateral acceleration value at a point in time.
* lateralAccelerationConfidence of type [**AccelerationConfidence**](#AccelerationConfidence)
confidence value of the lateral acceleration value.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**AccelerationComponent**](#AccelerationComponent) instead.
>>>
```asn1
LateralAcceleration ::= SEQUENCE {
lateralAccelerationValue LateralAccelerationValue,
lateralAccelerationConfidence AccelerationConfidence
}
```
### LongitudinalAcceleration
This DF indicates the vehicle acceleration at longitudinal direction and the confidence value of the longitudinal acceleration.
It shall include the following components:
* longitudinalAccelerationValue of type [**LongitudinalAccelerationValue**](#LongitudinalAccelerationValue)
longitudinal acceleration value at a point in time.
* longitudinalAccelerationConfidence of type [**AccelerationConfidence**](#AccelerationConfidence)
confidence value of the longitudinal acceleration value.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**AccelerationComponent**](#AccelerationComponent) instead.
>>>
```asn1
LongitudinalAcceleration ::= SEQUENCE {
longitudinalAccelerationValue LongitudinalAccelerationValue,
longitudinalAccelerationConfidence AccelerationConfidence
}
```
### LongitudinalLanePosition
This DF represents the estimated position along the longitudinal length of a particular lane.
It shall include the following components:
* longitudinalLanePositionValue of type [**LongitudinalLanePositionValue**](#LongitudinalLanePositionValue)
the mean value of the longitudinal position within a particular length.
* longitudinalLanePositionConfidence of type [**LongitudinalLanePositionConfidence**](#LongitudinalLanePositionConfidence)
The confidence value associated to the value.
**Categories:** Road topology information
**Revision:** _created in V2.1.1_
```asn1
LongitudinalLanePosition ::= SEQUENCE {
longitudinalLanePositionValue LongitudinalLanePositionValue,
longitudinalLanePositionConfidence LongitudinalLanePositionConfidence
}
```
### LowerTriangularPositiveSemidefiniteMatrices
This DF shall contain a list of a lower triangular positive semi-definite matrices.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
LowerTriangularPositiveSemidefiniteMatrices::= SEQUENCE SIZE (1..4) OF LowerTriangularPositiveSemidefiniteMatrix
```
### LowerTriangularPositiveSemidefiniteMatrix
This DF represents a lower triangular positive semi-definite matrix.
It shall include the following components:
* componentsIncludedIntheMatrix of type [**MatrixIncludedComponents**](#MatrixIncludedComponents)
the indication of which components of a [**PerceivedObject**](#PerceivedObject) are included in the matrix.
This component also implicitly indicates the number n of included components which defines the size (n x n) of the full correlation matrix "A".
* matrix of type [**LowerTriangularPositiveSemidefiniteMatrixColumns**](#LowerTriangularPositiveSemidefiniteMatrixColumns)
the list of cells of the lower triangular positive semi-definite matrix ordered by columns and by rows.
The number of columns to be included "k" is equal to the number of included components "n" indicated by componentsIncludedIntheMatrix minus 1: k = n-1.
These components shall be included in the order or their appearance in componentsIncludedIntheMatrix.
Each column "i" of the lowerTriangularCorrelationMatrixColumns contains k-(i-1) values.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
LowerTriangularPositiveSemidefiniteMatrix ::= SEQUENCE{
componentsIncludedIntheMatrix MatrixIncludedComponents,
matrix LowerTriangularPositiveSemidefiniteMatrixColumns
}
```
### LowerTriangularPositiveSemidefiniteMatrixColumns
This DF represents the columns of a lower triangular positive semi-definite matrix, each column not including the main diagonal cell of the matrix.
Given a matrix "A" of size n x n, the number of [**CorrelationColumn**](#CorrelationColumn) to be included in the lower triangular matrix is k=n-1.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
LowerTriangularPositiveSemidefiniteMatrixColumns ::= SEQUENCE SIZE (1..13) OF CorrelationColumn
```
### MapPosition
This DF indicates a position on a topology description transmitted in a MAPEM according to ETSI TS 103 301 [i.15].
It shall include the following components:
* mapReference of type [**MapReference**](#MapReference) OPTIONAL
optionally identifies the MAPEM containing the topology information.
It is absent if the MAPEM topology is known from the context.
* laneId of type [**Identifier1B**](#Identifier1B) OPTIONAL
optionally identifies the lane in the road segment or intersection topology on which the position is located.
* connectionId of type [**Identifier1B**](#Identifier1B) OPTIONAL
optionally identifies the connection inside the conflict area of an intersection, i.e. it identifies a trajectory for travelling through the
conflict area of an intersection which connects e.g an ingress with an egress lane.
* longitudinalLanePosition of type [**LongitudinalLanePosition**](#LongitudinalLanePosition) OPTIONAL
optionally indicates the longitudinal offset of the map-matched position of the object along the lane or connection.
**Categories:** Road topology information
**Revision:** _Created in V2.1.1_
```asn1
MapPosition ::= SEQUENCE {
mapReference MapReference OPTIONAL,
laneId Identifier1B OPTIONAL,
connectionId Identifier1B OPTIONAL,
longitudinalLanePosition LongitudinalLanePosition OPTIONAL,
...
}
((WITH COMPONENTS {..., laneId PRESENT, connectionId ABSENT }) |
(WITH COMPONENTS {..., laneId ABSENT, connectionId PRESENT }))
```
### MapReference
This DF provides the reference to the information contained in a MAPEM according to ETSI TS 103 301 [i.15].
The following options are provided:
* roadsegment of type [**RoadSegmentReferenceId**](#RoadSegmentReferenceId)
option that identifies the description of a road segment contained in a MAPEM.
* intersection of type [**IntersectionReferenceId**](#IntersectionReferenceId)
option that identifies the description of an intersection contained in a MAPEM.
**Categories:** Road topology information
**Revision:** _Created in V2.1.1_
```asn1
MapReference::= CHOICE {
roadsegment RoadSegmentReferenceId,
intersection IntersectionReferenceId
}
```
### MessageRateHz
This DE indicates a message rate.
* mantissa of type **INTEGER** (1..100)
indicates the mantissa.
* exponent of type **INTEGER** (-5..2)
indicates the exponent.
The specified message rate is: mantissa*(10^exponent)
**Unit:** _Hz_
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
```asn1
MessageRateHz::= SEQUENCE {
mantissa INTEGER (1..100),
exponent INTEGER (-5..2)
}
```
### MessageSegmentationInfo
This DF provides information about a message with respect to the segmentation process at the sender.
It shall include the following components:
* totalMsgNo of type [**CardinalNumber3b**](#CardinalNumber3b)
indicates the total number of messages that has been used on the transmitter side to encode the information.
* thisMsgNo of type [**OrdinalNumber3b**](#OrdinalNumber3b)
indicates the position of the message within of the total set of messages.
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
```asn1
MessageSegmentationInfo ::= SEQUENCE {
totalMsgNo CardinalNumber3b,
thisMsgNo OrdinalNumber3b
}
```
### MitigationForTechnologies
This DF shall contain a list of [**MitigationPerTechnologyClass**](#MitigationPerTechnologyClass).
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
```asn1
MitigationForTechnologies ::= SEQUENCE (SIZE(1..8)) OF MitigationPerTechnologyClass
```
### MitigationPerTechnologyClass
This DF represents a set of mitigation parameters for a specific technology, as specified in ETSI TS 103 724 [i.24], clause 7.
It shall include the following components:
* accessTechnologyClass of type [**AccessTechnologyClass**](#AccessTechnologyClass)
channel access technology to which this mitigation is intended to be applied.
* lowDutyCycle of type **INTEGER** (0 .. 10000) OPTIONAL
duty cycle limit.
* powerReduction of type **INTEGER** (0 .. 30) OPTIONAL
the delta value of power to be reduced.
* dmcToffLimit of type **INTEGER** (0 .. 1200) OPTIONAL
idle time limit as defined in ETSI TS 103 175 [i.19].
* dmcTonLimit of type **INTEGER** (0 .. 20) OPTIONAL
Transmission duration limit, as defined in ETSI EN 302 571 [i.20].
**Unit:** _ms_
**Categories:** Communication information
**Revision:** _Created in V2.1.1_
>>>
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 [i.24], clause 7.
>>>
```asn1
MitigationPerTechnologyClass ::= SEQUENCE {
accessTechnologyClass AccessTechnologyClass,
lowDutyCycle INTEGER (0 .. 10000) OPTIONAL,
powerReduction INTEGER (0 .. 30) OPTIONAL,
dmcToffLimit INTEGER (0 .. 1200) OPTIONAL,
dmcTonLimit INTEGER (0 .. 20) OPTIONAL,
...
}
```
### ObjectClass
This DF indicates both the class and associated subclass that best describes an object.
The following options are available:
* vehicleSubClass of type [**TrafficParticipantType**](#TrafficParticipantType) (unknown|passengerCar..tram|agricultural)
the object is a road vehicle and the specific subclass is specified.
* vruSubClass of type [**VruProfileAndSubprofile**](#VruProfileAndSubprofile)
the object is a VRU and the specific subclass is specified.
* groupSubClass of type [**VruClusterInformation**](#VruClusterInformation) (WITH COMPONENTS{..., clusterBoundingBoxShape ABSENT})
the object is a VRU group or cluster and the cluster information is specified.
* otherSubClass of type [**OtherSubClass**](#OtherSubClass)
the object is of a different type than the above and the specific subclass is specified.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectClass ::= CHOICE {
vehicleSubClass TrafficParticipantType (unknown|passengerCar..tram|agricultural),
vruSubClass VruProfileAndSubprofile,
groupSubClass VruClusterInformation (WITH COMPONENTS{..., clusterBoundingBoxShape ABSENT}),
otherSubClass OtherSubClass,
...
}
```
### ObjectClassDescription
This DF shall contain a list of object classes.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectClassDescription ::= SEQUENCE (SIZE(1..8)) OF ObjectClassWithConfidence
```
### ObjectClassWithConfidence
This DF represents the classification of a detected object together with a confidence level.
It shall include the following components:
* objectClass of type [**ObjectClass**](#ObjectClass)
the class of the object.
* confidence of type [**ConfidenceLevel**](#ConfidenceLevel)
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectClassWithConfidence ::= SEQUENCE {
objectClass ObjectClass,
confidence ConfidenceLevel
}
```
### ObjectDimension
This DF represents a dimension of an object together with a confidence value.
It shall include the following components:
* value of type [**ObjectDimensionValue**](#ObjectDimensionValue)
the object dimension value which can be estimated as the mean of the current distribution.
* confidence of type [**ObjectDimensionConfidence**](#ObjectDimensionConfidence)
the associated confidence value.
**Categories:** Sensing information
**Revision:** _Created in V2.1.1_
```asn1
ObjectDimension ::= SEQUENCE {
value ObjectDimensionValue,
confidence ObjectDimensionConfidence
}
```
### Path
This DF represents a path with a set of path points.
It shall contain up to `40` [**PathPoint**](#PathPoint).
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.
**Categories:** GeoReference information Vehicle information
**Revision:** _created in V2.1.1 based on PathHistory_
```asn1
Path::= SEQUENCE (SIZE(0..40)) OF PathPoint
```
### PathHistory
This DF represents a path history with a set of path points.
It shall contain up to `40` [**PathPoint**](#PathPoint).
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.
**Categories:** GeoReference information Vehicle information
**Revision:** _semantics updated in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**Path**](#Path) instead.
>>>
```asn1
PathHistory::= SEQUENCE (SIZE(40)) OF PathPoint
```
### PathPredicted
This DF represents a predicted path with a set of path points.
It shall contain up to `15` [**PathPoint**](#PathPoint).
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.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1 based on PathHistory_
```asn1
PathPredicted::= SEQUENCE (SIZE(0..15,...)) OF PathPointPredicted
```
### PathPoint
This DF defines an offset waypoint position within a path.
It shall include the following components:
* pathPosition of type [**DeltaReferencePosition**](#DeltaReferencePosition)
The waypoint position defined as an offset position with regards to a pre-defined reference position.
* pathDeltaTime of type [**PathDeltaTime**](#PathDeltaTime) OPTIONAL
The optional travel time separated from a waypoint to the predefined reference position.
**Categories:** GeoReference information
**Revision:** _semantics updated in V2.1.1_
```asn1
PathPoint ::= SEQUENCE {
pathPosition DeltaReferencePosition,
pathDeltaTime PathDeltaTime OPTIONAL
}
```
### PathPointPredicted
This DF defines a predicted offset waypoint position within a path.
It shall include the following components:
* deltaLatitude of type [**DeltaLatitude**](#DeltaLatitude)
an offset latitude with regards to a pre-defined reference position.
* deltaLongitude of type [**DeltaLongitude**](#DeltaLongitude)
an offset longitude with regards to a pre-defined reference position.
* horizontalPositionConfidence of type [**PosConfidenceEllipse**](#PosConfidenceEllipse) OPTIONAL
the confidence value associated to the horizontal geographical position.
* deltaAltitude of type [**DeltaAltitude**](#DeltaAltitude) DEFAULT unavailable
an offset altitude with regards to a pre-defined reference position.
* altitudeConfidence of type [**AltitudeConfidence**](#AltitudeConfidence) DEFAULT unavailable
the confidence value associated to the altitude value of the geographical position.
* pathDeltaTime of type [**DeltaTimeTenthOfSecond**](#DeltaTimeTenthOfSecond)
The travel time separated from the waypoint to the predefined reference position.
**Categories:** GeoReference information
**Revision:** _semantics updated in V2.1.1_
```asn1
PathPointPredicted::= SEQUENCE {
deltaLatitude DeltaLatitude,
deltaLongitude DeltaLongitude,
horizontalPositionConfidence PosConfidenceEllipse OPTIONAL,
deltaAltitude DeltaAltitude DEFAULT unavailable,
altitudeConfidence AltitudeConfidence DEFAULT unavailable,
pathDeltaTime DeltaTimeTenthOfSecond,
...
}
```
### PerceivedObject
This DF contains information about a perceived object including its kinematic state and attitude vector in a pre-defined coordinate system and with respect to a reference time.
It shall include the following components:
* objectId of type [**Identifier2B**](#Identifier2B) OPTIONAL
optional identifier assigned to a detected object.
* measurementDeltaTime of type [**DeltaTimeMilliSecondSigned**](#DeltaTimeMilliSecondSigned)
the time difference from a reference time to the time of the measurement of the object.
Negative values indicate that the provided object state refers to a point in time before the reference time.
* position of type [**CartesianPosition3dWithConfidence**](#CartesianPosition3dWithConfidence)
the position of the geometric centre of the object?s bounding box within the pre-defined coordinate system.
* velocity of type [**Velocity3dWithConfidence**](#Velocity3dWithConfidence) OPTIONAL
the velocity vector of the object within the pre-defined coordinate system.
* acceleration of type [**Acceleration3dWithConfidence**](#Acceleration3dWithConfidence) OPTIONAL
the acceleration vector of the object within the pre-defined coordinate system.
* angles of type [**EulerAnglesWithConfidence**](#EulerAnglesWithConfidence) OPTIONAL
optional Euler angles of the object bounding box at the time of measurement.
* zAngularVelocity of type [**CartesianAngularVelocityComponent**](#CartesianAngularVelocityComponent) OPTIONAL
optional angular velocity of the object around the z-axis at the time of measurement.
The angular velocity is measured with positive values considering the object orientation turning around the z-axis using the right-hand rule.
* lowerTriangularCorrelationMatrices of type [**LowerTriangularPositiveSemidefiniteMatrices**](#LowerTriangularPositiveSemidefiniteMatrices) OPTIONAL
optional set of lower triangular correlation matrices for selected components of the provided kinematic state and attitude vector.
* objectDimensionZ of type [**ObjectDimension**](#ObjectDimension) OPTIONAL
optional z-dimension of object bounding box.
This dimension shall be measured along the direction of the z-axis after all the rotations have been applied.
* objectDimensionY of type [**ObjectDimension**](#ObjectDimension) OPTIONAL
optional y-dimension of the object bounding box.
This dimension shall be measured along the direction of the y-axis after all the rotations have been applied.
* objectDimensionX of type [**ObjectDimension**](#ObjectDimension) OPTIONAL
optional x-dimension of object bounding box.
This dimension shall be measured along the direction of the x-axis after all the rotations have been applied.
* objectAge of type [**DeltaTimeMilliSecondSigned**](#DeltaTimeMilliSecondSigned) (0..2047) OPTIONAL
optional 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.
* objectPerceptionQuality of type [**ObjectPerceptionQuality**](#ObjectPerceptionQuality) OPTIONAL
optional confidence associated to the object.
* sensorIdList of type [**SequenceOfIdentifier1B**](#SequenceOfIdentifier1B) OPTIONAL
optional list of sensor-IDs which provided the measurement data.
* classification of type [**ObjectClassDescription**](#ObjectClassDescription) OPTIONAL
optional classification of the described object
* mapPosition of type [**MapPosition**](#MapPosition) OPTIONAL
**Categories:** Sensing information
**Revision:** _created in V2.1.1_
```asn1
PerceivedObject ::= SEQUENCE {
objectId Identifier2B OPTIONAL,
measurementDeltaTime DeltaTimeMilliSecondSigned,
position CartesianPosition3dWithConfidence,
velocity Velocity3dWithConfidence OPTIONAL,
acceleration Acceleration3dWithConfidence OPTIONAL,
angles EulerAnglesWithConfidence OPTIONAL,
zAngularVelocity CartesianAngularVelocityComponent OPTIONAL,
lowerTriangularCorrelationMatrices LowerTriangularPositiveSemidefiniteMatrices OPTIONAL,
objectDimensionZ ObjectDimension OPTIONAL,
objectDimensionY ObjectDimension OPTIONAL,
objectDimensionX ObjectDimension OPTIONAL,
objectAge DeltaTimeMilliSecondSigned (0..2047) OPTIONAL,
objectPerceptionQuality ObjectPerceptionQuality OPTIONAL,
sensorIdList SequenceOfIdentifier1B OPTIONAL,
classification ObjectClassDescription OPTIONAL,
mapPosition MapPosition OPTIONAL,
...
}
```
### PolygonalShape
This DF represents the shape of a polygonal area or of a right prism.
It shall include the following components:
* shapeReferencePoint of type [**CartesianPosition3d**](#CartesianPosition3d) OPTIONAL
the optional reference point used for the definition of the shape, relative to an externally specified reference position.
If this component is absent, the externally specified reference position represents the shape?s reference point.
* polygon of type [**SequenceOfCartesianPosition3d**](#SequenceOfCartesianPosition3d) (SIZE(3..16,...))
the polygonal area represented by a list of minimum `3` to maximum `16` [**CartesianPosition3d**](#CartesianPosition3d).
All nodes of the polygon shall be considered relative to the shape?s reference point.
* height of type [**StandardLength12b**](#StandardLength12b) OPTIONAL
the optional height, present if the shape is a right prism extending in the positive z-axis.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1_
```asn1
PolygonalShape ::= SEQUENCE {
shapeReferencePoint CartesianPosition3d OPTIONAL,
polygon SequenceOfCartesianPosition3d (SIZE(3..16,...)),
height StandardLength12b OPTIONAL
}
```
### PosConfidenceEllipse
This DF indicates the horizontal position confidence ellipse which represents the estimated accuracy 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.
It shall include the following components:
* semiMajorConfidence of type [**SemiAxisLength**](#SemiAxisLength)
half of length of the major axis, i.e. distance between the centre point
and major axis point of the position accuracy ellipse.
* semiMinorConfidence of type [**SemiAxisLength**](#SemiAxisLength)
half of length of the minor axis, i.e. distance between the centre point
and minor axis point of the position accuracy ellipse.
* semiMajorOrientation of type [**HeadingValue**](#HeadingValue)
orientation direction of the ellipse major axis of the position accuracy
ellipse with regards to the WGS84 north.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
**Categories:** GeoReference information
**Revision:** _V1.3.1_
```asn1
PosConfidenceEllipse ::= SEQUENCE {
semiMajorConfidence SemiAxisLength,
semiMinorConfidence SemiAxisLength,
semiMajorOrientation HeadingValue
}
```
### PositionConfidenceEllipse
This DF indicates the horizontal position confidence ellipse which represents the estimated accuracy 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.
It shall include the following components:
* semiMajorAxisLength of type [**SemiAxisLength**](#SemiAxisLength)
half of length of the major axis, i.e. distance between the centre point
and major axis point of the position accuracy ellipse.
* semiMinorAxisLength of type [**SemiAxisLength**](#SemiAxisLength)
half of length of the minor axis, i.e. distance between the centre point
and minor axis point of the position accuracy ellipse.
* semiMajorAxisOrientation of type [**Wgs84AngleValue**](#Wgs84AngleValue)
orientation direction of the ellipse major axis of the position accuracy
ellipse with regards to the WGS84 north.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1 based on [**PosConfidenceEllipse**](#PosConfidenceEllipse)_
```asn1
PositionConfidenceEllipse ::= SEQUENCE {
semiMajorAxisLength SemiAxisLength,
semiMinorAxisLength SemiAxisLength,
semiMajorAxisOrientation Wgs84AngleValue
}
```
### PositionOfPillars
This DF shall contain a list of distances [**PosPillar**](#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.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
PositionOfPillars ::= SEQUENCE (SIZE(1..3, ...)) OF PosPillar
```
### ProtectedCommunicationZone
This DF describes a zone of protection inside which the ITS communication should be restricted.
It shall include the following components:
* protectedZoneType of type [**ProtectedZoneType**](#ProtectedZoneType)
type of the protected zone.
* expiryTime of type [**TimestampIts**](#TimestampIts) OPTIONAL
optional time at which the validity of the protected communication zone will expire.
* protectedZoneLatitude of type [**Latitude**](#Latitude)
latitude of the centre point of the protected communication zone.
* protectedZoneLongitude of type [**Longitude**](#Longitude)
longitude of the centre point of the protected communication zone.
* protectedZoneRadius of type [**ProtectedZoneRadius**](#ProtectedZoneRadius) OPTIONAL
optional radius of the protected communication zone in metres.
* protectedZoneId of type [**ProtectedZoneId**](#ProtectedZoneId) OPTIONAL
the optional ID of the protected communication zone.
**Categories:** Infrastructure information Communication information
**Revision:** _revised in V2.1.1 (changed protectedZoneID to protectedZoneId)_
>>>
NOTE: A protected communication zone may be defined around a CEN DSRC road side equipment.
>>>
```asn1
ProtectedCommunicationZone ::= SEQUENCE {
protectedZoneType ProtectedZoneType,
expiryTime TimestampIts OPTIONAL,
protectedZoneLatitude Latitude,
protectedZoneLongitude Longitude,
protectedZoneRadius ProtectedZoneRadius OPTIONAL,
protectedZoneId ProtectedZoneId OPTIONAL,
...
}
```
### ProtectedCommunicationZonesRSU
This DF shall contain a list of [**ProtectedCommunicationZone**](#ProtectedCommunicationZone) provided by a road side ITS-S (Road Side Unit RSU).
It may provide up to 16 protected communication zones information.
**Categories:** Infrastructure information Communication information
**Revision:** _V1.3.1_
```asn1
ProtectedCommunicationZonesRSU ::= SEQUENCE (SIZE(1..16)) OF ProtectedCommunicationZone
```
### PtActivation
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).
* ptActivationType of type [**PtActivationType**](#PtActivationType)
type of activation.
* ptActivationData of type [**PtActivationData**](#PtActivationData)
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 shall include information like route, course,
destination, priority, etc.
The R09.x content is defined in VDV recommendation 420 [i.7]. 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.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
PtActivation ::= SEQUENCE {
ptActivationType PtActivationType,
ptActivationData PtActivationData
}
```
### RadialShape
This DF describes a radial shape. The triangular or cone-shaped volume is
constructed by sweeping the provided range about 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 shall include the following components:
* shapeReferencePoint of type [**CartesianPosition3d**](#CartesianPosition3d) OPTIONAL
the optional reference point used for the definition of the shape, relative to an externally specified reference position.
If this component is absent, the externally specified reference position represents the shape?s reference point.
* range of type [**StandardLength12b**](#StandardLength12b)
the radial range of the shape from the shape?s reference point.
* stationaryHorizontalOpeningAngleStart of type [**Wgs84AngleValue**](#Wgs84AngleValue)
the orientation indicating the beginning of the
shape's horizontal opening angle in positive angular direction with respect to the
WGS84 coordinate system.
* stationaryHorizontalOpeningAngleEnd of type [**Wgs84AngleValue**](#Wgs84AngleValue)
The orientation indicating the end of the shape's
horizontal opening angle in positive angular direction with respect to the WGS84 coordinate system.
* verticalOpeningAngleStart of type [**CartesianAngleValue**](#CartesianAngleValue) OPTIONAL
optional orientation indicating the beginning of the shape`s
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.
* verticalOpeningAngleEnd of type [**CartesianAngleValue**](#CartesianAngleValue) OPTIONAL
optional orientation indicating the end of the shape's
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.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1_
```asn1
RadialShape ::= SEQUENCE {
shapeReferencePoint CartesianPosition3d OPTIONAL,
range StandardLength12b,
stationaryHorizontalOpeningAngleStart Wgs84AngleValue,
stationaryHorizontalOpeningAngleEnd Wgs84AngleValue,
verticalOpeningAngleStart CartesianAngleValue OPTIONAL,
verticalOpeningAngleEnd CartesianAngleValue OPTIONAL
}
```
### RadialShapes
This DF describes a list of radial shapes.
It shall include the following components:
* refPointId of type [**Identifier1B**](#Identifier1B)
the identification of the reference point in case of a sensor mounted to trailer. Defaults to ITS ReferencePoint (0).
* xCoordinate of type [**CartesianCoordinateSmall**](#CartesianCoordinateSmall)
the x-coordinate of the offset point.
* yCoordinate of type [**CartesianCoordinateSmall**](#CartesianCoordinateSmall)
the y-coordinate of the offset point.
* zCoordinate of type [**CartesianCoordinateSmall**](#CartesianCoordinateSmall) OPTIONAL
the optional z-coordinate of the offset point.
* radialShapesList of type [**RadialShapesList**](#RadialShapesList)
the list of radial shape details.
**Categories:** Georeference information
**Revision:** _created in V2.1.1_
```asn1
RadialShapes ::= SEQUENCE {
refPointId Identifier1B,
xCoordinate CartesianCoordinateSmall,
yCoordinate CartesianCoordinateSmall,
zCoordinate CartesianCoordinateSmall OPTIONAL,
radialShapesList RadialShapesList
}
```
### RadialShapesList
The DF contains a list of [**RadialShapeDetails**](#RadialShapeDetails).
**Categories:** Georeference information
**Revision:** _created in V2.1.1_
```asn1
RadialShapesList ::= SEQUENCE SIZE(1..16,...) OF RadialShapeDetails
```
### RadialShapeDetails
This DF describes a radial shape details. The triangular or cone-shaped volume is
constructed by sweeping the provided range about the reference point or about the offset
point (if provided) 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 shall include the following components:
* range of type [**StandardLength12b**](#StandardLength12b)
the radial range of the sensor from the reference point or sensor point offset.
* horizontalOpeningAngleStart of type [**CartesianAngleValue**](#CartesianAngleValue)
the orientation indicating the beginning of the
shape's horizontal opening angle in positive angular direction.
* horizontalOpeningAngleEnd of type [**CartesianAngleValue**](#CartesianAngleValue)
The orientation indicating the end of the shape's horizontal
opening angle in positive angular direction.
* verticalOpeningAngleStart of type [**CartesianAngleValue**](#CartesianAngleValue) OPTIONAL
optional orientation indicating the beginning of the shape's
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.
* verticalOpeningAngleEnd of type [**CartesianAngleValue**](#CartesianAngleValue) OPTIONAL
optional orientation indicating the end of the shape's
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.
**Categories:** Georeference information
**Revision:** _created in V2.1.1_
```asn1
RadialShapeDetails ::= SEQUENCE {
range StandardLength12b,
horizontalOpeningAngleStart CartesianAngleValue,
horizontalOpeningAngleEnd CartesianAngleValue,
verticalOpeningAngleStart CartesianAngleValue OPTIONAL,
verticalOpeningAngleEnd CartesianAngleValue OPTIONAL
}
```
### RectangularShape
This DF represents the shape of a rectangular area or a right rectangular prism that is centred on a reference position defined outside of the context of this DF.
It shall include the following components:
* centerPoint of type [**CartesianPosition3d**](#CartesianPosition3d) OPTIONAL
represents an optional offset point which the rectangle is centred on with respect to the reference position.
* semiLength of type [**StandardLength12b**](#StandardLength12b)
represents half the length of the rectangle.
* semiBreadth of type [**StandardLength12b**](#StandardLength12b)
represents half the breadth of the rectangle.
* orientation of type [**Wgs84AngleValue**](#Wgs84AngleValue) OPTIONAL
represents the optional orientation of the lenght of the rectangle in the WGS84 coordinate system.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
* height of type [**StandardLength12b**](#StandardLength12b) OPTIONAL
represents the optional height, present if the shape is a right rectangular prism with height extending in the positive z-axis.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1_
```asn1
RectangularShape ::= SEQUENCE {
centerPoint CartesianPosition3d OPTIONAL,
semiLength StandardLength12b,
semiBreadth StandardLength12b,
orientation Wgs84AngleValue OPTIONAL,
height StandardLength12b OPTIONAL
}
```
### ReferencePosition
A position within a geographic coordinate system together with a confidence ellipse.
It shall include the following components:
* latitude of type [**Latitude**](#Latitude)
the latitude of the geographical point.
* longitude of type [**Longitude**](#Longitude)
the longitude of the geographical point.
* positionConfidenceEllipse of type [**PosConfidenceEllipse**](#PosConfidenceEllipse)
the confidence ellipse associated to the geographical position.
* altitude of type [**Altitude**](#Altitude)
the altitude and an altitude accuracy of the geographical point.
**Categories:** GeoReference information
**Revision:** _description updated in V2.1.1_
>>>
NOTE: this DE is kept for backwards compatibility reasons only. It is recommended to use the [**ReferencePositionWithConfidence**](#ReferencePositionWithConfidence) instead.
>>>
```asn1
ReferencePosition ::= SEQUENCE {
latitude Latitude,
longitude Longitude,
positionConfidenceEllipse PosConfidenceEllipse,
altitude Altitude
}
```
### ReferencePositionWithConfidence
A position within a geographic coordinate system together with a confidence ellipse.
It shall include the following components:
* latitude of type [**Latitude**](#Latitude)
the latitude of the geographical point.
* longitude of type [**Longitude**](#Longitude)
the longitude of the geographical point.
* positionConfidenceEllipse of type [**PositionConfidenceEllipse**](#PositionConfidenceEllipse)
the confidence ellipse associated to the geographical position.
* altitude of type [**Altitude**](#Altitude)
the altitude and an altitude accuracy of the geographical point.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1 based on [**ReferencePosition**](#ReferencePosition) but using [**PositionConfidenceEllipse**](#PositionConfidenceEllipse)._
```asn1
ReferencePositionWithConfidence ::= SEQUENCE {
latitude Latitude,
longitude Longitude,
positionConfidenceEllipse PositionConfidenceEllipse,
altitude Altitude
}
```
### RestrictedTypes
This DF shall contain a list of [**StationType**](#StationType). to which a certain traffic restriction, e.g. the speed limit, applies.
**Categories:** Infrastructure information Traffic information
**Revision:** _V1.3.1_
```asn1
RestrictedTypes ::= SEQUENCE (SIZE(1..3, ...)) OF StationType
```
### RoadSegmentReferenceId
This DF represents a unique id for a road segment
It shall include the following components:
* region of type [**Identifier2B**](#Identifier2B) OPTIONAL
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 [**Id**](#Id) is unique within the region.
* id of type [**Identifier2B**](#Identifier2B)
the identifier of the road segment.
**Categories:** GeoReference information
**Revision:** _created in V2.1.1_
>>>
NOTE: when the component region is present, the RoadSegmentReferenceId is guaranteed to be globally unique.
>>>
```asn1
RoadSegmentReferenceId ::= SEQUENCE {
region Identifier2B OPTIONAL,
id Identifier2B
}
```
### SafeDistanceIndication
This DF provides the safe distance indication of a traffic participant with other traffic participant(s).
It shall include the following components:
* subjectStation of type [**StationId**](#StationId) OPTIONAL
optionally indicates one "other" traffic participant identified by its ITS-S.
* safeDistanceIndicator of type [**SafeDistanceIndicator**](#SafeDistanceIndicator)
indicates whether the distance between the ego ITS-S and the traffic participant(s) is safe.
If subjectStation is present then it indicates whether the distance between the ego ITS-S and the traffic participant indicated in the component subjectStation is safe.
* timeToCollision of type [**DeltaTimeTenthOfSecond**](#DeltaTimeTenthOfSecond) OPTIONAL
optionally indicated the time-to-collision calculated as sqrt(LaDi2 + LoDi2 + VDi2/relative speed
and represented in the nearest 100 ms. This component may be present only if subjectStation is present.
**Categories:** Traffic information Kinematic information
**Revision:** _created in V2.1.1_
>>>
NOTE: the abbreviations used are Lateral Distance (LaD), Longitudinal Distance (LoD) and Vertical Distance (VD)
and their respective thresholds, Minimum Safe Lateral Distance (MSLaD), Minimum Safe Longitudinal Distance (MSLoD), and Minimum Safe Vertical Distance (MSVD).
>>>
```asn1
SafeDistanceIndication ::= SEQUENCE {
subjectStation StationId OPTIONAL,
safeDistanceIndicator SafeDistanceIndicator,
timeToCollision DeltaTimeTenthOfSecond OPTIONAL,
...
}
```
### SequenceOfCartesianPosition3d
This DF shall contain a list of DF [**CartesianPosition3d**](#CartesianPosition3d).
**Categories:** GeoReference information
**Revision:** _created in V2.1.1_
```asn1
SequenceOfCartesianPosition3d ::= SEQUENCE (SIZE(1..16, ...)) OF CartesianPosition3d
```
### SequenceOfIdentifier1B
The DF contains a list of DE [**Identifier1B**](#Identifier1B).
**Categories:** Basic information
**Revision:** _created in V2.1.1_
```asn1
SequenceOfIdentifier1B ::= SEQUENCE SIZE(1..128, ...) OF Identifier1B
```
### SequenceOfSafeDistanceIndication
The DF contains a list of DF [**SafeDistanceIndication**](#SafeDistanceIndication).
**Categories:** Traffic information Kinematic information
**Revision:** _created in V2.1.1_
```asn1
SequenceOfSafeDistanceIndication ::= SEQUENCE(SIZE(1..8,...)) OF SafeDistanceIndication
```
### SequenceOfTrajectoryInterceptionIndication
The DF shall contain a list of DF [**TrajectoryInterceptionIndication**](#TrajectoryInterceptionIndication).
**Categories:** Traffic information Kinematic information
**Revision:** _created in V2.1.1_
```asn1
SequenceOfTrajectoryInterceptionIndication ::= SEQUENCE (SIZE(1..8,...)) OF TrajectoryInterceptionIndication
```
### Shape
This DF provides the definition of a geographical area or volume, based on different options.
It is a choice of the following components:
* rectangular of type [**RectangularShape**](#RectangularShape)
definition of an rectangular area or a right rectangular prism (with a rectangular base) also called a cuboid, or informally a rectangular box.
* circular of type [**CircularShape**](#CircularShape)
definition of an area of circular shape or a right circular cylinder.
* polygonal of type [**PolygonalShape**](#PolygonalShape)
definition of an area of polygonal shape or a right prism.
* elliptical of type [**EllipticalShape**](#EllipticalShape)
definition of an area of elliptical shape or a right elliptical cylinder.
* radial of type [**RadialShape**](#RadialShape)
definition of a radial shape.
* radialShapes of type [**RadialShapes**](#RadialShapes)
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
Shape::= CHOICE {
rectangular RectangularShape,
circular CircularShape,
polygonal PolygonalShape,
elliptical EllipticalShape,
radial RadialShape,
radialShapes RadialShapes,
...
}
```
### Speed
This DF represents the speed and associated confidence value.
It shall include the following components:
* speedValue of type [**SpeedValue**](#SpeedValue)
the speed value.
* speedConfidence of type [**SpeedConfidence**](#SpeedConfidence)
the confidence value of the speed value.
**Categories:** Kinematic information
**Revision:** _V1.3.1_
```asn1
Speed ::= SEQUENCE {
speedValue SpeedValue,
speedConfidence SpeedConfidence
}
```
### StabilityChangeIndication
This DF provides the indication of change in stability.
It shall include the following components:
* lossProbability of type [**StabilityLossProbability**](#StabilityLossProbability)
the probability of stability loss.
* actionDeltaTime of type [**DeltaTimeTenthOfSecond**](#DeltaTimeTenthOfSecond)
the period over which the the probability of stability loss is estimated.
**Categories:** Kinematic information
**Revision:** _V2.1.1_
```asn1
StabilityChangeIndication ::= SEQUENCE {
lossProbability StabilityLossProbability,
actionDeltaTime DeltaTimeTenthOfSecond,
...
}
```
### SteeringWheelAngle
This DF represents the steering wheel angle of the vehicle at certain point in time.
It shall include the following components:
* steeringWheelAngleValue of type [**SteeringWheelAngleValue**](#SteeringWheelAngleValue)
steering wheel angle value.
* steeringWheelAngleConfidence of type [**SteeringWheelAngleConfidence**](#SteeringWheelAngleConfidence)
confidence value of the steering wheel angle value.
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
SteeringWheelAngle ::= SEQUENCE {
steeringWheelAngleValue SteeringWheelAngleValue,
steeringWheelAngleConfidence SteeringWheelAngleConfidence
}
```
### Traces
This DF represents one or more paths using [**PathHistory**](#PathHistory).
**Categories:** GeoReference information
**Revision:** _Description revised in V2.1.1. Is is now based on Path and not on PathHistory_
```asn1
Traces ::= SEQUENCE SIZE(1..7) OF Path
```
### TrafficIslandPosition
Ths DF represents the a position on a traffic island between two lanes.
It shall include the following components:
* oneSide of type [**LanePositionAndType**](#LanePositionAndType)
represents one lane.
* otherSide of type [**LanePositionAndType**](#LanePositionAndType)
represents the other lane.
**Categories:** Road Topology information
**Revision:** _Created in V2.1.1_
```asn1
TrafficIslandPosition ::= SEQUENCE {
oneSide LanePositionAndType,
otherSide LanePositionAndType,
...
}
```
### TrailerData
This DF provides detailed information about an attached trailer.
It shall include the following components:
* refPointId of type [**Identifier1B**](#Identifier1B)
identifier of the reference point of the trailer.
* hitchPointOffset of type [**StandardLength1B**](#StandardLength1B)
optional position of the hitch point in negative x-direction (according to ISO 8855) from the
vehicle Reference Point.
* frontOverhang of type [**StandardLength1B**](#StandardLength1B) OPTIONAL
optional length of the trailer overhang in the positive x direction (according to ISO 8855) from the
trailer Reference Point indicated by the refPointID. The value defaults to 0 in case the trailer
is not overhanging to the front with respect to the trailer reference point.
* rearOverhang of type [**StandardLength1B**](#StandardLength1B) OPTIONAL
optional length of the trailer overhang in the negative x direction (according to ISO 8855) from the
trailer Reference Point indicated by the refPointID.
* trailerWidth of type [**VehicleWidth**](#VehicleWidth) OPTIONAL
optional width of the trailer.
* hitchAngle of type [**CartesianAngle**](#CartesianAngle)
optional Value and confidence value of the angle between the trailer orientation (corresponding to the x
direction of the ISO 8855 [2] coordinate system centered on the trailer) and the direction of
the segment having as end points the reference point of the trailer and the reference point of
the pulling vehicle, which can be another trailer or a vehicle looking on the horizontal plane
xy, described in the local Cartesian coordinate system of the trailer. The
angle is measured with negative values considering the trailer orientation turning clockwise
starting from the segment direction. The angle value accuracy is provided with the
confidence level of 95 %.
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
TrailerData ::= SEQUENCE {
refPointId Identifier1B,
hitchPointOffset StandardLength1B,
frontOverhang StandardLength1B OPTIONAL,
rearOverhang StandardLength1B OPTIONAL,
trailerWidth VehicleWidth OPTIONAL,
hitchAngle CartesianAngle,
...
}
```
### TrajectoryInterceptionIndication
This DF provides the trajectory interception indication of ego-VRU ITS-S with another ITS-Ss.
It shall include the following components:
* subjectStation of type [**StationId**](#StationId) OPTIONAL
indicates the subject station.
* trajectoryInterceptionProbability of type [**TrajectoryInterceptionProbability**](#TrajectoryInterceptionProbability)
indicates the propbability of the interception of the subject station trajectory
with the trajectory of the station indicated in the component subjectStation.
* trajectoryInterceptionConfidence of type [**TrajectoryInterceptionConfidence**](#TrajectoryInterceptionConfidence) OPTIONAL
indicates the confidence of interception of the subject station trajectory
with the trajectory of the station indicated in the component subjectStation.
**Categories:** Vehicle information
**Revision:** _Created in V2.1.1_
```asn1
TrajectoryInterceptionIndication ::= SEQUENCE {
subjectStation StationId OPTIONAL,
trajectoryInterceptionProbability TrajectoryInterceptionProbability,
trajectoryInterceptionConfidence TrajectoryInterceptionConfidence OPTIONAL,
...
}
```
### VarLengthNumber
This DF together with its sub DFs Ext1, Ext2 and the DE Ext3 provides the custom (i.e. not ASN.1 standard) definition of an integer with variable lenght, that can be used for example to encode the ITS-AID.
**Categories:** Basic information
**Revision:** _Created in V2.1.1_
```asn1
VarLengthNumber::=CHOICE{
content [0] INTEGER(0..127),
extension [1] Ext1
}
Ext1::=CHOICE{
content [0] INTEGER(128..16511),
extension [1] Ext2
}
Ext2::=CHOICE{
content [0] INTEGER(16512..2113663),
extension [1] Ext3
}
Ext3::= INTEGER(2113664..270549119,...)
```
### VerticalAcceleration
This DF indicates the vehicle acceleration at vertical direction and the associated confidence value.
It shall include the following components:
* verticalAccelerationValue of type [**VerticalAccelerationValue**](#VerticalAccelerationValue)
vertical acceleration value at a point in time.
* verticalAccelerationConfidence of type [**AccelerationConfidence**](#AccelerationConfidence)
confidence value of the vertical acceleration value with a predefined confidence level.
**Categories:** Vehicle information
**Revision:** _Description revised in V2.1.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**AccelerationComponent**](#AccelerationComponent) instead.
>>>
```asn1
VerticalAcceleration ::= SEQUENCE {
verticalAccelerationValue VerticalAccelerationValue,
verticalAccelerationConfidence AccelerationConfidence
}
```
### VehicleIdentification
This DF provides information related to the identification of a vehicle.
It shall include the following components:
* wMInumber of type [**WMInumber**](#WMInumber) OPTIONAL
World Manufacturer Identifier (WMI) code.
* vDS of type [**VDS**](#VDS) OPTIONAL
Vehicle Descriptor Section (VDS).
**Categories:** Vehicle information
**Revision:** _V1.3.1_
```asn1
VehicleIdentification ::= SEQUENCE {
wMInumber WMInumber OPTIONAL,
vDS VDS OPTIONAL,
...
}
```
### VehicleLength
This DF represents the length of vehicle and accuracy indication information.
It shall include the following components:
* vehicleLengthValue of type [**VehicleLengthValue**](#VehicleLengthValue)
length of vehicle.
* vehicleLengthConfidenceIndication of type [**VehicleLengthConfidenceIndication**](#VehicleLengthConfidenceIndication)
indication of the length value confidence.
**Categories:** Vehicle information
**Revision:** _V1.3.1_
>>>
NOTE: this DF is kept for backwards compatibility reasons only. It is recommended to use [**VehicleLengthV2**](#VehicleLengthV2) instead.
>>>
```asn1
VehicleLength ::= SEQUENCE {
vehicleLengthValue VehicleLengthValue,
vehicleLengthConfidenceIndication VehicleLengthConfidenceIndication
}
```
### VehicleLengthV2
This DF represents the length of vehicle and accuracy indication information.
It shall include the following components:
* vehicleLengthValue of type [**VehicleLengthValue**](#VehicleLengthValue)
length of vehicle.
* trailerPresenceInformation of type [**TrailerPresenceInformation**](#TrailerPresenceInformation)
information about the trailer presence.
**Categories:** Vehicle information
**Revision:** _created in V2.1.1 based on [**VehicleLength**](#VehicleLength) but using [**TrailerPresenceInformation**](#TrailerPresenceInformation)._
```asn1
VehicleLengthV2 ::= SEQUENCE {
vehicleLengthValue VehicleLengthValue,
trailerPresenceInformation TrailerPresenceInformation
}
```
### Velocity3dWithConfidence
This DF represents a velocity vector with associated confidence value.
The following options are available:
* polarVelocity of type [**VelocityPolarWithZ**](#VelocityPolarWithZ)
the representation of the velocity vector in a polar or cylindrical coordinate system.
* cartesianVelocity of type [**VelocityCartesian**](#VelocityCartesian)
the representation of the velocity vector in a cartesian coordinate system.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
Velocity3dWithConfidence::= CHOICE{
polarVelocity VelocityPolarWithZ,
cartesianVelocity VelocityCartesian
}
```
### VelocityCartesian
This DF represents a velocity vector in a cartesian coordinate system.
It shall include the following components:
* xVelocity of type [**VelocityComponent**](#VelocityComponent)
the x component of the velocity vector with the associated confidence value.
* yVelocity of type [**VelocityComponent**](#VelocityComponent)
the y component of the velocity vector with the associated confidence value.
* zVelocity of type [**VelocityComponent**](#VelocityComponent) OPTIONAL
the optional z component of the velocity vector with the associated confidence value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
VelocityCartesian::= SEQUENCE {
xVelocity VelocityComponent,
yVelocity VelocityComponent,
zVelocity VelocityComponent OPTIONAL
}
```
### VelocityComponent
This DF represents a component of the velocity vector and the associated confidence value.
It shall include the following components:
* value of type [**VelocityComponentValue**](#VelocityComponentValue)
the value of the component.
* confidence of type [**SpeedConfidence**](#SpeedConfidence)
the confidence value of the value.
**Categories:** Kinematic information
**Revision:** _V2.1.1_
```asn1
VelocityComponent ::= SEQUENCE {
value VelocityComponentValue,
confidence SpeedConfidence
}
```
### VelocityPolarWithZ
This DF represents a velocity vector in a polar or cylindrical coordinate system.
It shall include the following components:
* velocityMagnitude of type [**Speed**](#Speed)
magnitude of the velocity vector on the reference plane, with the associated confidence value.
* velocityDirection of type [**CartesianAngle**](#CartesianAngle)
polar angle of the velocity vector on the reference plane, with the associated confidence value.
* zVelocity of type [**VelocityComponent**](#VelocityComponent) OPTIONAL
the optional z component of the velocity vector along the reference axis of the cylindrical coordinate system, with the associated confidence value.
**Categories:** Kinematic information
**Revision:** _Created in V2.1.1_
```asn1
VelocityPolarWithZ::= SEQUENCE {
velocityMagnitude Speed,
velocityDirection CartesianAngle,
zVelocity VelocityComponent OPTIONAL
}
```
### VruClusterInformation
This DF provides information about a VRU cluster.
It shall include the following components:
* clusterId of type [**Identifier1B**](#Identifier1B) OPTIONAL
optional identifier of a VRU cluster .
* clusterBoundingBoxShape of type [**Shape**](#Shape) (WITH COMPONENTS{..., elliptical ABSENT, radial ABSENT, radialShapes ABSENT}) OPTIONAL
optionally indicates the shape of the cluster bounding box.
* clusterCardinalitySize of type [**CardinalNumber1B**](#CardinalNumber1B)
indicates an estimation of the number of VRUs in the group, i.e. the known members in the cluster + 1 (for the cluster leader) .
* clusterProfiles of type [**VruClusterProfiles**](#VruClusterProfiles) OPTIONAL
optionally identifies all the VRU profile types that are known to be within the cluster.
if this component is absent it means that the information is unavailable.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruClusterInformation ::= SEQUENCE {
clusterId Identifier1B OPTIONAL,
clusterBoundingBoxShape Shape (WITH COMPONENTS{..., elliptical ABSENT, radial ABSENT, radialShapes ABSENT}) OPTIONAL,
clusterCardinalitySize CardinalNumber1B,
clusterProfiles VruClusterProfiles OPTIONAL,
...
}
```
### VruExteriorLights
This DF represents the status of the exterior light switches of a VRU.
This DF is an extension of the vehicular DE [**ExteriorLights**](#ExteriorLights).
It shall include the following components:
* vehicular of type [**ExteriorLights**](#ExteriorLights)
represents the status of the exterior light switches of a road vehicle.
* vruSpecific of type [**VruSpecificExteriorLights**](#VruSpecificExteriorLights)
represents the status of the exterior light switches of a VRU.
**Categories:** VRU information
**Revision:** _created in V2.1.1_
```asn1
VruExteriorLights ::= SEQUENCE {
vehicular ExteriorLights,
vruSpecific VruSpecificExteriorLights,
...
}
```
### VruProfileAndSubprofile
This DF indicates the profile of a VRU including sub-profile information
It identifies four options corresponding to the four types of VRU profiles specified in ETSI TS 103 300-2 [i.18]:
* pedestrian of type [**VruSubProfilePedestrian**](#VruSubProfilePedestrian)
VRU Profile 1 - Pedestrian.
* bicyclistAndLightVruVehicle of type [**VruSubProfileBicyclist**](#VruSubProfileBicyclist)
VRU Profile 2 - Bicyclist.
* motorcyclist of type [**VruSubProfileMotorcyclist**](#VruSubProfileMotorcyclist)
VRU Profile 3 - Motorcyclist.
* animal of type [**VruSubProfileAnimal**](#VruSubProfileAnimal)
VRU Profile 4 - Animal.
**Categories:** VRU information
**Revision:** _Created in V2.1.1_
```asn1
VruProfileAndSubprofile ::= CHOICE {
pedestrian VruSubProfilePedestrian,
bicyclistAndLightVruVehicle VruSubProfileBicyclist,
motorcyclist VruSubProfileMotorcyclist,
animal VruSubProfileAnimal,
...
}
```
### Wgs84Angle
This DF represents an angular component along with a confidence value in the WGS84 coordinate system.
The specific WGS84 coordinate system is specified by the corresponding standards applying this DE.
It shall include the following components:
* value of type [**Wgs84AngleValue**](#Wgs84AngleValue)
the angle value, which can be estimated as the mean of the current distribution.
* confidence of type [**Wgs84AngleConfidence**](#Wgs84AngleConfidence)
the confidence value associated to the angle value.
**Categories:** GeoReference information
**Revision:** _Created in V2.1.1_
```asn1
Wgs84Angle ::= SEQUENCE {
value Wgs84AngleValue,
confidence Wgs84AngleConfidence
}
```
### YawRate
This DF represents a yaw rate of vehicle at a point in time.
It shall include the following components:
* yawRateValue of type [**YawRateValue**](#YawRateValue)
yaw rate value at a point in time.
* yawRateConfidence of type [**YawRateConfidence**](#YawRateConfidence)
confidence value associated to the yaw rate value.
**Categories:** Vehicle Information
**Revision:** _V1.3.1_
```asn1
YawRate::= SEQUENCE {
yawRateValue YawRateValue,
yawRateConfidence YawRateConfidence
}
```