ITS Roadway Equipment --> Other ITS Roadway Equipment:
dynamic sign coordination
This triple is bi-directional. See also
Other ITS Roadway Equipment --> ITS Roadway Equipment: dynamic sign coordination
Definitions
dynamic sign coordination (Information Flow): The direct flow of information between field equipment. This includes information used to initialize, configure, and control dynamic message signs. This flow can provide message content and delivery attributes, local message store maintenance requests, control mode commands, status queries, and all other commands and associated parameters that support local management of these devices. Current operating status of dynamic message signs is returned.
ITS Roadway Equipment (Source Physical Object): 'ITS Roadway Equipment' represents the ITS equipment that is distributed on and along the roadway that monitors and controls traffic and monitors and manages the roadway. This physical object includes traffic detectors, environmental sensors, traffic signals, highway advisory radios, dynamic message signs, CCTV cameras and video image processing systems, grade crossing warning systems, and ramp metering systems. Lane management systems and barrier systems that control access to transportation infrastructure such as roadways, bridges and tunnels are also included. This object also provides environmental monitoring including sensors that measure road conditions, surface weather, and vehicle emissions. Work zone systems including work zone surveillance, traffic control, driver warning, and work crew safety systems are also included.
Other ITS Roadway Equipment (Destination Physical Object): Representing another set of ITS Roadway Equipment, 'Other ITS Roadway Equipment' supports 'field device' to 'field device' communication and coordination, and provides a source and destination for information that may be exchanged between ITS Roadway Equipment. The interface enables direct coordination between field equipment. Examples include the direct interface between sensors and other roadway devices (e.g., Dynamic Message Signs) and the direct interface between roadway devices (e.g., between a Signal System Master and Signal System Local equipment) or a connection between an arterial signal system master and a ramp meter controller.
Included In
This Triple is in the following Service Packages:
- MC03: Roadway Automated Treatment
- TM05: Traffic Metering
- TM06: Traffic Information Dissemination
- TM19: Roadway Closure Management
- TM20: Variable Speed Limits
- TM22: Dynamic Lane Management and Shoulder Use
- TM24: Tunnel Management
- TM25: Wrong Way Vehicle Detection and Warning
This triple is associated with the following Functional Objects:
This Triple is described by the following Functional View Data Flows:
- tors-dms_control_data
- tors-dms_status
- tors-roadway_info_data_from_devices
- tors-roadway_info_data_from_sensors
This Triple has the following triple relationships:
Relationship | Source | Destination | Flow |
---|---|---|---|
Request-Response | Other ITS Roadway Equipment | ITS Roadway Equipment | dynamic sign coordination |
Communication Solutions
- US: NTCIP Message Sign - SNMPv3/TLS (5)
- US: NTCIP Message Sign - SNMPv1/TLS (6)
- US: NTCIP Message Sign - SNMPv1 (32)
- (None-Data) - Secure Internet (ITS) (43)
Selected Solution
Solution Description
ITS Application Entity
NTCIP 1203 |
Click gap icons for more info.
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Mgmt
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Facilities
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Security
IETF RFC 8446 |
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TransNet
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Access
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Note that some layers might have alternatives, in which case all of the gap icons associated with every alternative may be shown on the diagram, but the solution severity calculations (and resulting ordering of solutions) includes only the issues associated with the default (i.e., best, least severe) alternative.
Characteristics
Characteristic | Value |
---|---|
Time Context | Recent |
Spatial Context | Adjacent |
Acknowledgement | True |
Cardinality | Unicast |
Initiator | Source |
Authenticable | True |
Encrypt | True |
Interoperability | Description |
---|---|
Local | In cases where an interface is normally encapsulated by a single stakeholder, interoperability is still desirable, but the motive is vendor independence and the efficiencies and choices that an open standards-based interface provides. |
Security
Information Flow Security | ||||
---|---|---|---|---|
Confidentiality | Integrity | Availability | ||
Rating | Moderate | Moderate | Moderate | |
Basis | Any control flow has some confidentiality requirement, as observation of the flow may enable an attacker to analyze and learn how to assume control. MODERATE for most flows as the potential damage is likely contained, though anything that could have a significant safety impact may be assigned HIGH. | Since this directly impacts device control, we consider it the same as a control flow. Control flows, even for seemingly innocent devices, should have MODERATE integrity at minimum, just to guarantee that intended control messages are received. Incorrect, corrupted, intercepted and modified control messages can or will result in target field devices not behaving according to operator intent. The severity of this depends on the type of device, which is why some devices are set MODERATE and some HIGH. | Since this directly impacts device control, we consider it the same as a control flow. Control flow availability is related to the criticality of being able to remotely control the device. For most devices, this is MODERATE. For purely passive devices with no incident relationship, this will be LOW. All devices should have default modes that enable them to operate without backhaul connectivity, so no device warrants a HIGH. |
Security Characteristics | Value |
---|---|
Authenticable | True |
Encrypt | True |