METR System --> Maint and Constr Management Center:
METR coordination

This triple is bi-directional. See also Maint and Constr Management Center --> METR System: METR coordination

Definitions

METR coordination (Information Flow): This flow supports the free form exchange of messages, information or data enabling METR components to raise awareness and foster resolution to overlaps, discrepancies or issues that impact METR's mission to provide trustworthy information to METR users. Also used to resolve interpretation and consistency issues.

METR System (Source Physical Object): The 'METR System' creates and maintains electronic versions of traffic rules, regulations, ordinances and statutes that have official status and must be understood by all motor vehicle operators and intelligent vehicles that operate at higher automation levels. This system represents multiple authorities that operate at local, regional, state, and national levels and represents organizations that establish, manage, and enact the traffic code. Each electronic rule is approved, signed, and traceable to a specific rule-maker. Rules are independently verified. Any identified or reported rule discrepancies are analyzed, investigated, and addressed.

Maint and Constr Management Center (Destination Physical Object): The 'Maint and Constr Management Center' monitors and manages roadway infrastructure construction and maintenance activities. Representing both public agencies and private contractors that provide these functions, this physical object manages fleets of maintenance, construction, or special service vehicles (e.g., snow and ice control equipment). The physical object receives a wide range of status information from these vehicles and performs vehicle dispatch, routing, and resource management for the vehicle fleets and associated equipment. The physical object participates in incident response by deploying maintenance and construction resources to an incident scene, in coordination with other center physical objects. The physical object manages equipment at the roadside, including environmental sensors and automated systems that monitor and mitigate adverse road and surface weather conditions. It manages the repair and maintenance of both non-ITS and ITS equipment including the traffic controllers, detectors, dynamic message signs, signals, and other equipment associated with the roadway infrastructure. Weather information is collected and fused with other data sources and used to support advanced decision support systems.

The physical object remotely monitors and manages ITS capabilities in work zones, gathering, storing, and disseminating work zone information to other systems. It manages traffic in the vicinity of the work zone and advises drivers of work zone status (either directly at the roadside or through an interface with the Transportation Information Center or Traffic Management Center physical objects.)

Construction and maintenance activities are tracked and coordinated with other systems, improving the quality and accuracy of information available regarding closures and other roadway construction and maintenance activities.

Included In

This Triple is in the following Service Packages:

This Triple is described by the following Functional View Functional Objects:

This Triple is described by the following Functional View Data Flows:

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This Triple has the following triple relationships:

None

Communication Solutions

Solutions are sorted in ascending Gap Severity order. The Gap Severity is the parenthetical number at the end of the solution.

Selected Solution

METR: Regulation Requirements - Secure Internet (ITS)

Solution Description

This solution is used within the E.U. and the U.S.. It combines standards associated with METR: Regulation Requirements with those for I-I: Secure Internet (ITS). The METR: Regulation Requirements standards include upper-layer standards required to exchange traffic regulations with a regulatory center. The I-I: Secure Internet (ITS) standards include lower-layer standards that support secure communications between ITS equipment using X.509 or IEEE 1609.2 security certificates.

ITS Application Entity
Mind the gapMind the gap

ISO 24315-4
ISO 24315-8
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Mgmt
Facilities
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Security
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TransNet
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 Regional
Acknowledgement True
Cardinality Unicast
Initiator Source
Authenticable True
Encrypt True


Interoperability Description
Regional Interoperability throughout the geopolitical region is highly desirable, but if implemented differently in different transportation management jurisdictions, significant benefits will still accrue in each jurisdiction. Regardless, this Information Flow Triple should be implemented consistently within a transportation jurisdiction (i.e., the scope of a regional architecture).

Security

Information Flow Security
  Confidentiality Integrity Availability
Rating Moderate High Moderate
Basis The scope of coordination could expose some of the inner workings that imply policy or technical workings that could be used negatively against METR subsystems. While it would be ideal if METR operations were completely transparent, at least in early phases it is likely that coordination activies are in flux and could be taken out of context. There is no legitimate reason to observe this information regardless. This information may eventually (once it is reconciled throughout the METR system) be used to guide driver and AV behavior; incorrect or manipulated information could result in a vehicle performing a traffic movement that is not permitted, which in some cases (e.g., right turn on red) could be quite dangerous. Discrepancy management should ideally always be functioning, but especially early on as METR deployments evolve, it is unreasonable to expect, and would have minimal impact, if discrepancy related flows were reasonably available. HIGH may be viable in the future, and may be necessary if automated vehicles depend on METR information to be consistently correct at all times.


Security Characteristics Value
Authenticable True
Encrypt True