This solution is used within the U.S.. It combines standards associated with US: SAE Signal Preemption with those for V–X: WAVE TCP. The US: SAE Signal Preemption standards include upper–layer standards required to implement signal preemption and priority information flows. The V–X: WAVE TCP standards include lower–layer standards that support connection–oriented vehicle–to–any communications within ~300m using the Transmission Control Protocol (TCP) over Internet Protocol version 6 (IPv6) over IEEE WAVE in the 5.9GHz spectrum.
| Level | DocNum | FullName | Description |
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| Mgmt | Addressed Elsewhere | Addressed Elsewhere in Stack | The services related to this portion of the stack are defined in the other standards listed for this solution. |
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| Security | IEEE 1609.2 | IEEE Standard for Wireless Access in Vehicular Environments – Security Services for Applications and Management Messages | This standard defines secure message formats and processing for use by Wireless Access in Vehicular Environments (WAVE) devices, including methods to secure WAVE management messages and methods to secure application messages. It also describes administrative functions necessary to support the core security functions. |
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| Security | IEEE 1609.2a | IEEE 1609.2a–2017 – IEEE Standard for Wireless Access in Vehicular Environments––Security Services for Applications and Management Messages – Amendment 1 | This standard defines secure message formats and processing for use by Wireless Access in Vehicular Environments (WAVE) devices, including methods to secure WAVE management messages and methods to secure application messages. It also describes administrative functions necessary to support the core security functions. |
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| Security | IEEE 1609.2b | IEEE Standard for Wireless Access in Vehicular Environments––Security Services for Applications and Management Messages – Amendment 2––PDU Functional Types and Encryption Key Management | This standard defines secure message formats and processing for use by Wireless Access in Vehicular Environments (WAVE) devices, including methods to secure WAVE management messages and methods to secure application messages. It also describes administrative functions necessary to support the core security functions. |
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| ITS Application Entity | CEN ISO 19091 | Intelligent transport systems –– Cooperative ITS –– Using V2I and I2V communications for applications related to signalized intersections | This technical specification defines messages and related data structures and data elements for the following exchanges between roadside equipment and vehicles: 1) Definition of the SPaT (signal phase and timing) message transmitted from a traffic controller that describes the state of the signals, signal timing as necessary to support the applications identified herein; 2) definition of the MAP message (which include the definition of motorized lane, vehicles, busses, trams, bicycle, pedestrian crosswalks, etc.); and 3) definition of the messages (SRM, SSM) to be exchanged between an intersection traffic controller and approaching vehicles to support priority treatment as might be expected for emergency response , freight transport, and public transport vehicles to improve safety. |
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| ITS Application Entity | SAE J2735 | Dedicated Short Range Communications (DSRC) Message Set Dictionary (TM) | This standard defines the data and messages for use in DSRC (i.e., V2V, V2I, and V2D) applications. The SAE J2945 series defines additional requirements on how to use these messages. |
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| ITS Application Entity | SAE J2945/B | Recommended Practices for Signalized Intersection Applications | This document provides guidance on usage of SAE J2735 and other related information for signalized intersection applications. The document focuses on how to use SPaT and MAP messages to support signalized–intersection applications. In general, implementation guidance is necessary to achieve interoperability by addressing the requirements for the options for both over the air dialogs and message contents, and to support larger intersection maps This document also addresses using Signal Request & Signal Status messages corresponding to vehicle functionality and approaches to traffic signal priority/pre–emption (TSP), including three different methods for implementing TSP over the air. The project is complementary to the connected intersections project being performed by ITE. |
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| Facilities | SAE J2735 | Dedicated Short Range Communications (DSRC) Message Set Dictionary (TM) | This standard defines the data and messages for use in DSRC (i.e., V2V, V2I, and V2D) applications. The SAE J2945 series defines additional requirements on how to use these messages. |
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| Facilities | SAE J2945 | Dedicated Short Range Communication (DSRC) Systems Engineering Process Guidance for J2945/x Documents and Common Design Concepts | This standard defines cross–cutting material which applies to the J2945/x series including generic DSRC interface requirements and guidance on Systems Engineering (SE) content. |
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| TransNet | IETF RFC 2460 | Internet Protocol, Version 6 (IPv6) Specification | This standard (RFC) specifies version 6 of the Internet Protocol (IPv6), also sometimes referred to as IP Next Generation or IPng. |
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| TransNet | IETF RFC 4291 | IP Version 6 Addressing Architecture | This standard (RFC) defines the addressing architecture of the IP Version 6 (IPv6) protocol. It includes the IPv6 addressing model, text representations of IPv6 addresses, definition of IPv6 unicast addresses, anycast addresses, and multicast addresses, and an IPv6 node's required addresses. |
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| TransNet | IETF RFC 4861 | Neighbor Discovery for IP version 6 (IPv6) | This standard (RFC) specifies the Neighbor Discovery protocol for IP Version 6. IPv6 nodes on the same link use Neighbor Discovery to discover each other's presence, to determine each other's link–layer addresses, to find routers, and to maintain reachability information about the paths to active neighbors. |
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| TransNet | IETF RFC 4862 | IPv6 Stateless Address Autoconfiguration | This standard (RFC) specifies the steps a host takes in deciding how to autoconfigure its interfaces in IP version 6. The autoconfiguration process includes generating a link–local address, generating global addresses via stateless address autoconfiguration, and the Duplicate Address Detection procedure to verify the uniqueness of the addresses on a link. |
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| TransNet | IETF RFC 793 | Transmission Control Protocol | This standard (RFC) defines the main connection–oriented Transport Layer protocol used on Internet–based networks. |
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| TransNet | IEEE 1609.3 | IEEE Standard for Wireless Access in Vehicular Environments (WAVE) – Networking Services | This standard defines the network and transport layer options for the WAVE environment. The standard defines three options: a bandwidth efficient single–hop solution known as WSMP, UDP/IP, and TCP/IP. It has been harmonized with ISO FNTP and FSAP – a common message format specified in ISO 16460. |
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| Access | IEEE 1609.4 | IEEE Draft Standard for Wireless Access in Vehicular Environments – Multi–Channel Operation | This standard primarily defines the data link layer of the WAVE communications stack. |
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| Access | IEEE 802.11 | IEEE Draft Standard for Information technology––Telecommunications and information exchange between systems Local and metropolitan area networks––Specific requirements Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specificatio | This standard defines the physical and data link layers for wireless Ethernet, including WiFi and DSRC. |
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| Access | ISO/IEC 8802–2 | IEEE Standard for Information technology –– Telecommunications and information exchange between systems––Local and metropolitan area networks –– Specific requirements –– Part 2: Logical Link Control | ISO/IEC 8802–2 describes the logical link control (LLC) sublayer, which constitutes the top sublayer in the data link layer of the ISO 8802 Local Area Network Protocol (also known as IEEE 802.2). |
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One serious or several significant issues. This category often includes proprietary or partial solutions. The communications solution may fail to provide even a base level of interoperability and security. Consider alternative solutions, or define specific revisions or upgrades that would provide a level of interoperability or security that are needed for the deployment.
| Source | Destination | Flow |
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| Fargo FD Vehicles | Fargo Traffic Signals | local signal preemption request |
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| Fargo FD Vehicles | MnDOT D4 Traffic Signals | local signal preemption request |
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| Fargo FD Vehicles | Moorhead Traffic Signals | local signal preemption request |
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| Fargo FD Vehicles | NDDOT Traffic Signals | local signal preemption request |
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| Fargo FD Vehicles | West Fargo TOC Signals | local signal preemption request |
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| Fargo Traffic Signals | FM Emergency Vehicles | signal priority status |
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| Fargo Traffic Signals | MAT Vehicles | signal priority status |
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| FM Emergency Vehicles | Fargo Traffic Signals | local signal preemption request |
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| FM Emergency Vehicles | FM Signals | local signal preemption request |
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| FM Emergency Vehicles | MnDOT D4 Traffic Signals | local signal preemption request |
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| FM Emergency Vehicles | Moorhead Traffic Signals | local signal preemption request |
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| FM Emergency Vehicles | NDDOT Traffic Signals | local signal preemption request |
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| FM Emergency Vehicles | West Fargo TOC Signals | local signal preemption request |
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| FM Signals | FM Emergency Vehicles | signal priority status |
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| FM Signals | MAT Vehicles | signal priority status |
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| MAT Vehicles | Fargo Traffic Signals | local signal priority request |
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| MAT Vehicles | FM Signals | local signal priority request |
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| MAT Vehicles | MnDOT D4 Traffic Signals | local signal priority request |
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| MAT Vehicles | Moorhead Traffic Signals | local signal priority request |
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| Moorhead FD Vehicles | Fargo Traffic Signals | local signal preemption request |
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| Moorhead FD Vehicles | MnDOT D4 Traffic Signals | local signal preemption request |
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| Moorhead FD Vehicles | NDDOT Traffic Signals | local signal preemption request |
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| Moorhead PD Vehicles | MnDOT D4 Traffic Signals | local signal preemption request |
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| Moorhead PD Vehicles | Moorhead Traffic Signals | local signal preemption request |
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| Moorhead PD Vehicles | West Fargo TOC Signals | local signal preemption request |
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| MSP DL Vehicles | Moorhead Traffic Signals | local signal preemption request |
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| MSP DL Vehicles | West Fargo TOC Signals | local signal preemption request |
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| NDDOT Traffic Signals | FM Emergency Vehicles | signal priority status |
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| Sanford Ambulance Vehicles | Fargo Traffic Signals | local signal preemption request |
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| Sanford Ambulance Vehicles | MnDOT D4 Traffic Signals | local signal preemption request |
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| Sanford Ambulance Vehicles | Moorhead Traffic Signals | local signal preemption request |
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| Sanford Ambulance Vehicles | NDDOT Traffic Signals | local signal preemption request |
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| Sanford Ambulance Vehicles | West Fargo TOC Signals | local signal preemption request |
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| West Fargo TOC Signals | FM Emergency Vehicles | signal priority status |
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