UPDATE OF SAE DEDICATED SHORT RANGE COMMUNICATION (DSRC) STANDARDIZATION ACTIVITIES SAE-ITU Discussion of ITS Communication Requirements Jim Misener, Chair SAE DSRC Technical Committee October 23, 2014
AGENDA Background and Context: SAE standards within the implementation stack Applications drivers Priorities for 2015 Focus on impending NHTSA rulemaking Committee interest: V2P / Vulnerable Road Users Key Takeaways FOOTER CHANGED UNDER INSERT>HEADER & FOOTER 2
SAE Applications Layer Standards are Built Upon Standardized Lower Layers: 802.11p WAVE Wi-Fi based technology, based on IEEE 802.11p standards Allows non-line of sight awareness Attributes Broadcast Half-clocked OFDM: optimized for mobility High-accuracy, low-latency (HALL) 3
Deployment Concepts and Institutions are Important Identifies Standardization (Interoperability) Needs Definitions: SAE J2735 (BSM: Basic Safety Message) versus ETSI/CEN (CAM: Cooperative Awareness Message + DENM: Decentralized Environmental Notification Message IEEE 1609 (WSMP: Wave Short Message Protocol) versus ETSI (GeoNetworking) SPAT: Signal Phase and Timing MAP: Map Data Fundamental Differences Between Europe and United States Europe: Car-to-Car Communications Consortium (C2C-CC) and Amsterdam Group (vehicles) and European Committee for Standardization (CEN)/ISO United States: National Highway Traffic Safety Administration (NHTSA) and impending safety mandate(s) (?) Federal Highway Administration (FHWA) and American Association of State Highway Officials (AASHTO) guidelines FOOTER CHANGED UNDER INSERT>HEADER & FOOTER 4
2015: Rapid Standardization to Support Rulemaking is Major Force Europe: European Norm (EN) 453 mandates standardization First release 2013 Issues in mitigation / interference with 5.8 GHz tolling North America: Impending Notice of Public Rulemaking (NPRM) NPRM in 2016, potential mandate 1 2 years afterward, widescale deployment Institute of Electrical and Electronic Engineering (IEEE) and Society of Automotive Engineers (SAE) issued letters to expedite and complete by end of 2015 IEEE 1609.2 (security), 1609.3 (networking) SAE J2735 (message sets), 2945.1 (minimum performance, including congestion control) Some convergence: ETSI ITS TC WG1 and SAE DSRC TC: Cooperative Adaptive Cruise Control/Platooning Vulnerable Road Users Other Committee Interests V2P Vulnerable Road Users ISO 19091 Harmonization: Signal Request / Signal Priority Messages Eventual Inclusion of J3067 Information Report (FHWA Contract) FOOTER CHANGED UNDER INSERT>HEADER & FOOTER 5
Concept of DSRC-Enabled V2P / Vulnerable Road User (VRU) Protection Requires (SAE) Standard(s) HMI Radio Radio Does smartphone has RF capability for DSRC communications? Power Will DSRC operation exhaust battery power for smartphones? Congestion Positioning Power 6 Positioning Does smartphone provide good positioning accuracy? Congestion Will smartphone transmission cause channel congestion? HMI How do we design HMI for smartphone users? Key Technical Challenges Spawn Standardization Needs Undertaken by SAE DSRC TC Public Safety Task Force (J2945.x)
Some Considerations in VRU Congestion control Number of pedestrians is much larger need effective control to not impact vehicular safety Performance requirements for V2P use-cases (SAE J2945.x, ETSI ITS Working Group 1) Understand the latency, range and signaling requirements for common use case Standards for improving positioning through ranging Certification: minimum performance requirements? Not a standards issue but of paramount importance: who is liable if things go wrong? FOOTER CHANGED UNDER INSERT>HEADER & FOOTER 7
Key Points, Redux Support of NHTSA rulemaking will drive near term SAE DSRC TC Standardization Activities VRU captures committee interest and focus Application of systems engineering process (SAE J3067) captures contract interest FOOTER CHANGED UNDER INSERT>HEADER & FOOTER 8