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Overview of Remote Diagnosis and Maintenance for Automotive Systems
ISSN: 0148-7191, e-ISSN: 2688-3627
Published April 11, 2005 by SAE International in United States
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Advances in wireless communications, model-based diagnostics, human-machine interfaces, electronics and embedded system technologies have created the foundation for a dramatic shift in the way the vehicles are diagnosed and maintained. These advances will enable vehicle diagnosis and maintenance to be performed remotely while the vehicle is being driven. There also has been recent strong consumer interest in Remote Diagnosis and Maintenance (RD&M). As a consequence, RD&M is drawing increased attention in the automotive industry. This paper provides the current status of vehicle remote diagnosis and maintenance, analyses the potential features of RD&M and their significance, and discusses how next generation automotive products could benefit from research and development in this area.
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CitationYou, S., Krage, M., and Jalics, L., "Overview of Remote Diagnosis and Maintenance for Automotive Systems," SAE Technical Paper 2005-01-1428, 2005, https://doi.org/10.4271/2005-01-1428.
- Jurgen Ronald K., “On- and Off-Board Diagnostics - Automotive Electronics Series,” Published by Society of Automotive Engineers, Inc. 2000
- Luo Jianhui, Tu Fang et al, “Intelligent model-based diagnostics for vehicle health management,” Proceedings of the SPIE - The International Society for Optical Engineering, pp. 13-26, April 2003, Orlando, USA
- Terry B. and Lee S., “What is the prognosis on your maintenance program,” Engineering and Mining Journal, May 1995.
- “Remote Diagnostics - the Next OEM Frontier,” The Hansen Report on Automotive Electronics, Vol. 16, NO.10, Jan. 2004
- Suman Michael et al., “Vehicle communication and remote control system,” US patent No: 06028537, Feb. 2000
- Dix Peter, “Remote vehicle diagnostic system,” US patent Pub. number: 20030095038, May 2003
- Klausner Markus, Dietrich Arne, “Autonomous in-vehicle navigation system and diagnostic system,” US patent Pub. No: 20030114980, June 2003
- Allen Rodney JR.; Norwood William D., “Vehicle service and maintenance tracking systems,” US patent Pub. No: 20020195503, Dec. 2002
- Hiermann Ulrich, “A remote diagnostic system for motor vehicles,” Europe patent pub. No: 01069422/EP A1, Jan. 2001
- Qiu Chidong, Ren Guang, “A real-time remote fault diagnosis system fro marine vessels wieth simulation studies,” Journal of System Simulation, pp.1376-1379 Vol. 14, Oct. 2002
- Heil, J.K., Freed, C.A. and Trella, M.C., “Remote diagnostic system to increase productivity,” Journal of Iron and Steel Engineer, pp. 60-62, Feb. 1998
- Campos Frank et al., “A reference architecture for remote diagnostics and prognostics applications,” Proceedings Of the 2002 IEEE AUTOTESTCON, pp.842-854, Huntsville, USA, 2002.
- Deb Somnath et al., “Remote Diagnosis of the International Space Station utilizing Telemetry Data,” Proceedings of the SPIE Aerosense Conference, Orlando, FL, April 16-20, 2001.
- Allied Business Intelligence, “The Digital Car: Dynamic Player Roles and Business Models in the Telematics Value Chain,” May 2002.
- Bretz Elizabeth A., “By-wire cars turn the corner,” IEEE Spectrum, Volume: 38, Issue: 4, pp. 68 -73, April 2001.
- You Song and Jalics Laci, “Hierarchical Component-based Fault Diagnostics for By-Wire Systems,” SAE Paper # 2004-01-0285, March 2004.
- You Song and Jalics Laci, “Adaptive Threshold Based Diagnostics for Steer-by-Wire Systems,” DRLR-0244, May 2003.