Safety Oriented State Transitions in Level 3 Automated Driving Systems: A General Framework
Published in 2019 the 4th IEEE International Conference on Advanced Robotics and Mechatronics (ICARM), 2019
Recommended citation: C. Huang, Y. Liu, L. Li and Z. Chen, "Safety Oriented State Transitions in Level 3 Automated Driving Systems: A General Framework," 2019 IEEE 4th International Conference on Advanced Robotics and Mechatronics (ICARM), pp. 918-923, July 2019.
Abstract
On the road to fully autonomous driving, the level 3 (L3) automated driving systems (ADS) appears to be a more realistic choice. However, this is also a difficult problem in that the ADS and the driver are convoluted together, making control of the system difficult. Another is the safety and responsibility partition concerns, hindering commercialization of the system. Under this circumstance, the research conducted in this paper aims to establish a safety oriented state transition framework for the L3 ADS, utilizing an event based dynamic hazard and risk assessment (DHARA) framework. In doing so, the system would be able to maintain a state of acceptable risk or loss even facing unexpectable changes. More importantly, the reason would be traceable when certain accident happens, and the responsibility partition would be unambiguous under this architecture.
Citation
Recommended citation: C. Huang, Y. Liu, L. Li and Z. Chen, “Safety Oriented State Transitions in Level 3 Automated Driving Systems: A General Framework,” 2019 IEEE 4th International Conference on Advanced Robotics and Mechatronics (ICARM), pp. 918-923, July 2019. (Paperurl)
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