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- Title
Research on Active Collision Avoidance and Hysteresis Reduction of Intelligent Vehicle Based on Multi-Agent Coordinated Control System.
- Authors
Yuan, Chaochun; Lin, Yongfeng; Shen, Jie; Chen, Long; Cai, Yingfeng; He, Youguo; Weng, Shuofeng; Wu, Xinkai; Yuan, Yuqi; Gong, Yuxuan; Yu, Qiuye
- Abstract
This paper provides a multi-agent coordinated control system to improve the real-time performance of intelligent vehicle active collision avoidance. At first, the functions and characteristics of longitudinal and lateral collision avoidance agents are analyzed, which are the main components of the multi-agent. Then, a coordinated solution mechanism of an intelligent vehicle collision avoidance system is established based on hierarchical control and blackboard model methods to provide a reasonable way to avoid collision in complex situations. The multi-agent coordinated control system can handle the conflict between the decisions of different agents according to the rules. Comparing with existing control strategies, the proposed system can realize multi decisions and planning at the same time; thus, it will reduce the operation time lag during active collision avoidance. Additionally, fuzzy sliding mode control theory is introduced to guarantee accurate path tracking in lateral collision avoidance. Finally, co-simulation of Carsim and Simulink are taken, and the results show that the real-time behavior of intelligent vehicle collision avoidance can be improved by 25% through the system proposed.
- Subjects
SLIDING mode control; QUASIMOLECULES; CHARACTERISTIC functions; ADAPTIVE fuzzy control; SMART structures; HYSTERESIS
- Publication
World Electric Vehicle Journal, 2023, Vol 14, Issue 1, p16
- ISSN
2032-6653
- Publication type
Article
- DOI
10.3390/wevj14010016