协同自适应巡航控制
控制理论(社会学)
理论(学习稳定性)
计算机科学
巡航控制
稳健性(进化)
控制系统
补偿(心理学)
自适应控制
控制(管理)
工程类
基因
心理学
生物化学
化学
机器学习
人工智能
精神分析
电气工程
作者
Yu Zhang,Yu Bai,Jia Hu,Meng Wang
标识
DOI:10.1177/0361198120918873
摘要
Communication delay is detrimental to the performance of cooperative adaptive cruise control (CACC) systems. In this paper, we incorporate communication delay explicitly into control design and propose a delay-compensating CACC. In this new CACC system, the semi-constant time gap (Semi-CTG) policy, which is modified on the basis of the widely-used CTG policy, is employed by a linear feedback control law to regulate the spacing error. The semi-CTG policy uses historical information of the predecessor instead of its current information. By doing so, communication delay is fully compensated, which leads to better stability performance. Three stability properties—local stability, string stability, and traffic flow stability—are analyzed. The local stability and string stability of the proposed CACC system are guaranteed with the desired time gap as small as the communication delay. Both theoretical analysis and simulation results show that the delay-compensating CACC has better string stability and traffic flow stability than the widely-used CACC system. Furthermore, the proposed CACC system also shows the potential for improving traffic throughput and fuel efficiency. Robustness of the proposed system against uncertainties of sensor delay and vehicle dynamics is also verified with simulation.
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