Research on AEB-P Control Strategy Considering Braking Process Comfort

Applied Science and Innovative Research Pub Date : 2024-05-10 DOI:10.22158/asir.v8n2p57
Peng Yang, Ying Lu, Ye Chen
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Abstract

A control approach for the pedestrian-oriented automobile automatic emergency braking system (AEB-P) that takes driving comfort into account is suggested in an effort to further optimize the AEB-P system's control algorithm. Firstly, for the AEB-P assessment standard of C-NCAP, a braking safety distance model that takes the driver's comfort into account during braking is created. The next step was to construct a hierarchical controller using PID and MPC principles. Lastly, CarSim and Matlab/Simulink are used to build and validate the test scenarios and control methods. The simulation results demonstrate that both ride comfort and driving safety can be guaranteed by the suggested control technique.
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考虑制动过程舒适性的 AEB-P 控制策略研究
为进一步优化面向行人的汽车自动紧急制动系统(AEB-P)的控制算法,提出了一种考虑驾驶舒适性的控制方法。首先,针对 C-NCAP 的 AEB-P 评估标准,创建了一个制动安全距离模型,该模型考虑了驾驶员在制动过程中的舒适性。下一步是利用 PID 和 MPC 原理构建分层控制器。最后,使用 CarSim 和 Matlab/Simulink 建立并验证测试场景和控制方法。仿真结果表明,建议的控制技术可以保证乘坐舒适性和驾驶安全性。
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Applied Science and Innovative Research
Applied Science and Innovative Research
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