基于风险认知和职业驾驶员紧急制动行为的自动紧急制动何时及如何应用

IF 2.8 Q2 TRANSPORTATION SCIENCE & TECHNOLOGY

SAE International Journal of Vehicle Dynamics Stability and NVH Pub Date : 2023-07-26 DOI:10.4271/10-07-04-0028

Fei Lai, C. Huang, Chengyue Jiang

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引用次数: 1

摘要

自动紧急制动(AEB)控制算法的关键问题是何时制动以及如何制动。提出了一种综合职业驾驶员风险感知和紧急制动特性的AEB控制算法。利用制定的按碰撞时间(TTC)和车头时距(THW)的RP，可以确定制动触发时间。基于专业驾驶员装配(PDF)的特点，可以开发制动模式。通过MATLAB/Simulink仿真平台，采用欧洲新车评估计划(Euro-NCAP)测试场景验证了所提出的控制算法。仿真结果表明，与TTC控制算法、PDF控制算法以及PDF与TTC集成控制算法相比，所提出的PDF与RP集成控制算法具有最佳性能，既能保证安全性和制动舒适性，又能提高道路资源利用率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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When and How to Apply Automatic Emergency Brakes Based on Risk Perception and Professional Driver Emergency Braking Behavior

The key issues of automatic emergency braking (AEB) control algorithm are when and how to brake. This article proposes an AEB control algorithm that integrates risk perception (RP) and emergency braking characteristics of professional drivers for rear-end collision avoidance. Using the formulated RP by time to collision (TTC) and time headway (THW), the brake trigger time can be determined. Based on the professional driver fitting (PDF) characteristic, the brake pattern can be developed. Through MATLAB/Simulink simulation platform, the European New Car Assessment Programme (Euro-NCAP) test scenarios are used to verify the proposed control algorithm. The simulation results show that compared with the TTC control algorithm, PDF control algorithm, and the integrated PDF and TTC control algorithm, the proposed integrated PDF and RP control algorithm has the best performance, which can not only ensure safety and brake comfort, but also improve the road resource utilization rate.

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来源期刊

SAE International Journal of Vehicle Dynamics Stability and NVH TRANSPORTATION SCIENCE & TECHNOLOGY-

CiteScore

6.40

自引率

41.20%

发文量