摘要
基于传感和控制技术,研究了提高车辆主动安全性的技术和方法。介绍了日本交通事故的统计数据,阐述了用于事故、事件调查分析的驾驶记录仪的发展。基于车辆动态数据,提出了驾驶记录仪捕捉未遂事件所用的算法。回顾了提高车辆动力学性能和驾驶辅助功能的微型电动车车辆动力学控制问题。介绍了基于轮毂电机的直接横摆力矩控制和主动前轮转向控制算法。介绍了适应驾驶员特性和交通情况的先进驾驶辅助系统。介绍了根据不同驾驶习惯和周围环境自动调整辅助策略的自适应系统,以及一些利用主动交互车辆和模拟驾驶仪进行的实验研究。提出了有关未来车辆控制技术的一些新观点和新挑战。
This paper considers the scope and the methodologies for enhancing active safety of road vehicles by sensing and control technologies. First of all, statistical data of traffic accidents in Japan is introduced, and the development of the drive recorder for accident / incident survey and analysis is described. Based on vehicle dynamics data, the algorithm of the drive recorder for capturing near-miss incident data is introduced. The second part of this paper reviews the control problem of vehicle dynamics on micro-scale electric vehicle for enhancing vehicle dynamics and driving assistance function. In particular, the direct yaw moment control using in-wheel-motors and the active front steering control algorithm are described. The third part of the paper introduces the advanced driver assistance system adapted to driver characteristics and traffic situations. This part mainly describes the adaptive system which adjusts the assist maneuver depending on individual driver behavior and situation, and some experimental investigations using the active interface vehicle and driving simulator. Finally, some perspectives and new challenges for future research on vehicle control technology are mentioned.
出处
《汽车安全与节能学报》
CAS
2010年第1期14-22,共9页
Journal of Automotive Safety and Energy
关键词
主动安全
车辆动力学控制
驾驶辅助系统
active safety
vehicle dynamics and control
driver assistance system