Based on the dynamics of ABS-equipped vehicles during cornering braking, the electronic brake- force distribution (EBD) control methods of ABS-equipped vehicles during cornering braking are proposed. According to th...Based on the dynamics of ABS-equipped vehicles during cornering braking, the electronic brake- force distribution (EBD) control methods of ABS-equipped vehicles during cornering braking are proposed. According to the dynamics and the tire model under tire adhesion limit, the stability acceptance criteria of vehicles during cornering braking are proposed. According to the stability acceptance criteria and the ABS control, the EBD control methods of ABS-equipped vehicles during cornering braking are implemented by adjusting the threshold values of tires slip independently. The vehicle states during cornering braking at two typical initial velocities of the vehicle are analyzed by the EBD control methods, whose results indicate the EBD control methods can improve the braking performances of the vehicle during cornering braking comparing with the ABS control.展开更多
为了提高电动汽车制动能量回收效率,对电动汽车制动能量再生系统及机电制动力分配控制策略进行了研究。以制动强度为依据划分制动模式,提出了以电子制动力分配(Electronic Brake force Distribution,EBD)来分配前、后轴制动力的电动机...为了提高电动汽车制动能量回收效率,对电动汽车制动能量再生系统及机电制动力分配控制策略进行了研究。以制动强度为依据划分制动模式,提出了以电子制动力分配(Electronic Brake force Distribution,EBD)来分配前、后轴制动力的电动机制动与机械制动的协调控制策略方法,建立了相应的再生制动系统前、后轴制动力分配控制策略模型,并且对控制模型进行了仿真分析。仿真结果表明,提出的控制策略方法不仅可以提高制动能量回收的效率,还可以有效防止车轮在低附着路面上抱死,保证了车辆的稳定性与安全性。展开更多
基金the National Natural Science Foundation of China (50122155)
文摘Based on the dynamics of ABS-equipped vehicles during cornering braking, the electronic brake- force distribution (EBD) control methods of ABS-equipped vehicles during cornering braking are proposed. According to the dynamics and the tire model under tire adhesion limit, the stability acceptance criteria of vehicles during cornering braking are proposed. According to the stability acceptance criteria and the ABS control, the EBD control methods of ABS-equipped vehicles during cornering braking are implemented by adjusting the threshold values of tires slip independently. The vehicle states during cornering braking at two typical initial velocities of the vehicle are analyzed by the EBD control methods, whose results indicate the EBD control methods can improve the braking performances of the vehicle during cornering braking comparing with the ABS control.
文摘为了提高电动汽车制动能量回收效率,对电动汽车制动能量再生系统及机电制动力分配控制策略进行了研究。以制动强度为依据划分制动模式,提出了以电子制动力分配(Electronic Brake force Distribution,EBD)来分配前、后轴制动力的电动机制动与机械制动的协调控制策略方法,建立了相应的再生制动系统前、后轴制动力分配控制策略模型,并且对控制模型进行了仿真分析。仿真结果表明,提出的控制策略方法不仅可以提高制动能量回收的效率,还可以有效防止车轮在低附着路面上抱死,保证了车辆的稳定性与安全性。
