The research of stability performance of 4WD vehicles basing on electric wheels torque control

Song Jian-guo, Xu Ping-ping
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引用次数: 5

Abstract

For the drive torque can be controlled independently in a four in-wheel-motor drive vehicle, in order to improve vehicle handling and stability, based on the yaw control strategy, the new control strategy has been proposed that the driving torque of inner and outer wheels were changed in the same range at the same time while turning. A four-wheel- driving vehicle model is built in Adams/View, and conducted a joint simulation with Simulink. The results show that during the angle step input response, increased the inner torque is much better than reduce the inner torque or same inner and outer torque. In contrast to same inner and outer drive torque, increasing the inside of drive torque, the maximum overshoot of yaw rate is reduced of 5.73%, the smallest overshoot of yaw rate is decreased 1.88%, the convergence time is cut down 10.59%. It shows that the use of electric wheel technology with appropriate control strategy can greatly improve the car's handling and stability.
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基于电动轮转矩控制的四轮驱动汽车稳定性研究
针对四轮电机驱动汽车驱动转矩可以独立控制的特点,为了提高车辆的操控性和稳定性,在偏航控制策略的基础上,提出了在转弯时内外轮驱动转矩同时在同一范围内变化的控制策略。在Adams/View中建立四轮驱动车辆模型,并利用Simulink进行联合仿真。结果表明,在角阶跃输入响应过程中,增大内转矩比减小内转矩或相同内外转矩效果好得多。在内外驱动力矩相同的情况下,增大内驱动力矩,横摆角速度最大超调量减小5.73%,最小超调量减小1.88%,收敛时间缩短10.59%。结果表明,采用电动轮技术配合适当的控制策略,可以大大提高汽车的操控性和稳定性。
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