Nonlinear shimmy and dynamic bifurcation in vehicle system with driver steering input

Heng Wei, Yinggang Xu, Xiang-yu Wang, Liang Li
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Abstract

Based on the dynamic coupling analysis of the front wheel shimmy and vehicle plane motion, a three degrees of freedom (DOF) nonlinear shimmy model considering driver steering input is established. Firstly, when the driver steering input is not considered, the modal properties and dynamic stability of the system are investigated by solving the Jacobian matrix. Then, the nonlinear shimmy behavior considering the driver steering input is discussed by means of numerical calculations. The slow flow equations of the vehicle system considering the driver steering input are derived based on the complexification-averaging (CA) method. According to the nonlinear dynamics theory, the saddle node (SN) and Hopf bifurcation characteristics of the system are analyzed, the analytical solution of the front wheel shimmy angle is also obtained. Finally, with the help of the understeer gradient, the influence of the linear cornering stiffness of the front wheel on the nonlinear shimmy motion is discussed. It is summarized that the SN and Hopf bifurcation are more likely to occur in the shimmy system for an oversteered vehicle. The relevant conclusions are useful for the early anti-shimmy design of vehicles.
带驾驶员转向输入的车辆系统中的非线性抖动和动态分叉
基于前轮抖动和车辆平面运动的动态耦合分析,建立了考虑驾驶员转向输入的三自由度(DOF)非线性抖动模型。首先,在不考虑驾驶员转向输入的情况下,通过求解雅各布矩阵来研究系统的模态特性和动态稳定性。然后,通过数值计算讨论了考虑驾驶员转向输入的非线性抖动行为。基于复杂化平均(CA)方法,推导出了考虑驾驶员转向输入的车辆系统慢流方程。根据非线性动力学理论,分析了系统的鞍状节点(SN)和霍普夫分岔特性,并得到了前轮抖动角的解析解。最后,借助转向不足梯度,讨论了前轮线性转弯刚度对非线性抖动运动的影响。总结发现,转向过度车辆的抖动系统更容易出现 SN 和霍普夫分岔。相关结论对车辆的早期防甩尾设计很有帮助。
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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