An estimation method for dynamic vehicle turn center

Bo Wang, Bing Lu, Wenyi Huang, Chao Sun, Pingping Lu
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Abstract

The instantaneous vehicle turn center is of great significance in the design and analysis of vehicle steering and handling. Due to the influences of vehicle flexible components, the vehicle turn center is not intersected at one point and the traditional determination method for vehicle turn center is not applicable for multi-axle vehicles. In this paper, a novel instantaneous tire turn center (TTC) method is proposed to estimate the instantaneous vehicle turn center to provide a guidance for the design of vehicle steering and analysis of handling. The motivation of the tire turn center concept is introduced and the calculation method is developed. The instantaneous vehicle turn center is estimated based on the calculation of instantaneous TTC. The estimation results of the vehicle turn center of a two-axle vehicle and a three-axle off-road vehicle under different vehicle velocities and lateral accelerations during steering are presented based on the vehicle dynamics models built by ADAMS software. Since there is no simplifications of the vehicle in the proposed estimation method, the determined instantaneous vehicle turn center is more accurate and can reflect the actual vehicle motion better as compared to the traditional vehicle turn center in transient motion process. The estimated instantaneous vehicle turn center provides a guidance for design and optimization of vehicle steering as well as steering angles control strategies to make all tire turn centers controlled at the instantaneous vehicle turn center, thus reducing tire wears and improving the whole vehicle steering coordination performance.
动态车辆转弯中心的估算方法
瞬时车辆转向中心在车辆转向和操纵的设计和分析中具有重要意义。由于车辆柔性部件的影响,车辆转弯中心并不是相交于一点,传统的车辆转弯中心确定方法不适用于多轴车辆。本文提出了一种新颖的瞬时轮胎转向中心(TTC)方法来估算瞬时车辆转向中心,为车辆转向设计和操控分析提供指导。本文介绍了轮胎转向中心概念的动机,并开发了计算方法。根据瞬时 TTC 的计算结果估算瞬时车辆转向中心。基于 ADAMS 软件建立的车辆动力学模型,给出了两轴车辆和三轴越野车在转向过程中不同车速和横向加速度条件下的车辆转向中心估算结果。由于所提出的估计方法没有对车辆进行简化,因此与传统的瞬态运动过程中的车辆转向中心相比,所确定的车辆瞬态转向中心更加精确,能更好地反映车辆的实际运动情况。估算出的瞬时车辆转向中心为设计和优化车辆转向以及转向角控制策略提供了指导,使所有轮胎转向中心都控制在瞬时车辆转向中心,从而减少轮胎磨损,提高整车转向协调性能。
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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