Vehicle handling improvements through Steer-by-Wire

Automotive and Engine Technology Pub Date : 2021-04-06 DOI:10.1007/s41104-021-00079-0

Jan Sterthoff, Roman Henze, Ferit Küçükay

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引用次数: 3

Abstract

This paper focuses on handling improvements enabled through Steer-by-Wire systems, which have increasingly become subject of R&D, as they not only offer the potential for improving vehicle handling but also have many advantages in combination with automated driving. Handling improvements through a steering ratio depending on vehicle speed, as well as steering-wheel angle, are known from Active Front Steering systems. A new overall concept is proposed, that also takes into account lateral and longitudinal acceleration as well as steering rate, which are all available signals in a production car. The overall concept is designed in an optimization process to modify a range of established characteristic parameters known from open-loop maneuvers and the objective evaluation of vehicle handling. In this context, validated models for a vehicle and a Steer-by-Wire system are used to obtain reliable results in simulation. Possibilities for tuning the non-linear steering behavior as well as improvements in the dynamic behavior, especially in yaw damping and response time, are demonstrated.

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通过线控转向改善车辆操控性

本文的重点是通过线控转向系统实现的操纵改进，这已经越来越成为R&；D、因为它们不仅提供了改善车辆操控性的潜力，而且与自动驾驶相结合具有许多优势。主动前转向系统通过根据车速和方向盘角度调整转向比来提高操控性。提出了一个新的总体概念，该概念还考虑了横向和纵向加速度以及转向率，这些都是生产汽车中可用的信号。总体概念是在优化过程中设计的，以修改从开环机动和车辆操纵的客观评估中已知的一系列既定特征参数。在这种情况下，车辆和线控转向系统的验证模型用于在模拟中获得可靠的结果。证明了调整非线性转向行为以及改善动态行为的可能性，特别是在偏航阻尼和响应时间方面。

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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Automotive and Engine Technology

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