Fault Detection Methods for Electric Power Steering System Using Hardware in the Loop Simulation

Energies Pub Date : 2024-07-16 DOI:10.3390/en17143486
Wojciech Pietrowski, Magdalena Puskarczyk, Jan Szymenderski
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Abstract

The development of the automotive industry is associated with the rapid advancement of onboard systems. In addition, intensive development in the electronics and control systems industry has resulted in a change in the approach to the issue of assistance systems in vehicles. Classic hydraulic systems have been almost completely replaced by modern electric power steering (EPS) systems, especially in citizen vehicles. This paper focuses on fault detection algorithms for EPS, along with the available tools to aid development and verification. The article discusses in detail the current state of knowledge in this area. The principle of operation of the EPS system and the influence of the structure of the mechanical system on its operation, in particular the characteristics of the ground–tire contact, are presented. Various error identification methods are presented, including those based mainly on a combination of tests of real objects as well as those combined with modern hardware-in-the-loop (HIL) equipment and virtual vehicle environment software, enabling the development of new diagnostic methods, enhancing the security, reliability, and energy control in the vehicle. A review of the literature indicates that although many algorithms which enable fault detection at an early stage are described, their potential for use in a vehicle is highly limited. The reason lies in simplifications, including models and the operating EPS temperature range. The most frequently used simplification of the model is its linearization, which significantly reduces the calculation time; however, this significantly reduces the accuracy of the model, especially in cases with a large range of system operation. The need for methods to detect incipient faults is important for the safety and reliability of the entire car, not only during regular use but also especially during life-saving evasive maneuvers.
利用硬件在环仿真的电动助力转向系统故障检测方法
汽车工业的发展与车载系统的快速进步密不可分。此外,电子和控制系统行业的蓬勃发展也改变了汽车辅助系统问题的解决方法。传统的液压系统几乎完全被现代电动助力转向(EPS)系统所取代,尤其是在民用车辆中。本文重点介绍 EPS 的故障检测算法,以及有助于开发和验证的可用工具。文章详细讨论了该领域的知识现状。文章介绍了 EPS 系统的工作原理和机械系统结构对其工作的影响,特别是地面-轮胎接触的特性。介绍了各种错误识别方法,包括主要基于真实物体测试的方法,以及与现代硬件在环(HIL)设备和虚拟车辆环境软件相结合的方法,从而能够开发新的诊断方法,提高车辆的安全性、可靠性和能量控制。文献综述表明,尽管已经介绍了许多能够在早期阶段进行故障检测的算法,但这些算法在车辆中的应用潜力非常有限。原因在于简化,包括模型和工作 EPS 温度范围。最常用的模型简化方法是线性化,这可以大大减少计算时间;但这也大大降低了模型的准确性,尤其是在系统运行范围较大的情况下。对于整辆汽车的安全性和可靠性而言,不仅在正常使用过程中,而且尤其是在救生的规避动作中,都需要有检测初期故障的方法。
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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