A New Control Strategy For Improving Steering Feel Of An EPAS System

2020 International Conference on Futuristic Technologies in Control Systems & Renewable Energy (ICFCR) Pub Date : 2020-09-23 DOI:10.1109/ICFCR50903.2020.9249978

N. A, S. Muhammed, N. K

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Abstract

Terrain conditions of road are a determining factor for the driver's feel of driving. But, power steering is a boon to all the drivers of all classes of vehicles. This paper presents a novel control strategy for an electric power assisted steering system that would help in reducing the undesirable vibration and the driver effort in both the parking and driving state of the vehicle. The performance of steering system depends on the assist torque map. The proposed methods use the assist torque map. Since, a high amount of steering assist gain and nonlinearity of the torque map can have a negative effect in Electric power assisted steering (EPAS) system causing instability; the approach uses a properly designed new law that can circumvent the issues of nonlinearity. Here the modeling of EPAS system has been carried out and model parameters are identified. Based on the available EPAS model, a PID - Sliding Mode controller is designed to control this system. The evaluated performance of designed controllers showed that is successfully improved by the desired controller.

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一种改善EPAS系统转向感觉的新控制策略

道路的地形条件是驾驶员驾驶感觉的决定因素。但是，动力转向对所有类别的车辆的所有驾驶员来说都是一个福音。本文提出了一种新的电动助力转向系统控制策略，以减少车辆在停车和行驶状态下的不良振动和驾驶员的努力。转向系统的性能取决于辅助转矩图。所提出的方法使用辅助扭矩图。因此，大量的转向辅助增益和扭矩图的非线性会对电动助力转向(EPAS)系统产生负面影响，导致不稳定;该方法使用了一个合理设计的新定律，可以规避非线性问题。在此基础上对EPAS系统进行了建模，并对模型参数进行了辨识。在现有EPAS模型的基础上，设计了PID -滑模控制器对系统进行控制。对所设计控制器的性能进行了评估，结果表明所设计控制器的性能得到了改善。

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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2020 International Conference on Futuristic Technologies in Control Systems & Renewable Energy (ICFCR)

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