Skid control enhancement for small electric vehicle by using sliding mode control strategy

2018 SICE International Symposium on Control Systems (SICE ISCS) Pub Date : 2018-03-01 DOI:10.23919/SICEISCS.2018.8330169

S. M. Asyraf, P. M. Heerwan, M. I. Ishak

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引用次数: 2

Abstract

Small electric vehicle (EV) with two in-wheel motors employed hydraulic brake system at the front tires and mechanical brake system at the rear tires. The mechanical brake system is installed at the rear tire due to the space limitation for the hydraulic brake system. Although mechanical brake system is compact, the response performance of mechanical brake system is lower than hydraulic brake system. During braking in slippery condition, the stability and safety of small EV will be lost. In this study, to enhance the braking performance of small EV, the sliding mode control (SMC) approach is proposed. The slip ratio is used in the SMC control method to determine the sliding condition of the vehicle. If the slip ratio is not in the optimum range, the SMC will be activated to control the valve in the hydraulic control unit. Based on the signal from the SMC, the valve will open or close to increase, decrease or hold the brake pressure. The analysis has been done in the Matlab Simulink and the result shows that by using SMC, the tires were not lockup and the slip ratio is in the optimum range.

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利用滑模控制策略增强小型电动汽车的防滑性能

采用双轮内马达的小型电动汽车，前轮采用液压制动系统，后轮采用机械制动系统。由于液压制动系统的空间限制，机械制动系统安装在后轮胎。机械制动系统结构紧凑，但其响应性能低于液压制动系统。在湿滑工况下，小型电动汽车在制动过程中会失去稳定性和安全性。为了提高小型电动汽车的制动性能，本文提出了滑模控制(SMC)方法。滑模控制方法采用滑移率来确定车辆的滑动状态。如果滑移比不在最佳范围内，SMC将被激活以控制液压控制单元中的阀门。根据来自SMC的信号，阀门将打开或关闭以增加、减少或保持制动压力。在Matlab Simulink中进行了分析，结果表明，采用SMC后，轮胎没有锁死，打滑率在最佳范围内。

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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来源期刊

2018 SICE International Symposium on Control Systems (SICE ISCS)

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