University of Wollongong
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Fault-tolerant control of electric vehicles with in-wheel motors using actuator-grouping sliding mode controllers

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posted on 2024-11-16, 08:46 authored by Boyuan Li, Haiping DuHaiping Du, Weihua LiWeihua Li
Although electric vehicles with in-wheel motors have been regarded as one of the promising vehicle architectures in recent years, the probability of in-wheel motor fault is still a crucial issue due to the system complexity and large number of control actuators. In this study, a modified sliding mode control (SMC) is applied to achieve fault-tolerant control of electric vehicles with four-wheel-independent-steering (4WIS) and four-wheel-independent-driving (4WID). Unlike in traditional SMC, in this approach the steering geometry is re-arranged according to the location of faulty wheels in the modified SMC. Three SMC control laws for longitudinal velocity control, lateral velocity control and yaw rate control are designed based on specific vehicle motion scenarios. In addition the actuator-grouping SMC method is proposed so that driving actuators are grouped and each group of actuators can be used to achieve the specific control target, which avoids the strong coupling effect between each control target. Simulation results prove that the proposed modified SMC can achieve good vehicle dynamics control performance in normal driving and large steering angle turning scenarios. In addition, the proposed actuator-grouping SMC can solve the coupling effect of different control targets and the control performance is improved.

Funding

Innovative X-by-Wire Control Systems for Improved Vehicle Manoeuvrability and Stability

Australian Research Council

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History

Citation

B. Li, H. Du & W. Li, "Fault-tolerant control of electric vehicles with in-wheel motors using actuator-grouping sliding mode controllers," Mechanical Systems and Signal Processing, vol. 72-73, pp. 462-485, 2016.

Journal title

Mechanical Systems and Signal Processing

Volume

72-73

Pagination

462-485

Language

English

RIS ID

105373

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