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Reliable fuzzy H∞ control for active suspension of in-wheel motor driven electric vehicles with dynamic damping

journal contribution
posted on 2024-11-16, 04:47 authored by Xinxin Shao, Fazel NaghdyFazel Naghdy, Haiping DuHaiping Du
A fault-tolerant fuzzy H∞ control design approach for active suspension of in-wheel motor driven electric vehicles in the presence of sprung mass variation, actuator faults and control input constraints is proposed. The controller is designed based on the quarter-car active suspension model with a dynamic-damping-in-wheel-motor-driven-system, in which the suspended motor is operated as a dynamic absorber. The Takagi-Sugeno (T-S) fuzzy model is used to model this suspension with possible sprung mass variation. The parallel-distributed compensation (PDC) scheme is deployed to derive a fault-tolerant fuzzy controller for the T-S fuzzy suspension model. In order to reduce the motor wear caused by the dynamic force transmitted to the in-wheel motor, the dynamic force is taken as an additional controlled output besides the traditional optimization objectives such as sprung mass acceleration, suspension deflection and actuator saturation. The H∞ performance of the proposed controller is derived as linear matrix inequalities (LMIs) comprising three equality constraints which are solved efficiently by means of MATLAB LMI Toolbox. The proposed controller is applied to an electric vehicle suspension and its effectiveness is demonstrated through computer simulation.

Funding

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

Australian Research Council

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Citation

X. Shao, F. Naghdy & H. Du, "Reliable fuzzy H∞ control for active suspension of in-wheel motor driven electric vehicles with dynamic damping," Mechanical Systems and Signal Processing, vol. 87, pp. 365-383, 2017.

Journal title

Mechanical Systems and Signal Processing

Volume

87

Pagination

365-383

Language

English

RIS ID

118220

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