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Development of Robust Guaranteed Cost Mixed Control System for Active Suspension of In-Wheel-Drive Electric Vehicles

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  • Xianjian Jin
  • Jiadong Wang
  • Junpeng Yang
  • Jean Jacques Loiseau

Abstract

This paper presents a mixed H2/H∞-based robust guaranteed cost control system design of an active suspension system for in-wheel-independent-drive electric vehicles considering suspension performance requirements and parameter variation. In the active suspension system model, parameter uncertainties of active suspension are described by the bounded method, and the perturbation bounds can be also limited; then, the uncertain quarter-vehicle active suspension model where in-wheel motor is suspended as a dynamic vibration absorber is established. The robust guaranteed cost mixed H2/H∞ feedback controller of the closed-loop active suspension system is designed using Lyapunov stability theory, in which the suspension working space, dynamic tire displacement, and the active control force are taken as H∞ performance indices, the H2 norm of body acceleration is selected as the output performance index to be minimized, and then a comprehensive solution is transformed into a convex optimization problem with linear matrix inequality constraints. Simulations on random and bump road excitations are implemented to verify and evaluate the performance of the designed controller. The results show that the active suspension with developed robust mixed H2/H∞ controller can effectively achieve better ride comfort and road-holding ability compared with passive suspension and alone H∞ controller.

Suggested Citation

  • Xianjian Jin & Jiadong Wang & Junpeng Yang & Jean Jacques Loiseau, 2022. "Development of Robust Guaranteed Cost Mixed Control System for Active Suspension of In-Wheel-Drive Electric Vehicles," Mathematical Problems in Engineering, Hindawi, vol. 2022, pages 1-16, February.
  • Handle: RePEc:hin:jnlmpe:4628539
    DOI: 10.1155/2022/4628539
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    Cited by:

    1. Jinhua Zhang & Yi Yang & Cheng Hu, 2023. "An Adaptive Controller Design for Nonlinear Active Air Suspension Systems with Uncertainties," Mathematics, MDPI, vol. 11(12), pages 1-12, June.

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