Litcius/Paper detail

Optimal design of hedge-algebras–based controller for vibration control of vehicle suspension systems

Thi Thoa Mac, Tien-Duy Nguyen, Hai-Le Bui, Ngoc-An Tran

2023Proceedings of the Institution of Mechanical Engineers Part I Journal of Systems and Control Engineering13 citationsDOI

Abstract

This study aims to investigate an optimal design problem for vibration control of vehicle suspension models for reducing dynamic responses of the systems. The controller is constructed and optimized based on the approach of the hedge-algebras theory. Optimized parameters include fuzziness measures and reference ranges of state and control variables. Objective functions are considered to minimize the car body vibration and other essential objectives. Initial and optimized controllers have validated their stability through a newly proposed method using rule surfaces of the hedge-algebras–based controller. The controllers based on hedge-algebras theory have higher performance than controllers in previous publications and ensure the system stability and robustness to changes in the car body and wheel masses. The optimal approach in the present work allows determining values of design variables that are appropriate for the controlled models instead of using a trial–error method to evaluate these variables. In addition, the proposed approach to test the system stability allows simplifying this task for controllers using hedge-algebras theory.

Topics & Concepts

Control theory (sociology)Robustness (evolution)Computer scienceController (irrigation)VibrationSuspension (topology)Stability (learning theory)HedgeOptimal controlControl engineeringMathematicsControl (management)Mathematical optimizationEngineeringArtificial intelligenceMachine learningEcologyBiologyChemistryGeneQuantum mechanicsPhysicsPure mathematicsHomotopyBiochemistryAgronomyVibration Control and Rheological FluidsVehicle Dynamics and Control SystemsDynamics and Control of Mechanical Systems