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Advanced active suspension control: A three-input fuzzy logic approach with jerk feedback for enhanced performance and robustness

Mohamed Salah Soudani, Abdelaziz Aouiche, Mouna Ghanai, Kheireddine Chafaa

2024Measurement15 citationsDOIOpen Access PDF

Abstract

Active suspension systems aim to increase ride comfort by reducing body acceleration due to road disturbances. This research proposes a new fuzzy logic controller (FLC) for such systems which includes acceleration error as third input. The objective of the proposed 3-inputs FLC is to improve vehicle comfort and ensure passenger safety. To assess the performances of the newly introduced controller, a theorical study is conducted on a quarter-car system with a four-wheel independent suspension design. Simulation results demonstrate high performances of the proposed 3-inputs FLC compared with conventional PID and 2-inputs FLC. The acceleration error as an additional FLC input was, to the best of our knowledge, not explored yet. Hence, this contribution offers a new method for the design of more effective active suspension systems.

Topics & Concepts

JerkControl theory (sociology)Active suspensionRobustness (evolution)Fuzzy logicAccelerationEngineeringControl engineeringSuspension (topology)Fuzzy control systemComputer scienceControl (management)MathematicsArtificial intelligenceActuatorClassical mechanicsPhysicsPure mathematicsGeneHomotopyBiochemistryChemistryElectrical engineeringVibration Control and Rheological FluidsVehicle Dynamics and Control SystemsEffects of Vibration on Health
Advanced active suspension control: A three-input fuzzy logic approach with jerk feedback for enhanced performance and robustness | Litcius