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Hardware-in-the-Loop Test of an Open-Loop Fuzzy Control Method for Decoupled Electrohydraulic Antilock Braking System

Andrei Aksjonov, Vincenzo Ricciardi, Klaus Augsburg, Valery Vodovozov, Eduard Petlenkov

2020IEEE Transactions on Fuzzy Systems42 citationsDOIOpen Access PDF

Abstract

To verify the functionality of an intelligent open-loop fuzzy-logic-based antilock braking system control method for four on-board motor drive electric sport utility vehicle, a hardware-in-the-loop experiment is conducted in this article. The experimental facility includes a novel decoupled electrohydraulic brake test bed characterized by highly nonlinear dynamics and time-varying behavior. It reproduces real pressure dynamics of the brake circuit allowing for simulation of various tire-road adhesions conditions and brake blending scenarios. To cope with degradation of antilock braking system performance induced by unexpected changing environmental conditions, such as road surface, the developed fuzzy control features a very simple yet effective and robust road surface recognition tool with estimation of the peak braking demands. Thus, the fuzzy logic serves as a controller and road surface estimator simultaneously allowing for complex mathematical modeling and feedback control avoidance not sacrificing safety system's performance. The results indicate that the control method manages highly nonlinear and time-variant dynamics of the brake system and offers significant feasibility for optimal slip control at regenerative braking, ensuring fuzzy control's potentiality for real-time application.

Topics & Concepts

Anti-lock braking systemBrakeControl theory (sociology)Fuzzy logicFuzzy control systemVehicle dynamicsControl engineeringNonlinear systemComputer scienceControl systemEngineeringHardware-in-the-loop simulationAutomotive engineeringControl (management)Artificial intelligenceQuantum mechanicsPhysicsElectrical engineeringVehicle Dynamics and Control SystemsHydraulic and Pneumatic SystemsElectric and Hybrid Vehicle Technologies
Hardware-in-the-Loop Test of an Open-Loop Fuzzy Control Method for Decoupled Electrohydraulic Antilock Braking System | Litcius