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Discrete-time adaptive neural network control for steer-by-wire systems with disturbance observer

Yunlong Wang, Yunlong Wang, Yongfu Wang, Yongfu Wang

2021Expert Systems with Applications29 citationsDOIOpen Access PDF

Abstract

This paper investigates the design and implementation of the discrete-time adaptive neural network control with disturbance observer (DO) on a steer-by-wire (SbW) system, to simultaneously realize accurate tracking and anti-interference performance. Specifically, to approximate the lumped system uncertainty including the friction torque and self-aligning torque, the neural network is employed. To improve the steering tracking performance, the discrete-time identification model is proposed so that the tracking error and modeling error can be utilized to adjust the neural network updating law. Then, the unknown compound disturbances caused by external disturbance, Euler approximation errors and neural network approximation error are restrained by two DOs. Finally, the Lyapunov stability theory shows that the system tracking error is uniformly ultimately bounded. Both numerical simulations and experiments are implemented to show the superiority of the proposed controller.

Topics & Concepts

Control theory (sociology)Artificial neural networkTracking errorComputer scienceObserver (physics)Discrete time and continuous timeTorqueController (irrigation)Bounded functionTracking (education)Approximation errorLyapunov functionLyapunov stabilityAdaptive controlStability (learning theory)Control engineeringControl (management)MathematicsArtificial intelligenceNonlinear systemAlgorithmEngineeringMachine learningStatisticsAgronomyMathematical analysisQuantum mechanicsPedagogyPsychologyThermodynamicsBiologyPhysicsAdaptive Control of Nonlinear SystemsHydraulic and Pneumatic SystemsDynamics and Control of Mechanical Systems