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Nonlinear model predictive control—Cross-coupling control with deep neural network feedforward for multi-hydraulic system synchronization control

Dongyi Li, Kun Lü, Yong Cheng, Huapeng Wu, Heikki Handroos, Songzhu Yang, Yu Zhang, Hongtao Pan

2024ISA Transactions12 citationsDOIOpen Access PDF

Abstract

This paper studies a multi-hydraulic system (MHS) synchronization control algorithm. Firstly, a general nonlinear asymmetric MHS state space entirety model is established and subsequently the model form is simplified by nonlinear feedback linearization. Secondly, an entirety model-type solution is proposed, integrating a nonlinear model predictive control (NMPC) algorithm with a cross-coupling control (CCC) algorithm. Furthermore, a novel disturbance compensator based on the system's inverse model is introduced to effectively handle disturbances, encompassing unmodeled errors and noise. The proposed innovative controller, known as nonlinear model predictive control-cross-coupling control with deep neural network feedforward (NMPC-CCC-DNNF), is designed to minimize synchronization errors and counteract the impact of disturbances. The stability of the control system is rigorously demonstrated. Finally, simulation results underscore the efficacy of the NMPC-CCC-DNNF controller, showcasing a remarkable 60.8% reduction in synchronization root mean square error (RMSE) compared to other controllers, reaching up to 91.1% in various simulations. These results affirm the superior control performance achieved by the NMPC-CCC-DNNF controller.

Topics & Concepts

Control theory (sociology)Feed forwardModel predictive controlController (irrigation)Nonlinear systemSynchronization (alternating current)Artificial neural networkComputer scienceControl engineeringEngineeringControl (management)Artificial intelligenceChannel (broadcasting)PhysicsQuantum mechanicsAgronomyBiologyComputer networkHydraulic and Pneumatic SystemsIterative Learning Control SystemsAdaptive Control of Nonlinear Systems
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