Optimizing power consumption and position control in an electro-hydraulic system with cylinder bypass and NN-MPC

Khedr, Omar Hesham; Awad, Mohammed Ibrahim; Al-Oufy, Affaf Khamis; Maged, Shady A.

doi:10.1038/s41598-024-51318-x

Sci Rep

2024

DOI: 10.1038/s41598-024-51318-x

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Optimizing power consumption and position control in an electro-hydraulic system with cylinder bypass and NN-MPC

Omar Hesham Khedr,

Mohammed Ibrahim Awad,

Affaf Khamis Al-Oufy

et al.

Abstract: This study introduces an innovative approach to enhance the energy efficiency and position control performance of electro-hydraulic systems, employing a comprehensive comparative analysis. It presents and evaluates three control techniques: Proportional-Integral-Derivative (PID) control, Model Predictive Control (MPC), and Neural Network Model Predictive Control (NN-MPC). These methods are systematically assessed across varying load conditions. Notably, our research unequivocally establishes the exceptional pe… Show more

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2024

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Cited by 1 publication

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Invariance Compensation Pid Control for a Proportional Valve-controlled Asymmetric Cylinder System

XU,

ZENG

2024

Preprint

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A load flow model of a proportional valve-controlled asymmetric cylinder system is developed to assess inconsistent dynamic properties. The load flow property is analyzed, and the basic state is defined for the system. In addition, an invariance compensation method is proposed that considers the structure and load effect. If any asymmetric state of the system is equivalent to the basic state through invariance compensation, then the symmetrical load flow property is obtained, which is verified through simulation. Proportion–integration–differentiation (PID) control based on invariant compensation is used in the system, and the dynamic characteristics are almost the same. The experimental results show that the flow error between the load state and the basic state is less than 11% in the linear region of the proportional valve for the asymmetric cylinder system when the system load pressure is less than half of the pump pressure. The response error is approximately 0.04 s between the forward and reverse directions under the given asymmetric load.

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Invariance Compensation Pid Control for a Proportional Valve-controlled Asymmetric Cylinder System

XU,

ZENG

2024

Preprint

View full text Add to dashboard Cite

show abstract

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Optimizing power consumption and position control in an electro-hydraulic system with cylinder bypass and NN-MPC

Cited by 1 publication

References 25 publications

Invariance Compensation Pid Control for a Proportional Valve-controlled Asymmetric Cylinder System

Invariance Compensation Pid Control for a Proportional Valve-controlled Asymmetric Cylinder System

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