Neural adaptive finite-time dynamic surface control for the PMSM system with time delays and asymmetric time-varying output constraint

Wu, Fengbin; Zhang, Junxing; Li, Shaobo; Li, Menghan; Zhou, Peng; Yang, Bo

doi:10.1177/10775463221138637

Journal of Vibration and Control

2022

DOI: 10.1177/10775463221138637

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Neural adaptive finite-time dynamic surface control for the PMSM system with time delays and asymmetric time-varying output constraint

Fengbin Wu

Junxing Zhang

Shaobo Li

et al.

Abstract: This paper presents a neural adaptive finite-time dynamic surface control for the permanent magnet synchronous motor system with time delays and asymmetric time-varying output constraint. The core challenge is how to address the time delays and asymmetric output constraint when designing a finite-time control scheme. Given this, a proper Lyapunov–Krasovskii functional is introduced to address time delays, and a nonlinear transformation function is considered to convert the output-constrained problem into an un… Show more

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2024

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A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

Mahmoudi Rashid,

Rikhtehgar Ghiasi,

Ghaemi

2024

Journal of Vibration and Control

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In the realm of large-scale systems, the complexity of controller design has long been exacerbated by the proliferation of decision variables and inherent conservatism. This study introduces a novel approach to address these challenges, presenting a new distributed robust controller design methodology tailored for large-scale systems grappling with disturbances, uncertainties, and actuator saturations. The primary objectives include reducing conservatism, minimizing decision variables, and significantly curtailing computation time. To surmount these hurdles, the research leverages descriptive and reciprocally convex methods, formulating the design procedure using linear matrix inequalities. This enables the adjustment of uncertain parameters and robust disturbance rejection, thereby ensuring stability in large-scale systems. Additionally, a feedback control law is proposed to accommodate saturation constraints and ensure the closed-loop system’s stability. Notably, the effectiveness of the proposed control scheme is demonstrated through the evaluation of a full-car active suspension system, which is partitioned into interconnected subsystems to a large-scale system. Comparative analyses underscore the superior performance and technical advancements offered by the proposed methodology over existing approaches.

show abstract

A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

Mahmoudi Rashid,

Rikhtehgar Ghiasi,

Ghaemi

2024

Journal of Vibration and Control

View full text Add to dashboard Cite

show abstract

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Neural adaptive finite-time dynamic surface control for the PMSM system with time delays and asymmetric time-varying output constraint

Cited by 1 publication

References 45 publications

A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

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Neural adaptive finite-time dynamic surface control for the PMSM system with time delays and asymmetric time-varying output constraint

Cited by 1 publication

References 45 publications

A new distributed robust H∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

A new distributed robust H∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

Contact Info

Product

Resources

About

A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance

A new distributed robust H_∞ control strategy for a class of uncertain interconnected large-scale time-delay systems subject to actuator saturation and disturbance