Preliminary experimental assessment of second-order sliding mode control for wave energy conversion systems

2022 Australian & New Zealand Control Conference (ANZCC) Pub Date : 2022-11-24 DOI:10.1109/ANZCC56036.2022.9966859

N. Faedo, F. Mosquera, C. Evangelista, J. Ringwood, P. Puleston

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引用次数: 4

Abstract

Wave energy converters (WECs) inherently necessitate appropriate control technology to operate at optimal efficiency. A particularly well-established family of WEC controllers is based upon a composite structure, where an optimal velocity reference is generated via direct optimal control procedures, followed by a suitable tracking control strategy. Recently, second-order sliding mode (SOSM) control has been shown to be a promising technique for the latter reference tracking problem in WEC systems, being able to achieve robust performance with finite-time convergence. Motivated by the potential of SOSM control within the wave energy field, this paper provides an experimental assessment of SOSM in a tailored hardware-in-the-loop system, located within the facilities of the Centre for Ocean Energy Research, Ireland. We show that the proposed controller is able to achieve robust reference tracking in a variety of wave conditions, consistently maximising energy absorption at virtually the same level of performance obtained in simulation, hence being an ideal candidate for WEC applications.

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波能转换系统二阶滑模控制的初步实验评价

波浪能转换器(WECs)本质上需要适当的控制技术以达到最佳效率。一个特别完善的WEC控制器系列是基于复合结构的，其中通过直接最优控制程序生成最优速度参考，然后是合适的跟踪控制策略。近年来，二阶滑模(SOSM)控制已被证明是一种很有前途的技术，用于WEC系统的后期参考跟踪问题，能够实现有限时间收敛的鲁棒性能。由于SOSM在波浪能场中的控制潜力，本文在位于爱尔兰海洋能源研究中心设施内的定制硬件在环系统中提供了SOSM的实验评估。我们表明，所提出的控制器能够在各种波浪条件下实现鲁棒参考跟踪，在几乎与仿真中获得的性能水平相同的情况下始终最大限度地提高能量吸收，因此是WEC应用的理想候选者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 Australian & New Zealand Control Conference (ANZCC)

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