Koopman fault‐tolerant model predictive control

Mohammadhosein Bakhtiaridoust, Meysam Yadegar, Fatemeh Jahangiri
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Abstract

This paper introduces a novel data‐driven approach to develop a fault‐tolerant model predictive controller (MPC) for non‐linear systems. By adopting a Koopman operator‐theoretic perspective, the proposed method leverages historical data from the system to construct a data‐driven model that captures the non‐linear behaviour and fault characteristics. The fault influence is addressed through an online estimation of a time‐varying Koopman predictor, which allows for adjusting the MPC control law to counteract the fault effects. This estimation is performed in a higher dimensional Koopman feature space, where the dynamics behave linearly. As a result, the non‐linear fault‐tolerant MPC optimization problem can be replaced with a more practical and feasible linear time‐varying one using the approximated Koopman predictor. Moreover, by incorporating the online update procedure, the time‐varying Koopman predictor can represent the dynamics of the faulty system. Hence, the controller can adapt and compensate for the faults in real‐time, integrating the fault diagnosis module in the MPC framework and eliminating the need for a separate fault detection unit. Finally, the efficacy of the proposed approach is demonstrated through case study results, which highlight the ability of the controller to mitigate faults and maintain desired system behaviour.
Koopman 容错模型预测控制
本文介绍了一种新颖的数据驱动方法,用于开发非线性系统的容错模型预测控制器(MPC)。通过采用 Koopman 算子理论视角,所提出的方法利用系统的历史数据来构建数据驱动模型,从而捕捉非线性行为和故障特征。故障影响可通过在线估计时变库普曼预测器来解决,从而调整 MPC 控制法则以抵消故障影响。这种估计是在高维 Koopman 特征空间中进行的,其中的动态表现为线性。因此,利用近似库普曼预测器,非线性容错 MPC 优化问题可被更实用、更可行的线性时变问题所取代。此外,通过采用在线更新程序,时变 Koopman 预测器可以代表故障系统的动态。因此,控制器可以实时适应和补偿故障,将故障诊断模块集成到 MPC 框架中,无需单独的故障检测单元。最后,通过案例研究结果展示了所提方法的功效,突出了控制器缓解故障和保持理想系统行为的能力。
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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