部分未知动态的采样数据系统的基于学习的MPC。

ISA transactions Pub Date : 2025-04-30 DOI:10.1016/j.isatra.2025.04.028

Seungyong Han, Xuyang Guo, Suneel Kumar Kommuri

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引用次数: 0

摘要

针对动态部分未知的采样数据控制系统，提出了一种新的基于学习的模型预测控制方法。许多现实世界的过程都受到时变参数和不规则数据采样的影响，这使得准确的建模和稳定性保证极具挑战性。为了解决这个问题，该方法使用神经常微分方程（NODE）从不规则观测数据中学习未知的时变参数动态。然后将学习到的模型集成到采样数据MPC框架中。特别地，LMPC方法通过推导基于Gronwall-Bellman不等式的条件来保证系统的最终有界性。最后，通过两个实例说明了LMPC方法在实际系统中的适用性，并演示了其定量稳定性分析。

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Learning-based MPC of sampled-data systems with partially unknown dynamics.

In this paper, a novel learning-based model predictive control (LMPC) method is proposed for sampled-data control systems with partially unknown dynamics. Many real-world processes are subject to time-varying parameters and irregular data sampling, making accurate modeling and stability guarantees extremely challenging. To address this, the proposed method uses a neural ordinary differential equation (NODE) to learn unknown time-varying parameter dynamics from irregularly observed data. This learned model is then integrated into the sampled-data MPC framework. In particular, the LMPC method guarantees the system's ultimate boundedness by deriving conditions based on the Gronwall-Bellman inequality. Finally, two practical examples illustrate the applicability of the LMPC method to real-world systems and demonstrate its quantitative stability analysis.

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ISA transactions

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