Robust model-based predictive iterative learning control for systems with non-repetitive disturbances

IF 3.7 2区 计算机科学 Q2 AUTOMATION & CONTROL SYSTEMS Nonlinear Analysis-Hybrid Systems Pub Date : 2023-10-11 DOI:10.1016/j.nahs.2023.101436
Chao He, Junmin Li, Sanyang Liu, Jiaxian Wang
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Abstract

Iterative Learning Control (ILC) is commonly used for batch processes. However, it may face difficulties when dealing with non-repetitive disturbances and inconsistent initial states. In situations with non-repetitive disturbances, the output may disobey constraints and negatively impact tracking performance when using existing predictive ILC algorithms. This paper introduces a new model-predictive ILC incorporating feed-forward and feedback mechanisms. This new approach evaluates and attenuates the impact of non-repetitive disturbances on the output. As a result, constraints are guaranteed, and tracking performance is preserved and improved, even in the presence of non-repetitive disturbances. Furthermore, if the desired trajectory is unattainable, the proposed ILC can robustly track an optimal trajectory while still guaranteeing constraints. The convergence is proven rigorously. Finally, two examples are provided to demonstrate the effectiveness of this new approach.

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非重复扰动系统的鲁棒模型预测迭代学习控制
迭代学习控制(ILC)是批处理过程中常用的控制方法。然而,在处理非重复干扰和不一致的初始状态时,它可能面临困难。在非重复干扰的情况下,当使用现有的预测ILC算法时,输出可能不服从约束并对跟踪性能产生负面影响。本文介绍了一种结合前馈和反馈机制的新型模型预测型ILC。这种新方法评估和衰减非重复干扰对输出的影响。因此,约束得到了保证,跟踪性能得到了保留和改进,即使在存在非重复干扰的情况下也是如此。此外,如果期望的轨迹无法实现,所提出的ILC可以鲁棒地跟踪最优轨迹,同时仍然保证约束。严格证明了该算法的收敛性。最后,通过两个实例验证了该方法的有效性。
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来源期刊
Nonlinear Analysis-Hybrid Systems
Nonlinear Analysis-Hybrid Systems AUTOMATION & CONTROL SYSTEMS-MATHEMATICS, APPLIED
CiteScore
8.30
自引率
9.50%
发文量
65
审稿时长
>12 weeks
期刊介绍: Nonlinear Analysis: Hybrid Systems welcomes all important research and expository papers in any discipline. Papers that are principally concerned with the theory of hybrid systems should contain significant results indicating relevant applications. Papers that emphasize applications should consist of important real world models and illuminating techniques. Papers that interrelate various aspects of hybrid systems will be most welcome.
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