基于狩猎搜索算法的气动摆自适应模糊跟踪控制器

Ricardo Rojas-Galván, José R. García-Martínez, Edson E. Cruz-Miguel, O. A. Barra-Vázquez, Luis F. Olmedo-García, J. Rodríguez-Reséndíz
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引用次数: 0

摘要

气动摆是一种非线性系统,广泛用于开发和测试新的控制器策略。本文提出了一种使用狩猎搜索(HuS)算法的基于自适应 PID 模糊跟踪控制器的新方法。HuS 算法计算模糊化阶段的成员函数参数。作为一项创新,该算法保证了成员函数的重叠,以确保所有函数相互关联,从而产生新的 "猎手",在重叠区域寻找更好的解决方案。在去模糊化阶段,HuS 算法将单子设置在最佳位置,使用中心法评估控制器响应。为探究该方法的鲁棒性,在嵌入式系统中实施了 PID 模糊控制器算法,以跟踪航空摆锤试验台的角度位置。结果表明,所提出的自适应 PID 模糊控制器在 80、90 和 100 度时的均方根误差值分别为 0.42、0.40 和 0.49。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hunting Search Algorithm-Based Adaptive Fuzzy Tracking Controller for an Aero-Pendulum
The aero-pendulum is a non-linear system used broadly to develop and test new controller strategies. This paper presents a new methodology for an adaptive PID fuzzy-based tracking controller using a Hunting Search (HuS) algorithm. The HuS algorithm computes the parameters of the membership functions of the fuzzification stage. As a novelty, the algorithm guarantees the overlap of the membership functions to ensure that all the functions are interconnected, generating new hunters to search for better solutions in the overlapping area. For the defuzzification stage, the HuS algorithm sets the singletons in optimal positions to evaluate the controller response using the centroid method. To probe the robustness of the methodology, the PID fuzzy controller algorithm is implemented in an embedded system to track the angular position of an aero-pendulum test bench. The results show that the adaptive PID fuzzy controller proposed presents root mean square error values of 0.42, 0.40, and 0.49 for 80, 90, and 100 degrees, respectively.
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