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Design of a Data-Driven Control System using a Multi-Objective Genetic Algorithm

机译：使用多目标遗传算法设计数据驱动控制系统

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In recent years, control design schemes for directly calculating control parameters from operational data have been realized and include the virtual reference feedback tuning (VRFT) method and the fictitious reference iterative tuning (FRIT) method. They were designed for objects that have a linear system. However, many objects in industry are nonlinear; hence, it is challenging to obtain good control performance by only applying fixed PID controllers. In this study, multiple linear systems as objects using multiple linear controllers are investigated. Specifically, it is necessary to solve two optimization problems of (i) the number of controllers (ii) the control parameters of each controller, and it is solving by using multi-objective genetic algorithm (MOGA) in this research.

机译：近年来，已经实现了从操作数据直接计算控制参数的控制设计方案，并包括虚拟参考反馈调谐（VRFT）方法和虚拟参考迭代调谐（FRIT）方法。它们是设计用于具有线性系统的物体。然而，工业中的许多物品都是非线性的;因此，通过仅应用固定的PID控制器来获得良好的控制性能是具有挑战性的。在本研究中，研究了多个线性系统作为使用多个线性控制器的对象进行了研究。具体地，有必要解决（i）控制器的数量（i）每个控制器的控制参数的两个优化问题，并且通过在本研究中使用多目标遗传算法（MOGA）来解决。

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《IFAC Workshop on Adaptive and Learning Control Systems 》|2020年|349p|共4页
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作者
Takuya Kinoshita; Toru Yamamoto;
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中图分类 TP273-53;
关键词
Multi-objective genetic algorithm; Data-driven control; VRFT;

机译：多目标遗传算法;数据驱动控制;vrft.;

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专利

1. Design of a Data-Driven Control System using a Multi-Objective Genetic Algorithm [J] . Takuya Kinoshita, Toru Yamamoto IFAC PapersOnLine . 2019 ,第29期

机译：多目标遗传算法的数据驱动控制系统设计
2. Design of PID controller using multi-objective genetic algorithm for load frequency control in interconnected power systems [J] . Mohsen Farahani Journal of intelligent & fuzzy systems: Applications in Engineering and Technology . 2014 ,第2期

机译：基于多目标遗传算法的互联电力系统负荷频率PID控制器设计
3. Pareto design of Load Frequency Control for interconnected power systems based on multi-objective uniform diversity genetic algorithm (MUGA) [J] . Nikmanesh E., Hariri O., Shams H., International Journal of Electrical Power & Energy Systems . 2016 ,第sepa期

机译：基于多目标均匀分集遗传算法（MUGA）的互联电力系统负荷频率控制的帕累托设计
4. Design of a Data-Driven Control System using a Multi-Objective Genetic Algorithm [C] . Takuya Kinoshita, Toru Yamamoto IFAC Workshop on Adaptive and Learning Control Systems . 2020

机译：使用多目标遗传算法设计数据驱动控制系统
5. Structural control architecture optimization for three-dimensional systems using advanced multi-objective genetic algorithms. [D] . Cha, Young Jin. 2008

机译：使用先进的多目标遗传算法对三维系统进行结构控制体系结构优化。
6. Multi-objective AGV scheduling in an automatic sorting system of an unmanned (intelligent) warehouse by using two adaptive genetic algorithms and a multi-adaptive genetic algorithm [O] . Yubang Liu, Shouwen Ji, Zengrong Su, 2019

机译：通过使用两个自适应遗传算法和多自适应遗传算法无人驾驶（智能）仓库自动分拣系统中的多目标AGV调度
7. Solving Multi-Objective Linear Control Design Problems Using Genetic Algorithms [O] . Gustavo Sánchez, Minaya Villasana, Miguel Strefezza 2015

机译：用遗传算法求解多目标线性控制设计问题

Design of a Data-Driven Control System using a Multi-Objective Genetic Algorithm

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