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Supervisory enhanced genetic algorithm control for indirect field-oriented induction motor drive

机译：间接磁场定向感应电动机驱动的监督增强遗传算法控制

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摘要

A supervisory enhanced genetic algorithm control (SEGAC) system is proposed for an indirect field-oriented induction motor (IM) drive to track periodic commands. The proposed control scheme comprises an enhanced genetic algorithm control (EGAC) and a supervisory control. In the EGAC design, the spirit of gradient descent training is embedded in genetic algorithm (GA) to construct the major controller for searching optimum control effort under the possible occurrence of uncertainties. To stabilize the system states around a defined bound region, a supervisory controller, which is derived in the sense of Lyapunov stability theorem, is designed within the EGAC. The effectiveness of the proposed control strategy is verified by numerical simulation and experimental results, and its advantages are indicated in comparison with a conventional supervisory genetic algorithm control (SGAC) system in the previous works.

机译：提出了一种监督增强型遗传算法控制（SEGAC）系统，用于间接磁场定向感应电动机（IM）驱动器来跟踪周期性命令。所提出的控制方案包括增强的遗传算法控制（EGAC）和监督控制。在EGAC设计中，将梯度下降训练的精神嵌入遗传算法（GA）中，以构造主要控制器，以在可能出现不确定性的情况下寻找最佳控制效果。为了在定义的边界区域周围稳定系统状态，在EGAC中设计了一个监督控制器，该监督控制器是根据Lyapunov稳定性定理得出的。数值仿真和实验结果验证了所提出控制策略的有效性，并与以往的传统监督遗传算法控制系统相比，具有明显的优势。

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《》|2004年|p.1239-1244|共6页
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Rong-Jong Wai; Jeng-Dao Lee; Kuo-Ho Su;
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中图分类无线电电子学、电信技术;
关键词
induction motor drives; machine control; control system synthesis; Lyapunov methods; stability; gradient methods; learning (artificial intelligence); supervisory enhanced genetic algorithm control system; indirect field oriented induction motor drive; gradient descent training; supervisory controller; Lyapunov stability theorem; control strategy; numerical simulation;

机译：感应电动机驱动;机器控制;控制系统综合; Lyapunov方法;稳定性;梯度方法;学习（人工智能）;监督增强遗传算法控制系统;定向磁场定向感应电动机驱动;梯度下降训练;监督控制器; Lyapunov稳定性定理;控制策略;数值模拟;

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专利

1. Supervisory genetic evolution control for indirect field-oriented induction motor drive [J] . Wai R.-J. IEE Proceedings. Part B, Electric Power Applications . 2003,第2期

机译：间接磁场定向感应电动机驱动的监督遗传进化控制
2. Enhanced Indirect Field-Oriented Control of Single-Phase Induction Motor Drive Using H_∞ Current Controller [J] . Feraga Chams-Eddine, Sedraoui Moussa, Bouiadjra Rochdi Bachir Arabian Journal for Science and Engineering . 2019,第8期

机译：使用H_∞电流控制器的增强型单相感应电动机驱动器的间接磁场定向控制
3. Enhanced Indirect Field-Oriented Control of Single-Phase Induction Motor Drive Using H_∞ Current Controller [J] . Feraga Chams-Eddine, Sedraoui Moussa, Bouiadjra Rochdi Bachir Arabian Journal for Science and Engineering . 2019,第8期

机译：使用H_∞电流控制器增强间接面向单相电动机驱动的控制控制
4. Supervisory genetic evolution control for indirect field-oriented induction motor drive [C] . Wai, R.-J. . 2003

机译：间接磁场定向感应电动机驱动的监督遗传进化控制
5. Field-oriented control for induction motor drives. [D] . Daboussi, Zaher Abdallah. 1990

机译：感应电动机驱动器的磁场定向控制。
6. Virtual Current Sensor in the Fault-Tolerant Field-Oriented Control Structure of an Induction Motor Drive [O] . Michal Adamczyk, Teresa Orlowska-Kowalska 2019

机译：虚拟电流传感器在感应电动机驱动器的容错磁场定向控制结构中
7. A unified approach for PI controller design in delta domain for indirect field-oriented control of induction motor drive [O] . Prasanta Sarkar, Aliprio Hazra, Arindam Mondal 2020

机译：平坦域PI控制器设计的统一方法，用于间接电机驱动的间接现场导向控制

Supervisory enhanced genetic algorithm control for indirect field-oriented induction motor drive

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