Optimal design of fractional order PI~λD~μ controller for an AVR system using Ant Lion Optimizer

机译：使用Anti Optimizer的AVR系统分数阶PI〜λdμ控制器的优化设计

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Application of fractional order PID (FOPID) controller to an automatic voltage regulator (AVR) is presented and studied in this paper. Fractional-order PI~λD~μcontroller is a generalization of standard PID controller using fractional calculus. Compared to PID controller, the tuning of FOPID is more complex and remains a challenging problem. Indeed, design stage of such a controller consists of determining eleven parameters. This paper proposes a novel population based optimization algorithm called Ant Lion Optimizer algorithm (ALO) for solving the FOPID controller tuning problem. ALO has proved to have very high efficiency. Comparisons are made with Particle Swarm Optimization (PSO), Genetic Algorithm (GA), Cultural algorithms (CAs) and multi-objective evolutionary optimizers (MOEO) techniques and it is shown that the proposed FOPID controller can highly improve the system robustness.

机译：本文提出和研究了分数级PID（FOPID）控制器对自动电压调节器（AVR）的应用。分数级PI〜λd〜μController是使用分数微积分的标准PID控制器的概括。与PID控制器相比，FoPID的调整更复杂，并且仍然是一个具有挑战性的问题。实际上，这种控制器的设计阶段包括确定11个参数。本文提出了一种新颖的基于群体的优化算法，称为蚂蚁狮子优化算法（ALO），用于解决FoPID控制器调谐问题。 ALO已证明具有很高的效率。使用粒子群优化（PSO），遗传算法（GA），培养算法（CAS）和多目标进化优化器（MOOO）技术进行比较，并且表明所提出的FoPID控制器可以高度提高系统鲁棒性。

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《IFAC Conference on Manufacturing Modelling, Management, and Control》|2020年|706p|共6页
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Bachir Bourouba; Samir Ladaci; Horst Schulte;
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中图分类 TP273-53;
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AVR System; Fractional order PI~λD~μcontrol; Ant Lion Optimizer algorithm (ALO); Parameters’ adjustment;

机译：AVR系统;分数阶PI〜λd〜μControl;蚂蚁狮子优化算法（ALO）;参数调整;

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1. Optimal design of fractional order PI λD μ controller for an AVR system using Ant Lion Optimizer [J] . Bachir Bourouba, Samir Ladaci, Horst Schulte IFAC PapersOnLine . 2019,第13期

机译：使用Ant Lion Optimizer的AVR系统的分数阶PI λ D μ控制器的优化设计
2. Optimal design of fractional order PI λD μ controller for an AVR system using Ant Lion Optimizer [J] . Bachir Bourouba, Samir Ladaci, Horst Schulte IFAC PapersOnLine . 2019,第13期

机译：使用Ant Lion Optimizer的AVR系统的分数阶PI λ D μ控制器的优化设计
3. Optimum design of fractional order PI~λD~μ controller for AVR system using chaotic ant swarm [J] . Yinggan Tang, Mingyong Cui, Changchun Hua, Expert systems with applications . 2012,第8期

机译：基于混沌蚁群的AVR系统分数阶PI〜λD〜μ控制器的优化设计
4. Optimal design of fractional order PI~λD~μ controller for an AVR system using Ant Lion Optimizer [C] . Bachir Bourouba, Samir Ladaci, Horst Schulte IFAC Conference on Manufacturing Modelling, Management, and Control . 2020

机译：使用Anti Optimizer的AVR系统分数阶PI〜λdμ控制器的优化设计
5. Design & Optimization of Intelligent PI Controllers (Fuzzy & Neuro-Fuzzy) for HVDC Transmission System. [D] . Multani, Munish. 2010

机译：高压直流输电系统智能PI控制器（模糊和神经模糊）的设计和优化。
6. Optimal Fractional-Order Active Disturbance Rejection Controller Design for PMSM Speed Servo System [O] . Pengchong Chen, Ying Luo, Yibing Peng, 2021

机译：PMSM速度伺服系统的最佳分数阶主动干扰抑制控制器设计
7. Chaotic multi-objective optimization based design of fractional order PI{\lambda}D{\mu} controller in AVR system [O] . Pan, Indranil, Das, Saptarshi 2013

机译：基于混沌多目标优化的分数阶设计 aVR系统中的pI {\ lambda} D {\ mu}控制器

Optimal design of fractional order PI~λD~μ controller for an AVR system using Ant Lion Optimizer

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