Automatic voltage regulator design based on fractional calculus plus PID controller

机译：基于分数演算加PID控制器的自动电压调节器设计

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In automatic Voltage regulator proportional., integral and derivative controller (PID) used as a generic feedback controller. In this context PID controller parameters are selected in automatic voltage regulator is a new challenge for the researchers. The AVR regulates the amount of reactive power and voltage. The suggested work provides a technique known as SCA optimization (sine cosine algorithm) to tune the FOPID controller parameters. It has a very simple implementation secure convergence function and the ability to quickly adjust optimum PID controller. The characteristics of optimum FPID controller (Kp.,Ki.,KD) are selected by the novel approached sine cosine optimization technique. To analysis the performance., it has been observed that SCA-FPID controller offer the efficiency and durability needed to increase the step response of the AVR system.

机译：在比例自动电压调节器中，积分和微分控制器（PID）用作通用反馈控制器。在这种情况下，在自动电压调节器中选择PID控制器参数是研究人员面临的新挑战。 AVR调节无功功率和电压量。建议的工作提供了一种称为SCA优化（正弦余弦算法）的技术来调整FOPID控制器参数。它具有非常简单的实现，安全收敛功能和快速调整最佳PID控制器的能力。通过新颖的正弦余弦优化技术来选择最佳FPID控制器（Kp。，Ki。，KD）的特性。为了分析性能，已经观察到SCA-FPID控制器具有提高AVR系统的阶跃响应所需的效率和耐用性。

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来源
《International Conference on Computational Intelligence for Smart Power System and Sustainable Energy》|2020年|1-4|共4页
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Jugajyoti Sahu; Priyambada Satapathy; Manoj Kumar Debnath; Pradeep Kumar Mohanty; Binod Kumar Sahu; Jyoti Ranjan Padhi;
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Automatic voltage regulator(AVR); fractional order PID controller(FOPID); Sine cosine algorithm(SCA);

机译：自动电压调节器（AVR）;分数阶PID控制器（FOPID）;正弦余弦算法（SCA）;

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专利

1. FRACTIONAL CALCULUS-BASED OPTIMAL CONTROLLERS OF AUTOMATIC VOLTAGE REGULATOR IN POWER SYSTEM [J] . M.I. Alomoush Control and Intelligent Systems . 2010,第1期

机译：基于分数阶计算的电力系统自动电压调节器最优控制器
2. Optimal fractional order PID controller design for automatic voltage regulator system based on reference model using particle swarm optimization [J] . Li Xiao, Wang Ying, Li Ning, International journal of machine learning and cybernetics . 2017,第5期

机译：基于参考模型和粒子群算法的自动调压系统最优分数阶PID控制器设计
3. Design of fractional order PID controller for automatic regulator voltage system based on multi-objective extremal optimization [J] . Zeng Guo-Qiang, Chen Jie, Dai Yu-Xing, Neurocomputing . 2015,第jula21期

机译：基于多目标极值优化的自动调节器电压系统分数阶PID控制器设计
4. Design of Robust Optimal Fractional-order PID Controller using Salp Swarm Algorithm for Automatic Voltage Regulator (AVR) System [C] . Prajakta Sirsode, Arti Tare, Vijay Pande Indian Control Conference . 2019

机译：基于Salp Swarm算法的自动稳压器鲁棒最优分数阶PID控制器设计
5. Design and implementation of a computer-based automatic voltage regulator for a synchronous machine. [D] . Ahiakwo, Onyinyechukwu. 2012

机译：基于计算机的同步机自动电压调节器的设计和实现。
6. Optimum Design of PIλDμ Controller for an Automatic Voltage Regulator System Using Combinatorial Test Design [O] . Bestoun S. Ahmed, Mouayad A. Sahib, Luca M. Gambardella, -1

机译：基于组合测试设计的自动调压系统PIλDμ控制器的优化设计
7. Automatic Voltage Regulator (AVR) Controller Design Based on Routh’s Crution Stability Analysis in Diesel-Based Power Plants [O] . Paulus Mangera, Frederik Hariyanto Sumbung, Daniel Parenden 2018

机译：基于Routh基于柴油机的电厂稳定性分析的自动电压调节器（AVR）控制器设计

Automatic voltage regulator design based on fractional calculus plus PID controller

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