Bacteria Foraging Optimization Algorithm based SVC damping controller design for power system stability enhancement

S.M. Abd-Elazim; E.S. Ali

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Bacteria Foraging Optimization Algorithm based SVC damping controller design for power system stability enhancement

机译：基于细菌寻觅优化算法的SVC阻尼控制器设计，用于提高电力系统的稳定性

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This paper proposes Bacteria Foraging Optimization Algorithm (BFOA) based Static Var Compensator (SVC) for the suppression of oscillations in a multimachine power system. The proposed design problem of SVC over a wide range of loading conditions is formulated as an optimization problem. BFOA is employed to search for optimal controller parameters by minimizing the time domain objective function. The performance of the proposed technique has been evaluated with the performance of Genetic Algorithm (GA) to demonstrate the superior efficiency of the proposed BFOA in tuning SVC controller. Simultaneous tuning of the Bacteria Foraging based SVC (BFSVC) gives robust damping performance over wide range of operating conditions in compare to optimized SVC controller based on GA (GASVC).

机译：本文提出了一种基于细菌觅食优化算法（BFOA）的静态无功补偿器（SVC），用于抑制多机电力系统中的振荡。提出的SVC在广泛负载条件下的设计问题被表述为优化问题。 BFOA用于通过最小化时域目标函数来搜索最佳控制器参数。通过遗传算法（GA）的性能对所提出技术的性能进行了评估，以证明所提出的BFOA在调节SVC控制器方面的卓越效率。与基于GA的优化SVC控制器相比，基于细菌觅食的SVC（BFSVC）的同步调整可在各种运行条件下提供强大的阻尼性能。

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来源
《International Journal of Electrical Power & Energy Systems》 |2012年第1期|p.933-940|共8页
作者
S.M. Abd-Elazim; E.S. Ali;
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作者单位

Electric Power and Machine Department, Faculty of Engineering, Zagazig University, Zagazig 44519, Egypt;

Electric Power and Machine Department, Faculty of Engineering, Zagazig University, Zagazig 44519, Egypt;

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正文语种 eng
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关键词
SVC; multimachine power system; genetic algorithm; bacteria foraging;

机译：SVC;多机电源系统;遗传算法细菌觅食;

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1. SVC Damping Controller Design Based on Bacteria Foraging Optimization Algorithm for a Multimachine Power System [J] . E.S. Ali, S.M. Abd-Elazim International journal of electrical and power engineering . 2011,第2期

机译：基于细菌觅食优化算法的多机电力系统SVC阻尼控制器设计
2. SVC Damping Controller Design Based on Bacteria Foraging Optimization Algorithm for a Multimachine Power System [J] . E.S. Ali, S.M. Abd-Elazim International journal of electrical and power engineering . 2011,第2期

机译：基于细菌觅食优化算法的多机电力系统SVC阻尼控制器设计
3. TCSC damping controller design based on bacteria foraging optimization algorithm for a multimachine power system [J] . E.S. Ali, S.M. Abd-Elazim International Journal of Electrical Power & Energy Systems . 2012,第1期

机译：基于细菌觅食优化算法的多机电力系统TCSC阻尼控制器设计
4. SVC damping controller design based on firefly optimization algorithm in multi machine power system [C] . Islam Naz Niamul, Hannan M A, Shareef Hussain, 2013 IEEE Conference on Clean Energy and Technology . 2013

机译：基于萤火虫优化算法的多机电力系统SVC阻尼控制器设计
5. Design of PMU based real time fuzzy logic SVC damping controller to enhance inter-area oscillation damping. [D] . Abueida, Sami Suliman. 2016

机译：基于PMU的实时模糊逻辑SVC阻尼控制器的设计，以增强区域间振荡阻尼。
6. Improved Power System Stability Using Backtracking Search Algorithm for Coordination Design of PSS and TCSC Damping Controller [O] . Naz Niamul Islam, M. A. Hannan, Azah Mohamed, 2011

机译：PSS和TCSC阻尼控制器协调设计的回溯搜索算法提高了电力系统的稳定性
7. SVC Damping Controller Design Based on Bacteria Foraging Optimization Algorithm for a Multimachine Power System [O] . E.S. Ali, S.M. Abd-Elazim 2011

机译：基于细菌觅食优化算法的多机动力系统的SVC阻尼控制器设计

Bacteria Foraging Optimization Algorithm based SVC damping controller design for power system stability enhancement

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