Bacterial Foraging Technique-Based Optimized Active Power Filter for Load Compensation

S. Mishra; C. N. Bhende

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Bacterial Foraging Technique-Based Optimized Active Power Filter for Load Compensation

机译：基于细菌觅食技术的优化有源电力滤波器，用于负载补偿

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The conventional method of obtaining the coefficients of proportional plus integral (PI) controllers for the active power filter utilizes a linear model of the PWM inverter. The values so obtained may not give satisfactory results for a wide variation in operating conditions. This paper presents a new algorithm based on the foraging behavior of E-coli Bacteria in the human intestine, to optimize the coefficients of the PI controller. Through the simulation results, it is observed that the dynamic response of the bacterial foraging PI (BF-PI) controller is quite satisfactory. The proposed BF technique is compared with the genetic algorithm (GA) and found to converge faster than GA to reach the global optimum solution

机译：获得用于有源功率滤波器的比例加积分（PI）控制器系数的常规方法利用了PWM逆变器的线性模型。对于大范围的工作条件，如此获得的值可能无法给出令人满意的结果。本文提出了一种基于大肠杆菌在人肠中觅食行为的新算法，以优化PI控制器的系数。通过仿真结果，可以观察到细菌觅食PI（BF-PI）控制器的动态响应是令人满意的。将提出的BF技术与遗传算法（GA）进行比较，发现收敛速度比GA更快，可以达到全局最优解

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《IEEE Transactions on Power Delivery》 |2007年第2007期|p.457-465|共9页
作者
S. Mishra; C. N. Bhende;
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原文格式 PDF
正文语种 eng
中图分类输配电技术;
关键词
PI control; PWM invertors; active filters; genetic algorithms; power filters; E-coli bacteria; PI controller; PWM inverter; active power filter optimization; bacterial foraging technique; genetic algorithm; global optimum solution; load compensation; proportional plu;

机译：PI控制;PWM逆变器;有源滤波器;遗传算法;功率滤波器;大肠杆菌;PI控制器;PWM逆变器;有源功率滤波器优化;细菌觅食技术;遗传算法;全局最优解;负载补偿;比例Plu;

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专利

1. Bacterial Foraging Technique-Based Optimized Active Power Filter for Load Compensation [J] . S. Mishra, C. N. Bhende IEEE Transactions on Power Delivery . 2007,第1期

机译：基于细菌觅食技术的优化有源电力滤波器，用于负载补偿
2. Harmonic Compensation Using On-Line Bacterial Foraging Optimization Based Three-Phase Active Power Filter [J] . G. El-Saady, Abou-Hashima El-Sayed, E. A. Ebrahim, WSEAS Transactions on Power Systems . 2015,第Null期

机译：三相有源电力滤波器在线细菌觅食优化的谐波补偿
3. Bacterial foraging optimization and adaptive version for economically optimum sitting, sizing and harmonic tuning orders setting of LC harmonic passive power filters in radial distribution systems with linear and nonlinear loads [J] . Mohammadi Mohammad Applied Soft Computing . 2015,第Null期

机译：用于线性和非线性负载的径向配电系统中LC谐波无源功率滤波器的细菌觅食优化和自适应版本，可实现经济上最佳的就座，定型和谐波调整阶数设置
4. Optimal load compensation by 3-phase 4-wire shunt active power filter under distorted mains supply employing bacterial foraging optimization [C] . Patnaik Sushree Sangita, Panda Anup Kumar 2011 Annual IEEE India Conference : Engineering Sustainable Solutions . 2011

机译：在电源失真的情况下，采用细菌觅食优化，通过三相四线并联有源电力滤波器优化负载补偿
5. Instantaneous Power Theory for Active Filtering of High Displacement Power Factor Non-linear Loads. [D] . Marjovsky, Gustavo. 2011

机译：高位移功率因数非线性负载有源滤波的瞬时功率理论。
6. Creation of an iOS and Android Mobile Application for Inferior Vena Cava (IVC) Filters: A Powerful Tool to Optimize Care of Patients with IVC Filters [O] . Steven E. Deso, Ibrahim A. Idakoji, Michael C. Muelly, 2016

机译：创建用于下腔静脉（IVC）过滤器的iOS和Android移动应用程序：优化IVC过滤器患者护理的强大工具
7. Analysis of active power filters for load compensation using two-level and seven-level four-wire converters [O] . Fatima Martinez, Bruno Roberto Sanabria-Morel, Thalia Alicia Morel-Otazu, 2021

机译：使用两级和七级四线转换器的负载补偿有源电力滤波器分析

Bacterial Foraging Technique-Based Optimized Active Power Filter for Load Compensation

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