基于萤火虫群优化的电力系统暂态稳定模糊自适应PSS

Q2 Social Sciences

Advances in Engineering Education Pub Date : 2017-11-01 DOI:10.1109/PIERS-FALL.2017.8293460

S. R. Paital, P. Ray, A. Mohanty

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引用次数: 3

摘要

本文提出了一种基于模糊自适应比例积分导数的电力系统稳定器(fpid - pss)，以抑制单机无限母线(SMIB)系统的区域间振荡。将fpid - pss控制器增益的最优整定视为优化问题。将速度变化作为控制器的输入，校正电压信号作为控制器的输出。为了提高电力系统的稳定性，提出了一种混合萤火虫-粒子群优化算法。将fpid - pss控制器设计问题转化为基于积分平方误差的优化问题。进一步采用基于FF-PSO的优化技术对基于fpid - pss的控制器的最优增益进行了调谐。为了测试所提出的控制器的鲁棒性和性能，在各种干扰和操作条件下对其进行了测试。在SMIB系统中，对PSO优化的FAPID控制器和FA-PSO优化的FAPID控制器进行了比较。图形分析了所提控制器的有效性，并分析了所提FFPSO调谐的fpid - pss控制器的性能优于传统控制器。

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Firefly-swarm optimized fuzzy adaptive PSS in power system for transient stability enhancement

In this article, a fuzzy adaptive proportional integral derivative based power system stabilizer (FAPID-PSS) was presented in order to damp interarea oscillations in a single machine infinite bus (SMIB system). Optimal tuning of gains of FAPID-PSS controller is considered as optimization problem. Change in speed is considered as the input and correcting voltage signal is considered as output of the proposed controller. A hybrid firefly-particle swarm optimization (FF-PSO) technique is implemented in order to improve power system stability. The problem of FAPID-PSS controller design is transformed into an optimization problem based on integral squared error. Further FF-PSO based optimization technique has been implemented for tuning of optimal gains of the proposed FAPID-PSS based controller. In order to test the robustness and performance of the proposed controller, it has been tested under various disturbances and operating conditions. Further, a comparison has been made between PSO optimized FAPID controller and FA-PSO optimized FAPID controller in a SMIB system. Effectiveness of the proposed controller was analyzed graphically as well as analytically that the proposed FFPSO tuned FAPID-PSS controller performs better than conventional controllers.

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来源期刊

Advances in Engineering Education Social Sciences-Education

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： The journal publishes articles on a wide variety of topics related to documented advances in engineering education practice. Topics may include but are not limited to innovations in course and curriculum design, teaching, and assessment both within and outside of the classroom that have led to improved student learning.