FDM based MOP to Attune IPFC POD Controller and Dual-Input PSS in order to Improve Power System Dynamic Performance

机译：基于FDM的MOP，用于调度IPFC POD控制器和双输入PSS，以提高电力系统动态性能

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With the presence of Interline Power Flow Controller (IPFC), three definite classes of the Power System Stabilizer (PSS) have been evaluated as: a) Conventional PSS (CPSS); b) dual-input PSS; and c) accelerating power PSS mode! (PSS2B). The design procedure of coordination is expressed as a Multi-Objective Problem (MOP) and the coordination is focused on concurrent selection of the controllers parameters utilizing Nonlinear Time-Varying Evolution (NTVE) based Multi-Objective PSO (MOPSO) algorithm. A Fuzzy Decision-Making (FDM) approach is proposed for finding best compromise solution from the set of Pareto-solutions obtained through MOPSO-NTVE. Finally, in a system having the IPFC, comparative analysis of the results obtained from application of the dual-input PSS, PSS2B and CPSS is presented. The simulation results show that the dual-input PSS & IPFC and PSS2B & IPFC coordination provide a better performance than the conventional single-input PSS & IPFC coordination.

机译：随着Interline Power Flow Controller（IPFC）的存在，已经评估了三种功率系统稳定器（PSS）的类型：A）传统PSS（CPS）; b）双输入PSS;和c）加速Power PSS模式！（PSS2B）。协调的设计过程表示为多目标问题（MOP），并且协调专注于利用基于非线性时变化（NTVE）的多目标PSO（MOPSO）算法的控制器参数的并发选择。提出了一种模糊决策（FDM）方法，用于从通过MOPSO-NTVVE获得的静脉溶液组中寻找最佳折衷解决方案。最后，在具有IPFC的系统中，提出了从应用双输入PSS，PSS2B和CPS获得的结果的比较分析。仿真结果表明，双输入PSS和IPFC和PSS2B和IPFC协调提供比传统的单输入PSS和IPFC协调更好的性能。

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《International conference on artificial intelligence》|2014年||共7页
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H. Shayeghi; Y. Hashemi; H. A. Shayanfar;
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中图分类人工智能理论;
关键词
Simultaneous coordinated design; IPFC; Power Oscillation Damping (POD); PSS;

机译：同时协调设计;IPFC;功率振荡阻尼（POD）;PSS;

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1. Improving power system dynamic performance using attuned design of dual-input PSS and UPFC PSD controller [J] . Yashar HASHEMI, Rasool KAZEMZADEH, Mohammad Reza AZIZIAN, 中国电气与电子工程前沿：英文版 . 2012,第004期

机译：通过双输入PSS和UPFC PSD控制器的协调设计提高电力系统的动态性能
2. Concurrently attuned design of a WADC-based UPFC PSDC and multiinput PSS for improving power system dynamic performance [J] . YASHAR HASHEMI, RASOOL KAZEMZADEH, MOHAMMAD REZA AZIZIAN, Turkish Journal of Electrical Engineering and Computer Sciences . 2014,第2期

机译：同时优化基于WADC的UPFC PSDC和多输入PSS的设计，以改善电力系统的动态性能
3. Coordinated Design of STATCOM-Based Damping Controller and Dual-Input PSS to Improve Transient Stability of Power System [J] . A. D. Falehi, A. Dankoob, S. Amirkhan, International review of electrical engineering . 2011,第3ptaB期

机译：基于STATCOM的阻尼控制器和双输入PSS的协调设计，可提高电力系统的暂态稳定性
4. FDM based MOP to Attune IPFC POD Controller and Dual-Input PSS in order to Improve Power System Dynamic Performance [C] . H. Shayeghi, Y. Hashemi, H. A. Shayanfar International conference on artificial intelligence . 2014

机译：基于FDM的MOP调整IPFC POD控制器和双输入PSS，以提高电力系统的动态性能
5. Design of robust PSS and facts-based controllers for stability enhancement of power systems. [D] . Al-Awami, Ali Taleb. 2004

机译：鲁棒的PSS和基于事实的控制器的设计，用于增强电力系统的稳定性。
6. Optimal Placement of Unified Power Flow Controllers to Improve Dynamic Voltage Stability Using Power System Variable Based Voltage Stability Indices [O] . Fadi M. Albatsh, Shameem Ahmad, Saad Mekhilef, -1

机译：使用基于电力系统变量的电压稳定性指标来优化统一潮流控制器的位置以提高动态电压稳定性
7. Concurrently attuned design of a WADC-based UPFC PSDC and multiinput PSS for improving power system dynamic performance [O] . Yashar HASHEMI, Rasool KAZEMZADEH, Mohammad Reza AZIZIAN, 2014

机译：基于WADC的UPFC PSDC和多线划PSS的同时调整设计，用于提高电力系统动态性能

FDM based MOP to Attune IPFC POD Controller and Dual-Input PSS in order to Improve Power System Dynamic Performance

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