Research on coordinated control strategy of distributed static synchronous series compensator based on multi-objective optimization immune algorithm

IF 0.8 Q4 ROBOTICS
Yu Wang, Zhenzhong Yan, Liting Yan, Xufei Liu, Yanpeng Liu
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引用次数: 0

Abstract

The distributed static synchronous series compensator can optimize the transmission capacity of the power grid. However, the research on the coordinated control and interaction between the devices is not mature enough, and it still needs to be further explored. Therefore, a coordinated control strategy based on multi-objective immune optimization algorithm is proposed in this paper. To realize the feasibility of the coordination strategy, simulation experiments were carried out. The results showed that through the coordination of multi-objective optimization artificial immune algorithm, the optimization rate of active power and reactive power of the line reached 89.88%, and the optimization rate of direct current capacitance and voltage also reached 51.45%, which confirmed the effectiveness of the coordination strategy. It can improve the application of distributed static synchronous series compensator in power grid transmission.

Abstract Image

基于多目标优化免疫算法的分布式静态同步串联补偿器协调控制策略研究
分布式静止同步串联补偿器可以优化电网的输电能力。然而,关于设备间协调控制和相互作用的研究还不够成熟,仍需进一步探索。因此,本文提出了一种基于多目标免疫优化算法的协调控制策略。为了实现协调策略的可行性,本文进行了仿真实验。结果表明,通过多目标优化人工免疫算法的协调,线路有功功率和无功功率的优化率达到了 89.88%,直流电容和电压的优化率也达到了 51.45%,证实了协调策略的有效性。它可以提高分布式静止同步串联补偿器在电网输电中的应用。
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来源期刊
CiteScore
2.00
自引率
22.20%
发文量
101
期刊介绍: Artificial Life and Robotics is an international journal publishing original technical papers and authoritative state-of-the-art reviews on the development of new technologies concerning artificial life and robotics, especially computer-based simulation and hardware for the twenty-first century. This journal covers a broad multidisciplinary field, including areas such as artificial brain research, artificial intelligence, artificial life, artificial living, artificial mind research, brain science, chaos, cognitive science, complexity, computer graphics, evolutionary computations, fuzzy control, genetic algorithms, innovative computations, intelligent control and modelling, micromachines, micro-robot world cup soccer tournament, mobile vehicles, neural networks, neurocomputers, neurocomputing technologies and applications, robotics, robus virtual engineering, and virtual reality. Hardware-oriented submissions are particularly welcome. Publishing body: International Symposium on Artificial Life and RoboticsEditor-in-Chiei: Hiroshi Tanaka Hatanaka R Apartment 101, Hatanaka 8-7A, Ooaza-Hatanaka, Oita city, Oita, Japan 870-0856 ©International Symposium on Artificial Life and Robotics
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