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Synchrophasor-Based Adaptive Controller Design Considering Individual Charging for Interconnected Smart Grids Stabilization

机译：基于同步的自适应控制器设计考虑个人充电，用于互连的智能电网稳定

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This paper demonstrates how to design an adaptable controller to charge plug-in electric vehicles (PEVs), considering an individual vehicle charging, in order to stabilize the interconnected smart grids embedded with the renew able energy supply, and alleviate the swing effect to the operation of controllable distributed generator in the system. To achieve these objectives, the Particle Swarm Optimization is adopted to explore the optimal parameters of the Proportional Integral (PI) controller. Moreover, this paper also shows how to utilize the Synchrophasor-based dynamic monitoring system for assessing stability considering renewable energy in the smart grids system. The potential for the practical utilization of the adaptive controller designed is evaluated and discussed at the end of the paper.

机译：本文展示了如何设计适应性控制器来充电以充电电动机（PEV），考虑单独的车辆充电，以稳定嵌入较好的能量供应的互联智能电网，并减轻对操作的摆动效果系统中可控分布式发电机。为了实现这些目标，采用粒子群优化来探索比例积分（PI）控制器的最佳参数。此外，本文还示出了如何利用基于同步的动态监测系统，以评估智能电网系统中可再生能源的稳定性。在纸张结束时评估和讨论设计自适应控制器的实际利用的潜力。

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来源
《International Electrical Engineering Congress》|2017年|789p|共4页
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作者
Jatupat Chartpram; Achara Pichetjamroen; Sanchai Dechanupaprittha;
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中图分类 TM-53;
关键词
Adaptive Control; Interconnected Smart Grids; PEVs; PSO; CDG; Synchrophasor Measurement Techniques;

机译：自适应控制;互联智能电网;PEVS;PSO;CDG;同步素测量技术;

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专利

1. TS-Fuzzy Based Adaptive PEVs Charging Control for Smart Grid Frequency Stabilization Under Islanding Condition [J] . Chaowanan Jamroen, Pipatpan Namproom, Sanchai Dechanupaprittha Procedia Computer Science . 2016,第1期

机译：基于TS-Fuzzy的孤岛条件下智能电网频率稳定的自适应PEV充电控制
2. Robust design of stabilizing controllers for interconnected time-delay systems [J] . M. S. Mahmoud, S. Bingulac Automatica . 1998,第6期

机译：互连时滞系统的稳定控制器的鲁棒设计
3. Adaptive under-voltage load shedding scheme for large interconnected smart grids based on wide area synchrophasor measurements [J] . Adeyemi Charles Adewole, Raynitchka Tzoneva, Alexander Apostolov Generation, Transmission & Distribution, IET . 2016,第8期

机译：基于广域同步相量测量的大型互联智能电网的自适应欠压减载方案
4. Synchrophasor-Based Adaptive Controller Design Considering Individual Charging for Interconnected Smart Grids Stabilization [C] . Jatupat Chartpram, Achara Pichetjamroen, Sanchai Dechanupaprittha International Electrical Engineering Congress . 2017

机译：基于同步的自适应控制器设计考虑个人充电，用于互连的智能电网稳定
5. Design and Implementation of a Single Phase Modified Z-source Inverter Topology for Photovoltaic/Grid Interconnected DC Charging Applications [D] . Singh, Siddhartha Anirban. 2018

机译：用于光伏/电网互连直流充电应用的单相改进的Z源逆变器拓扑的设计与实现
6. Threshold-Based Random Charging Scheme for Decentralized PEV Charging Operation in a Smart Grid [O] . Ojin Kwon, Pilkee Kim, Yong-Jin Yoon 2017

机译：智能电网中分散式PEV充电操作基于阈值的随机充电方案
7. TS-Fuzzy Based Adaptive PEVs Charging Control for Smart Grid Frequency Stabilization Under Islanding Condition [O] . Jamroen Chaowanan, Namproom Pipatpan, Dechanupaprittha Sanchai 2016

机译：基于TS-Fuzzy的孤岛条件下智能电网频率稳定的自适应PEV充电控制

Synchrophasor-Based Adaptive Controller Design Considering Individual Charging for Interconnected Smart Grids Stabilization

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