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计算机系统应用英文版:2017,26(2):51-57
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基于QPSO-SVM模型的电力系统稳定性评估
(1.山西省财政税务专科学校 信息学院, 太原 030024;2.太原理工大学 财经学院, 太原 030024;3.太原理工大学 数学学院, 太原 030024)
Assessment of Power System Stability Based on QPSO-SVM
(1.College of Information, Shanxi Finance & Taxation College, Taiyuan, 030024, China;2.Department of Information, College of Finance & Economics, Taiyuan University of Technology, Taiyuan 030024, China;3.College of Math, Taiyuan University of Technology, Taiyuan, 030024, China)
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Received:March 21, 2016    Revised:September 02, 2016
中文摘要: 随着我国电力系统的快速发展,超高电压输变电已经开始应用,电网变的更加复杂,其电力系统的稳定性和安全性问题更显得突出.电压的稳定性一直是系统可靠性的重要指标,而其电压质量的在线实时评估一直是研究的难题.本文采用支持向量机(SVM)模型来提高运算精度和效率,并通过量子行为粒子群算法(QPSO)优化并计算其参数,提出一种基于QPSO-SVM的模型,可用于实时在线评估电力系统的稳定性.此外,为了提高机器学习的评估指标的精准度,采用先进的潮流计算Jacobian的切向量分量来作为VSI,可以保证评估值的绝对性,并可以适用于各种网络结构.最后在WSCC9-bus标准系统上实验证明,该方法比GA-SVM、一般的SVM和BP神经网络在学习时间分别提高23.2%、63%、77.9%,测试时间分别加快26.2%、56.9%、72.56%,在精度上分别提高28.9%、42.19%、82.34%.另外,通过在IEEE14总线上做实验,可以找到系统崩塌前的关键总线,并与潮流计算的结果基本一致,因此该方法是一种可以作为实时在线电力系统稳定性评估的理想方法.
Abstract:With the fast development of national power industry,ultra high voltage power transmission has already been applied in practice. And the following features such as stability and security of power system have become more crucial owing to the complexity of the grid. On the one hand, voltage stability is the major factor accounting for the power system reliability. On the other hand, the online assessment of the voltage stability in real time has always been an obstacle in the concerning research. This paper aims to put forward a QPSO-SVM model which can be applied to the online assessment of the voltage stability in real time, based on the increasing accuracy and efficiency of calculation by means of SVM model as well as the production of parameter via the method of QPSO. In addition, it ensures the absolute assessment and the comprehensive application to all networks adopt the component of tangent vector of power flow power as VSI so as to improve the assessment accuracy of machine learning. Finally, it is approved that by means of WSCC9-bus, the learning time, the assessment time and the accuracy have been increased by 23.2%, 63%, 77.9%, and 26.2%, 56.9%, 72.56% and 28.9%, 42.19%, 82.34%, respectively, compared with GA-SVM, SVM and BPNN. Also, the method based on the IEEE14 experiment is an ideal path for the online assessment of the voltage stability for the power system in real time due to the fact that the key buses can be found before the system collapses and that it shares the same findings with the power flow calculation.
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基金项目:国家自然科学基金(61502330);山西省高等学校科技创新项目(20161131);山西省软科学计划研究项目(2016041008-5)
引用文本:
李强,刘晓峰.基于QPSO-SVM模型的电力系统稳定性评估.计算机系统应用,2017,26(2):51-57
LI Qiang,LIU Xiao-Feng.Assessment of Power System Stability Based on QPSO-SVM.COMPUTER SYSTEMS APPLICATIONS,2017,26(2):51-57