《电力自动化设备》

引用本文:	陈通,孙国强,卫志农,臧海祥,孙永辉,Kwok W Cheung,李慧杰.基于相似日和CAPSO-SNN的光伏发电功率预测[J].电力自动化设备,2017,37(3):
	CHEN Tong,SUN Guoqiang,WEI Zhinong,ZANG Haixiang,SUN Yonghui,Kwok W Cheung,LI Huijie.Photovoltaic power generation forecasting based on similar day and CAPSO-SNN[J].Electric Power Automation Equipment,2017,37(3):

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基于相似日和CAPSO-SNN的光伏发电功率预测
陈通¹, 孙国强¹, 卫志农¹, 臧海祥¹, 孙永辉¹, Kwok W Cheung², 李慧杰³
1.河海大学能源与电气学院，江苏南京 211100;2.ALSTOM Grid Inc.，Redmond，USA Washington 98052;3.阿尔斯通电网技术中心有限公司，上海 201114

摘要:

针对光伏发电功率预测精度不高的问题，提出一种基于相似日和云自适应粒子群优化(CAPSO)算法优化Spiking神经网络(SNN)的发电功率预测模型。考虑到季节类型、天气类型和气象等主要影响因素，提出以综合相似度指标进行相似日选取；以SNN强大的计算能力和其善于处理时间序列问题的特点为基础，结合CAPSO算法搜索的随机性和稳定性优化SNN的多突触连接权值，减少对权值的约束，提高算法的收敛精度。根据某光伏电站的实测功率数据对所提模型进行测试和评估，结果表明，该模型比传统预测模型具有更高的预测精度和更好的适用性。

关键词: 光伏发电功率预测 Spiking神经网络云自适应粒子群优化算法相似日选取

DOI：10.16081/j.issn.1006-6047.2017.03.012

分类号:

基金项目:国家自然科学基金资助项目(51277052,51507052)

Photovoltaic power generation forecasting based on similar day and CAPSO-SNN

CHEN Tong¹, SUN Guoqiang¹, WEI Zhinong¹, ZANG Haixiang¹, SUN Yonghui¹, Kwok W Cheung², LI Huijie³

1.College of Energy and Electrical Engineering, Hohai University, Nanjing 211100, China;2.ALSTOM Grid Inc., Redmond, Washington 98052, USA;3.ALSTOM GRID Technology Center Co.,Ltd.,Shanghai 201114, China

Abstract:

Since the forecasting accuracy of PV(PhotoVoltaic) power generation is not high, a forecasting model based on the similar day and SNN(Spiking Neural Network) optimized by CAPSO(Cloud Adaptive Particle Swarm Optimization) algorithm is proposed. The comprehensive similarity index considering the main influencing factors, e. g. season, weather, meteorology, etc.,is adopted for selecting the similar day. Based on the powerful computation ability and efficiency in dealing with the time series problem of SNN, its multiple synaptic connection weights are optimized by the randomness and stability of CAPSO algorithm to loosen the constraint of weight and improve the convergence accuracy of algorithm. The proposed model is tested and evaluated based on the measured power data of a PV station and results show that, it has higher forecasting accuracy and better applicability than traditional forecasting models.

Key words: photovoltaic generation power forecasting Spiking neural network cloud adaptive particle swarm optimization algorithm similar day selection

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