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期刊號: CN32-1800/TM| ISSN1007-3175

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基于CGM-IPSO-LSSVM的短期風(fēng)電功率預(yù)測

來源:電工電氣發(fā)布時間:2023-07-01 09:01 瀏覽次數(shù):363

基于CGM-IPSO-LSSVM的短期風(fēng)電功率預(yù)測

康義1,羅利偉2
(1 華北水利水電大學(xué) 電氣工程學(xué)院,河南 鄭州 450045;
2 鄭州博努力計算機科技有限公司,河南 鄭州 450001)
 
    摘 要:為了電網(wǎng)的安全運行,應(yīng)充分考慮氣象等相關(guān)因素對風(fēng)電的影響程度來預(yù)測短期風(fēng)電功率。提出采用改進灰色模型 (CGM)、改進粒子群算法 (IPSO) 和最小二乘支持向量機 (LSSVM) 混合的預(yù)測方法。CGM-IPSO-LSSVM 方法采用灰色模型的關(guān)聯(lián)性分析不同時刻的氣象等相關(guān)因素的數(shù)據(jù),根據(jù)分析所得的氣象等相關(guān)因素數(shù)據(jù)來確定風(fēng)參量的權(quán)重,再根據(jù)權(quán)重運用最小二乘支持向量機對風(fēng)向量進行估計,并以風(fēng)向量的估計值為依據(jù),以收斂性更好的改進粒子群算法對 CGM 模型進行優(yōu)化,求解出最終預(yù)測結(jié)果,對預(yù)測結(jié)果出現(xiàn)的誤差,采用傅里葉殘差序列進行補償。實驗結(jié)果表明,提出的 CGM-IPSO-LSSVM 預(yù)測方法考慮了多因素影響和克服了參數(shù)選擇優(yōu)化的問題,其預(yù)測精度在要求的范圍內(nèi)大幅提高,為風(fēng)電并網(wǎng)的調(diào)度提供了有力依據(jù),降低了棄風(fēng)率。
    關(guān)鍵詞: 短期風(fēng)電功率預(yù)測;改進灰色模型;改進粒子群算法;最小二乘支持向量機;融合預(yù)測
    中圖分類號:TM614 ;TM715     文獻標(biāo)識碼:A     文章編號:1007-3175(2023)06-0022-05
 
Short-Term Wind Power Prediction Based on CGM-IPSO-LSSVM
 
KANG Yi1, LUO Li-wei2
(1 School of Electric Power, North China University of Water Resources and Electric Power, Zhengzhou 450045, China;
2 Zhengzhou Bonuli Computer Technology Co., Ltd, Zhengzhou 450001, China)
 
    Abstract: In order to ensure the safe operation of the power grid, the influence of meteorological and other related factors on wind power should be fully considered to predict short-term wind power. Therefore, this paper proposes a hybrid prediction method using improved Cotes Grey Model(CGM), Improved Particle Swarm Optimization(IPSO) and Least Squares Support Vector Machine(LSSVM). The CGMIPSO-LSSVM method first uses the correlation of grey model to analyze the meteorological data and other related factors at different time.Then, according to the above data, the weight of wind parameters is determined. Third, based on the above weight, the least squares support vector machine is used to estimate the wind vector. Fourth, the improved particle swarm optimization with better convergence is adopted to optimize the CGM model to obtain the final prediction result on the basis of estimated values of the wind vector. Finally, the error of the prediction result is compensated by the Fourier residual sequence. The experiment results show that the CGM-IPSO-LSSVM prediction method takes the influence of multiple factors into consideration and overcomes the problem of parameter selection optimization. It not only greatly improves prediction accuracy within the required range to provide strong basis for the scheduling of wind power integration, but also reduces the abandoned wind rate.
    Key words: short-term wind power prediction; improved cotes grey model; improved particle swarm optimization; least squares support vector machine; fusion prediction
 
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