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计算机系统应用英文版:2017,26(8):147-151
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电网供电系统短期电力负荷预测优化仿真
(1.兰州理工大学 电气工程与信息工程学院, 兰州 730050;2.国家电网平高集团有限公司, 平顶山 467001)
Grid Power System Short-Term Load Forecasting Simulation Optimization
(1.Electrical Engineering and Information Engineering, Lanzhou University of Technology, Lanzhou 730050, China;2.Pinggao Group Co. Ltd., State Grid, Pingdingshan 467001, China)
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Received:August 17, 2016    
中文摘要: 对电网供电系统短期电力负荷预测模型进行优化,能提升预测结果的准确性和鲁棒性.虽然现有预测模型可以满足预测速度的要求,但预测结果的精确性和稳定性却无法保证.为了得到更加准确和稳定的预测结果,提出了细菌觅食算法优化极限学习机预测模型.首先在电力负荷样本数据中形成训练样本和预测样本集,利用细菌觅食优化算法对极限学习机预测模型中的不确定参数进行优化,然后利用改进后的模型进行电力负荷预测.新模型的优化仿真结果显示,利用细菌觅食算法优化极限学习机预测模型的预测精度和稳定性均优于传统预测模型的预测结果,该算法具有很好地实用性.
中文关键词: 负荷预测  极限学习机  细菌觅食  模型
Abstract:The optimization of short-term load forecasting simulation for the Grid power system can improve prediction accuracy and robustness of the results. Although the existing prediction models can meet the requirements of prediction speed, the accuracy and stability of the predicted results are always difficult to guarantee. In order to get more accurate and stable forecast results, this paper puts forward the bacterial foraging algorithm to optimize the new predicting model of the extreme learning machine. First, the training sample and forecast sample set are formed in the power load sampling data set. The bacteria foraging optimization algorithm is used to optimize the uncertain parameters in the prediction model of extreme learning machine algorithm. Then, the improved model for power load forecasting is used. Through the optimization of the new model simulation, the results show that the use of bacterial foraging algorithm optimization model to predict extreme learning machine precision and stability are superior to the traditional forecasting model prediction results, and the algorithm has good practicability.
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基金项目:甘肃省自然基金(1308RJZA117)
引用文本:
王惠中,杨世亮,卢玉飞.电网供电系统短期电力负荷预测优化仿真.计算机系统应用,2017,26(8):147-151
WANG Hui-Zhong,YANG Shi-Liang,LU Yu-Fei.Grid Power System Short-Term Load Forecasting Simulation Optimization.COMPUTER SYSTEMS APPLICATIONS,2017,26(8):147-151