基于组件稀疏贝叶斯学习的风电场发电预测

Q1 Engineering
Ming Yang, S. Fan, Xueshan Han, Weijen Lee
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引用次数: 5

摘要

概率预测与期望预测的区别在于对随机变量分布的预测能力。基于分量稀疏贝叶斯学习,提出了一种预测风电场短期发电量的新方法。该方法利用离散小波分解Mallat算法将风电场发电时间序列分解为趋势分量和扰动分量。趋势分量根据其与风速的强相关性及其自相关特性进行预测,而扰动分量则根据其自相关特性进行预测。采用稀疏贝叶斯学习方法建立预测模型,对趋势分量、扰动分量和风电场总发电量进行概率预测。几个学习机被设置来完成一个多步骤的概率预测。通过对某实际风电场的连续7 200次预测试验,验证了该方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Wind Farm Generation Forecast Based on Componential Sparse Bayesian Learning
Probabilistic forecast is different from expectation forecast by the capability of forecasting the distribution of random variables.Based on the componential sparse Bayesian learning,this paper proposes a novel method to forecast the short-term wind farm generation.With this method,a time series of wind farm generation is decomposed into trend component and disturbance components by discrete wavelet decomposition Mallat algorithm.The trend component is then forecasted according to its strong correlation with wind speed and its self-correlation property,while the disturbance components,which are more stationary,are forecasted according to their self-correlation property.A sparse Bayesian learning method is used to establish the forecasting model to give probabilistic forecasts to trend component,disturbance components,and as well as the total wind farm generation.Several learning machines are set up to fulfill a multi-step probabilistic forecast.Case study shows the effectiveness of the proposed method by continuous 7 200 times forecasting tests for a given actual wind farm.
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来源期刊
电力系统自动化
电力系统自动化 Energy-Energy Engineering and Power Technology
CiteScore
8.20
自引率
0.00%
发文量
15032
期刊介绍: Founded in 1977, Power System Automation is a well-known journal in the discipline of electrical engineering in China. At present, it has been issued to all provinces, cities, autonomous regions, Hong Kong, Macao and Taiwan, and abroad to dozens of countries in North America, Europe and Asia-Pacific region, with a large number of readers at home and abroad. Power System Automation takes “based on China, facing the world, seeking truth and innovation, promoting scientific and technological progress in the field of electric power and energy” as the purpose of the journal, mainly for the professional and technical personnel, teachers and students engaged in scientific research, design, operation, testing, manufacturing, management and marketing in the electric power industry and higher education institutions as well as electric power users, and focuses on hotspots of the industry's development and the It focuses on the hot and difficult issues of the industry. It focuses on the hot and difficult issues of the industry, both academic and forward-looking, practical and oriented, and at the same time emphasizes and encourages technical exchanges of experiences, improvements and innovations from the front line of scientific research and production.
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