Short-Term Wind Speed Forecast Using Mathematical Morphology Decomposition and Support Vector Regression

Z. Xue, Z. Chen, M. S. Li, T. Ji, Q. Wu
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Abstract

This paper proposes a hybrid forecast algorithm to improve the accuracy of short-term wind speed forecast. Based on the nature of wind energy, a mathematical morphology decomposition method using erosion and dilation operators decomposition, is performed to decompose the wind speed data into two parts: mean trend component (MTC) and strong stochastic component (SSC). MTC has stable character and SSC is stochastic in a smaller time scale, which is the most important part that affects the forecast accuracy. Support vector regression (SVR) is adopted to make regression of MTC and SSC respectively. The proposed method is tested on a dataset of short-term wind speed to verify its validity. Two-day ahead forecasts are conducted and evaluated in four seasons. In addition, the correlation between window size and forecast accuracy is discussed. Simulation results are compared with persistence method and SVR method, which illustrate that the proposed model is of high prediction accuracy with a small amount of historic data.
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基于数学形态学分解和支持向量回归的短期风速预报
为了提高短期风速预报的精度,提出了一种混合预报算法。基于风能的特性,采用侵蚀和膨胀算子分解的数学形态分解方法,将风速数据分解为平均趋势分量(MTC)和强随机分量(SSC)。在较小的时间尺度上,MTC具有稳定性,而SSC具有随机性,这是影响预报精度的重要因素。采用支持向量回归(SVR)分别对MTC和SSC进行回归。在一个短期风速数据集上进行了测试,验证了该方法的有效性。提前两天进行预报,并在四个季节进行评估。此外,还讨论了窗口大小与预报精度的关系。仿真结果表明,该模型在历史数据较少的情况下具有较高的预测精度。
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