Univariate time series prediction of solar power using a hybrid wavelet-ARMA-NARX prediction method

H. Nazaripouya, B. Wang, Y. Wang, P. Chu, H. Pota, R. Gadh
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引用次数: 60

Abstract

This paper proposes a new hybrid method for super short-term solar power prediction. Solar output power usually has a complex, nonstationary, and nonlinear characteristic due to intermittent and time varying behavior of solar radiance. In addition, solar power dynamics is fast and is inertia less. An accurate super short-time prediction is required to compensate for the fluctuations and reduce the impact of solar power penetration on the power system. The objective is to predict one step-ahead solar power generation based only on historical solar power time series data. The proposed method incorporates discrete wavelet transform (DWT), Auto-Regressive Moving Average (ARMA) models, and Recurrent Neural Networks (RNN), while the RNN architecture is based on Nonlinear Auto-Regressive models with eXogenous inputs (NARX). The wavelet transform is utilized to decompose the solar power time series into a set of richer-behaved forming series for prediction. ARMA model is employed as a linear predictor while NARX is used as a nonlinear pattern recognition tool to estimate and compensate the error of wavelet-ARMA prediction. The proposed method is applied to the data captured from UCLA solar PV panels and the results are compared with some of the common and most recent solar power prediction methods. The results validate the effectiveness of the proposed approach and show a considerable improvement in the prediction precision.
基于混合小波- arma - narx预测方法的单变量时间序列太阳能发电预测
本文提出了一种新的超短期太阳能发电预测混合方法。由于太阳辐射的间歇性和时变特性,太阳输出功率通常具有复杂的、非平稳的和非线性的特性。此外,太阳能动力快,惯性小。为了补偿波动,减小太阳能渗透对电力系统的影响,需要进行精确的超短时预测。目标是仅根据历史太阳能发电时间序列数据预测一步太阳能发电。该方法结合了离散小波变换(DWT)、自回归移动平均(ARMA)模型和递归神经网络(RNN),而RNN架构基于外源输入的非线性自回归模型(NARX)。利用小波变换将太阳能时间序列分解为一组行为更丰富的形成序列进行预测。采用ARMA模型作为线性预测器,NARX作为非线性模式识别工具对小波-ARMA预测误差进行估计和补偿。将所提出的方法应用于UCLA太阳能光伏板采集的数据,并将结果与一些常见的和最新的太阳能发电预测方法进行了比较。结果验证了该方法的有效性,并显示了预测精度的显著提高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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