Use of exogenous data to improve an Artificial Neural Networks dedicated to daily global radiation forecasting

2010 9th International Conference on Environment and Electrical Engineering Pub Date : 2010-05-16 DOI:10.1109/EEEIC.2010.5490018

C. Paoli, C. Voyant, M. Muselli, M. Nivet

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引用次数: 6

Abstract

This paper presents an application of Artificial Neural Networks (ANNs) in the renewable energy domain and, more particularly, to predict solar energy. We look at the Multi-Layer Perceptron (MLP) network which has been the most used of ANNs architectures both in the renewable energy domain and in the time series forecasting. In previous studies, we have demonstrated that an optimized ANN with endogenous inputs can forecast the solar radiation on a horizontal surface with acceptable errors. Thus we propose to study the contribution of exogenous meteorological data to our optimized PMC and compare with different forecasting methods used previously: a naïve forecaster like persistence and an ANN with preprocessing using only endogenous inputs. Although intuitively the use of meteorological data may increase the quality of prediction, the obtained results are relatively mixed. The use of exogenous data generates a decrease of nRMSE between 0.5% and 1% for the two studied locations. The absolute error (RMSE) is decreased by 52 Wh/m2/day in the simple endogenous case and 335 Wh/m2/day for the persistence forecast.

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利用外源数据改进用于每日全球辐射预报的人工神经网络

本文介绍了人工神经网络在可再生能源领域的应用，特别是在预测太阳能方面的应用。我们研究了多层感知器(MLP)网络，它在可再生能源领域和时间序列预测中都是最常用的人工神经网络架构。在之前的研究中，我们已经证明了具有内源性输入的优化人工神经网络可以在可接受的误差范围内预测水平表面上的太阳辐射。因此，我们建议研究外源气象数据对我们优化的PMC的贡献，并与之前使用的不同预测方法进行比较:像持久性一样的naïve预测器和只使用内源输入进行预处理的人工神经网络。虽然直观地使用气象数据可以提高预测的质量，但获得的结果相对来说是混杂的。外源数据的使用使两个研究地点的nRMSE降低了0.5%到1%。在简单内生预报中，绝对误差(RMSE)降低了52 Wh/m2/day，在持续预报中，绝对误差(RMSE)降低了335 Wh/m2/day。

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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2010 9th International Conference on Environment and Electrical Engineering

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