Sunspot series prediction using adaptively trained Multiscale-Bilinear Recurrent Neural Network

2011 9th IEEE/ACS International Conference on Computer Systems and Applications (AICCSA) Pub Date : 2011-12-27 DOI:10.1109/AICCSA.2011.6126609

Dong-Chul Park

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引用次数: 2

Abstract

A prediction scheme for sunspot series using a Recurrent Neural Network is proposed in this paper. The recurrent neural network adopted in this scheme is the Multiscale-Bilinear Recurrent Neural Network with an adaptive learning algorithm (M-BRNN (AL)). The M-BLRNN(AL) is formulated by a combination of several Bilinear Recurrent Neural Network (BRNN) models in which each model is employed for predicting the signal at a certain level obtained by a wavelet transform. The learning process is further improved by applying an adaptive learning algorithm at each resolution level. In order to evaluate the performance of the proposed M-BRNN(AL)-based predictor, experiments are conducted on the Wolf sunspot series number data and the resulting prediction accuracy is compared with those of conventional MultiLayer Perceptron Type Neural Network (MLPNN)-based and BRNN-based predictors. The results show that the proposed M-BRNN(AL)-based predictor outperforms the MLPNN-based and BRNN-based predictors in terms of the Normalized Mean Squared Error (NMSE).

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基于自适应训练多尺度双线性递归神经网络的太阳黑子序列预测

本文提出了一种基于递归神经网络的太阳黑子序列预测方案。本方案采用的递归神经网络是一种带有自适应学习算法的多尺度双线性递归神经网络(M-BRNN (AL))。M-BLRNN(AL)由多个双线性递归神经网络(BRNN)模型组合而成，其中每个模型用于预测由小波变换获得的某一水平的信号。通过在每个分辨率级别上应用自适应学习算法，进一步改进了学习过程。为了评估基于M-BRNN(AL)的预测器的性能，在Wolf太阳黑子序列数数据上进行了实验，并与基于传统多层感知器类型神经网络(MLPNN)和基于brnn的预测器的预测精度进行了比较。结果表明，基于M-BRNN(AL)的预测器在标准化均方误差(NMSE)方面优于基于mlpnn和基于brnn的预测器。

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2011 9th IEEE/ACS International Conference on Computer Systems and Applications (AICCSA)

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