To improve the accuracy and the speed of on-line chaotic time series prediction via radial basis function (RBF) network, a sequential learning algorithm is presented for on-line constructing variable structure RBF network. A sliding window is constructed. By learning real-time updated data in the window, the parameters of the connecting weights, number of hidden units and center locations are dynamically tuned. The algorithm achieves parsimonious RBF network quickly, while only a small number of tuning parameters are employed. The variable structure network is applied to Mackey-Glass chaotic time series on-line prediction. The results demonstrate that network possesses satisfactory on-line dynamic identification and prediction performance.
尹建川,胡江强,何庆华. 变结构径向基函数网络及其在混沌序列在线预测中的应用[J]. 模式识别与人工智能, 2010, 23(6): 874-879.
YIN Jian-Chuan,HU Jiang-Qiang,HE Qing-Hua. Variable Structure Radial Basis Function Network and Its Application to On-Line Chaotic Time Series Prediction. , 2010, 23(6): 874-879.
[1] Stavrakoudis D G, Theocharis J B. Pipelined Recurrent Fuzzy Neural Networks for Nonlinear Adaptive Speech Prediction. IEEE Trans on Systems, Man and Cybernetics, 2007, 37(5): 1305-1320 [2] Chang P C, Liu Chenhao, Lin Junlin, et al. A Neural Network with a Case Based Dynamic Window for Stock Trading Prediction. Expert Systems with Applications, 2009, 36(3): 6889-6898 [3] Ghorbanian K, Gholamrezaei M. An Artificial Neural Network Approach to Compressor Performance Prediction. Applied Energy, 2009, 86(7/8): 1210-1221 [4] Shi Zhiwei, Han Min. Support Vector Echo-State Machine for Chaotic Time-Series Prediction. IEEE Trans on Neural Networks, 2007, 18(2): 359-372 [5] Karunasinghe D S K, Liong S Y. Chaotic Time Series Prediction with a Global Model: Artificial Neural Network. Journal of Hydrology, 2006, 323(1/2/3/4): 92-105 [6] Omidvar A E. Configuring Radial Basis Function Network Using Fractal Scaling Process with Application to Chaotic Time Series Prediction. Chaos, Solitons and Fractals, 2004, 22(4): 757-766 [7] Leung H, Lo T, Wang Sichun. Prediction of Noisy Chaotic Time Series Using an Optimal Radial Basis Function Neural Network. IEEE Trans on Neural Networks, 2001, 12(5): 1163-1172 [8] Chng E S, Chen S, Mulgrew B. Gradient Radial Basis Function Networks for Nonlinear and Nonstationary Time Series Prediction. IEEE Trans on Neural Networks, 1996, 7(1): 190-194 [9] Chen S, Cowan C F N, Grant P M. Orthogonal Least Squares Learning Algorithm for Radial Basis Function Networks. IEEE Trans on Neural Networks, 1991, 2(2): 302-309 [10] Chen S, Grant P M, Cowan C F N. Orthogonal Least Squares Algorithm for Training Multi-Output Radial Basis Function Networks. IEE Proceedings: Part F, 1992, 139(6): 378-384 [11] Jang J S R, Sun C T, Mizutani E. Neuro Fuzzy and Soft Computing: A Computational Approach to Learning and Machine Intelligence. New York, USA: Prentice Hall, 1997 [12] Lu Yingwei, Sundararajan N, Saratchandran P. A Sequential Learning Scheme for Function Approximation by Using Minimal Radial Basis Function Neural Networks. Neural Computation, 1997, 9(2): 461-478 [13] Vigneshwaran S, Sundararajan N, Saratchandran P. Direction of Arrival (DoA) Estimation under Array Sensor Failures Using a Minimal Resource Allocation Neural Network. IEEE Trans on Antennas and Propagation, 2007, 55(2): 334-343 [14] Kadirkamanathan V, Niranjan M. A Function Estimation Approach to Sequential Learning with Neural Network. Neural Computation, 1993, 5(6): 954-975
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