A new class of wavelet networks (WNs) is proposed for nonlinear system identification. In the new networks, the model structure for a high-dimensional system is chosen to be a superimposition of a number of functions with fewer variables. By expanding each function using truncated wavelet decompositions, the multivariate nonlinear networks can be converted into linear-in-the-parameter regressions, which can be solved using least-squares type methods. An efficient model term selection approach based upon a forward orthogonal least squares (OLS) algorithm and the error reduction ratio (ERR) is applied to solve the linear-in-the-parameters problem in the present study. The main advantage of the new WN is that it exploits the attractive features of multiscale wavelet decompositions and the capability of traditional neural networks. By adopting the analysis of variance (ANOVA) expansion, WNs can now handle nonlinear identification problems in high dimensions

Billings, S.A.

Wei, H.L.

English

S.A. Billings

H.-L. Wei

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A New Class of Wavelet Networks for Nonlinear System Identification

White Rose Research Online

A new class of wavelet networks for nonlinear system identification

A new class of wavelet networks (WN's) is proposed for nonlinear system identification. In the new networks, the model structure for a high dimensional system is chosen to be a superimposition of a number of functions with fewer variables. By expanding each function using truncated waveket decompositions, the multivariate nonlinear networks can be converted into linear-in-the-parameter regressions, which can be solved using least- squares type methods. An efficient model term detection approach based upon a forward orthogonal least squares (OLS) algorithm and the error reduction ratio (ERR) is applied to solve the linear-in-the-parameters problem in the present study

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Abstract—A new class of wavelet networks (WNs) is proposed for nonlinear system identification. In the new networks, the model structure for a high-dimensional system is chosen to be a superimposition of a number of functions with fewer variables. By expanding each function using truncated wavelet decomposi-tions, the multivariate nonlinear networks can be converted into linear-in-the-parameter regressions, which can be solved using least-squares type methods. An efficient model term selection approach based upon a forward orthogonal least squares (OLS) algorithm and the error reduction ratio (ERR) is applied to solve the linear-in-the-parameters problem in the present study. The main advantage of the new WN is that it exploits the attractive features of multiscale wavelet decompositions and the capability of traditional neural networks. By adopting the analysis of variance (ANOVA) expansion, WNs can now handle nonlinear identifica-tion problems in high dimensions. Index Terms—Nonlinear autoregressive with exogenous inputs (NARX) models, nonlinear system identification, orthogonal least squares (OLS), wavelet networks (WNs). I

Stephen A. Billings

Hua-liang Wei

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https://eprints.whiterose.ac.uk/84873/1/acse%20research%20report%20857.pdf

A new class of wavelet networks for nonlinear system identification

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