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Fuzzy Wavelet Neural Network Using a Correntropy Criterion for Nonlinear System Identification

Author

Listed:
  • Leandro L. S. Linhares
  • Aluisio I. R. Fontes
  • Allan M. Martins
  • Fábio M. U. Araújo
  • Luiz F. Q. Silveira

Abstract

Recent researches have demonstrated that the Fuzzy Wavelet Neural Networks (FWNNs) are an efficient tool to identify nonlinear systems. In these structures, features related to fuzzy logic, wavelet functions, and neural networks are combined in an architecture similar to the Adaptive Neurofuzzy Inference Systems (ANFIS). In practical applications, the experimental data set used in the identification task often contains unknown noise and outliers, which decrease the FWNN model reliability. In order to reduce the negative effects of these erroneous measurements, this work proposes the direct use of a similarity measure based on information theory in the FWNN learning procedure. The Mean Squared Error (MSE) cost function is replaced by the Maximum Correntropy Criterion (MCC) in the traditional error backpropagation (BP) algorithm. The input-output maps of a real nonlinear system studied in this work are identified from an experimental data set corrupted by different outliers rates and additive white Gaussian noise. The results demonstrate the advantages of the proposed cost function using the MCC as compared to the MSE. This work also investigates the influence of the kernel size on the performance of the MCC in the BP algorithm, since it is the only free parameter of correntropy.

Suggested Citation

  • Leandro L. S. Linhares & Aluisio I. R. Fontes & Allan M. Martins & Fábio M. U. Araújo & Luiz F. Q. Silveira, 2015. "Fuzzy Wavelet Neural Network Using a Correntropy Criterion for Nonlinear System Identification," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-12, October.
    • Handle: RePEc:hin:jnlmpe:678965
    DOI: 10.1155/2015/678965
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