期刊
JOURNAL OF ADVANCED RESEARCH
卷 43, 期 -, 页码 123-136出版社
ELSEVIER
DOI: 10.1016/j.jare.2022.02.010
关键词
Hammerstein-Wiener system; Parameter estimation; Evolutionary heuristics; Weighted differential evolution; Genetic algorithms
The application of evolutionary computing paradigm-based heuristics for system modeling and parameter estimation of complex nonlinear systems has been widely explored. This study investigates the use of weighted differential evolution (WDE) in estimating the parameters of Hammerstein-Wiener model (HWM) and compares it with state-of-the-art methods. The HWM parameters are estimated using the WDE and genetic algorithms (GAs) heuristics, and the worth and value of the designed WDE algorithm is demonstrated through extensive graphical and numerical comparisons.
Introduction: Knacks of evolutionary computing paradigm-based heuristics has been exploited exhaus-tively for system modeling and parameter estimation of complex nonlinear systems due to their legacy of reliable convergence, accurate performance, simple conceptual design ease implementation ease and wider applicability. Objectives: The aim of the presented study is to investigate in evolutionary heuristics of weighted differ-ential evolution (WDE) to estimate the parameters of Hammerstein-Wiener model (HWM) along with comparative evaluation from state-of-the-art counterparts. The objective function of the HWM for con-trolled autoregressive systems is efficaciously formulated by approximating error in mean square sense by computing difference between true and estimated parameters.Methods: The adjustable parameters of HWM are estimated through heuristics of WDE and genetic algo-rithms (GAs) for different degrees of freedom and noise levels for exhaustive, comprehensive, and robust analysis on multiple autonomous trials.Results: Comparison through sufficient large number of graphical and numerical illustrations of outcomes for single and multiple execution of WDE and GAs through different performance measuring metrics of precision, convergence and complexity proves the worth and value of the designed WDE algorithm. Statistical assessment studies further prove the efficacy of the proposed scheme. Conclusion: Extensive simulation based experimentations on measure of central tendency and variance authenticate the effectiveness of the designed methodology WDE as precise, efficient, stable, and robust computing platform for system identification of HWM for controlled autoregressive scenarios.(c) 2022 The Authors. Published by Elsevier B.V. on behalf of Cairo University. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
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