A Gudermannian neural network performance for the numerical environmental and economic model
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Date
2024
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Publisher
Elsevier
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Abstract
The present work is to exploit the Gudermannian neural network (GNN) using the global competency of genetic algorithm (GA) and quick local refinements of sequential quadratic programming approach (SQPA), i.e., GNNGA-SQPA for the nonlinear economic and environmental system. The differential form of the nonlinear system depends upon three classes, system capability of industrial elements, implementation cost of control values and a new diagnostics technical elimination cost. An error-based fitness function is constructed using the differential system and then optimized by using the hybrid competency of the GA-SQPA. Ten numbers of neurons, a merit Gudermannian function, and the suitable weight vectors are presented in the neural network construction. The accuracy of the GNN-GA-SQPA is assessed through the comparisons and the negligible performances of absolute error. The statistical observations using single and multiple trials validate the stability of the scheme.
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Keywords
Gudermannian neural network, Nonlinear economic and environmental system, Global search technique, Local search method, Reference solutions
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0
WoS Q
Q1
Scopus Q
Q1
Source
Volume
87
Issue
Start Page
478
End Page
488