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A reliable neural network procedure for the novel sixth-order nonlinear singular pantograph differential model

An innovative singular nonlinear sixth-order (SNSO) pantograph differential model (PDM), known as the SNSO-PDM, is the subject of this novel study along with its numerical investigation. The concepts of pantograph and conventional Emden-Fowler have been presented in the design of the novel SNSO-PDM. The models based on Emden–Fowler have huge applications in mathematics and engineering and are always difficult to solve due to singularity. For each class of the innovative SNSO-PDM, the singularity, shape and pantograph factors are described. A reliable stochastic Levenberg-Marquardt backpropagation neural network (LMBPNN) procedure is designed for the SNSO-PDM. The correctness of the SNSOs-PDM is observed through the comparison performances of the achieved and reference outputs. The obtained results of the SNSO-PDM are considered by applying the process of training, certification, and testing to reduce the mean square error. To authenticate the efficacy of the innovative SNSO-PDM, the numerical performances of the solutions are depicted in the sense of regression, error histograms and correlation.

World Scientific Pub Co Pte Ltd

Zulqurnain Sabir Muhammad Umar Soheil Salahshour Tareq Saeed

Modern Physics Letters B

2024

Title: A reliable neural network procedure for the novel sixth-order nonlinear singular pantograph differential model

Description:

An innovative singular nonlinear sixth-order (SNSO) pantograph differential model (PDM), known as the SNSO-PDM, is the subject of this novel study along with its numerical investigation.

The concepts of pantograph and conventional Emden-Fowler have been presented in the design of the novel SNSO-PDM.

The models based on Emden–Fowler have huge applications in mathematics and engineering and are always difficult to solve due to singularity.

For each class of the innovative SNSO-PDM, the singularity, shape and pantograph factors are described.

A reliable stochastic Levenberg-Marquardt backpropagation neural network (LMBPNN) procedure is designed for the SNSO-PDM.

The correctness of the SNSOs-PDM is observed through the comparison performances of the achieved and reference outputs.

The obtained results of the SNSO-PDM are considered by applying the process of training, certification, and testing to reduce the mean square error.

To authenticate the efficacy of the innovative SNSO-PDM, the numerical performances of the solutions are depicted in the sense of regression, error histograms and correlation.

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A reliable neural network procedure for the novel sixth-order nonlinear singular pantograph differential model

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