INTELLIGENT COMPUTING PARADIGM FOR SECOND-GRADE FLUID IN A ROTATING FRAME IN A FRACTAL POROUS MEDIUM

Author:

KANAN MOHAMMAD1,ULLAH HABIB2,RAJA MUHAMMAD ASIF ZAHOOR3,FIZA MEHREEN2,ULLAH HAKEEM2ORCID,SHOAIB MUHAMMAD4,AKGÜL ALI567,ASAD JIHAD8

Affiliation:

1. Jeddah College of Engineering, University of Business and Technology, Jeddah 21432, Saudi Arabia

2. Department of Mathematics, Abdul Wali Khan University, Mardan, 23200 Khyber Pakhtunkhwa, Pakistan

3. Future Technology Research Center, National Yunlin University of Science and Technology, 123 University Road, Section 3, Douliou, Yunlin 64002, Taiwan

4. AI Centre, Yuan Ze University, Taoyun 320, Taiwan

5. Department of Computer Science and Mathematics, Lebanese American University, Beirut, Lebanon

6. Department of Mathematics, Art and Science Faculty, Siirt University, 56100 Siirt, Turkey

7. Department of Mathematics, Mathematics Research Center, Near East University, Ner East Boulevard PC: 99138, Nicosia/Mersin 10, Turkey

8. Department of Physics, Faculty of Science, Plaestine Technical University - Kadoorie Tulkarm, P 305, P. O. Box 7, Palestine

Abstract

The numerical methods such as the artificial neural networks with greater probability and nonlinear configurations are more suitable for estimation and modeling of the problem parameters. The numerical methods are easy to use in applications as these methods do not require costly and time-consuming tests like the experimental study. In this study, we use the Levenberg–Marquardt-based backpropagation Process (LMP) to create a computing paradigm that makes use of the strength of artificial neural networks (ANN), known as (ANN-LMP). Here we use the ANN-LMP to obtain the solution of the second-grade fluid in a rotating frame in a porous material with the impact of a transverse magnetic field. The 1000 data set points in the interval [Formula: see text] are used for the network training to determine the effect of various physical parameters of the flow problem under consideration. The experiment is executed of six scenarios with different physical paramaters. ANN-LMP is used for evaluating the mean square errors (MSE), training (TR), validation (VL), testing (TT), performance (PF) and fitting (FT) of the data. The problem has been verified by error histograms (EH) and regression (RG) measurements, which show high consistency with observed solutions with accuracy ranging from E-5 to E-8. Characteristics of various concerned parameters on the velocity and temperature profiles are studied.

Publisher

World Scientific Pub Co Pte Ltd

Subject

Applied Mathematics,Geometry and Topology,Modeling and Simulation

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