Your search keyword '"Kumam, Poom"' showing total 4 results

1. Application of Legendre polynomials based neural networks for the analysis of heat and mass transfer of a non-Newtonian fluid in a porous channel.

Author

Khan, Naveed Ahmad, Sulaiman, Muhammad, Kumam, Poom, and Alarfaj, Fawaz Khaled

Subjects

NON-Newtonian fluids, NON-Newtonian flow (Fluid dynamics), MASS transfer, FEEDFORWARD neural networks, HEAT transfer, STANDARD deviations, QUADRATIC programming

Abstract

In this paper, the mathematical models for flow and heat-transfer analysis of a non-Newtonian fluid with axisymmetric channels and porous walls are analyzed. The governing equations of the problem are derived by using the basic concepts of continuity and momentum equations. Furthermore, artificial intelligence-based feedforward neural networks (ANNs) are utilized with hybridization of a generalized normal-distribution optimization (GNDO) algorithm and sequential quadratic programming (SQP) to study the heat-transfer equations and calculate the approximate solutions for the momentum of a non-Newtonian fluid. Legendre polynomials based Legendre neural networks (LNN) are used to develop a mathematical model for the governing equations, which are further exploited by the global search ability of GNDO and SQP for rapid localization convergence. The proposed technique is applied to study the effect of variations in Reynolds number Re on the velocity profile (f ′) and the temperature profile (q) . The results obtained by the LeNN-GNDO-SQP algorithm are compared with the differential transformation method (DTM), which shows the stability of the results and the correctness of the technique. Extensive graphical and statistical analyses are conducted in terms of minimum, mean, and standard deviation based on fitness value, absolute errors, mean absolute deviation (MAD), error in the Nash–Sutcliffe efficiency (NSE), and root mean square error (RMSE). [ABSTRACT FROM AUTHOR]

Published

2022

2. On three-term conjugate gradient method for optimization problems with applications on COVID-19 model and robotic motion control.

Author

Sulaiman, Ibrahim Mohammed, Malik, Maulana, Awwal, Aliyu Muhammed, Kumam, Poom, Mamat, Mustafa, and Al-Ahmad, Shadi

Subjects

CONJUGATE gradient methods, LEAST squares, SARS-CoV-2, COVID-19 pandemic, COVID-19, REGRESSION analysis, ROBOT motion

Abstract

The three-term conjugate gradient (CG) algorithms are among the efficient variants of CG algorithms for solving optimization models. This is due to their simplicity and low memory requirements. On the other hand, the regression model is one of the statistical relationship models whose solution is obtained using one of the least square methods including the CG-like method. In this paper, we present a modification of a three-term conjugate gradient method for unconstrained optimization models and further establish the global convergence under inexact line search. The proposed method was extended to formulate a regression model for the novel coronavirus (COVID-19). The study considers the globally infected cases from January to October 2020 in parameterizing the model. Preliminary results have shown that the proposed method is promising and produces efficient regression model for COVID-19 pandemic. Also, the method was extended to solve a motion control problem involving a two-joint planar robot. [ABSTRACT FROM AUTHOR]

Published

2022

3. Solutions of fractional order differential equations modeling temperature distribution in convective straight fins design.

Author

Ahmad, Ashfaq, Sulaiman, Muhammad, and Kumam, Poom

Subjects

TEMPERATURE distribution, ARTIFICIAL neural networks, ALGORITHMS, FINS (Engineering), THERMAL conductivity

Abstract

In this paper, the problem of temperature distribution for convective straight fins with constant and temperature-dependent thermal conductivity is solved by using artificial neural networks trained by the biogeography-based heterogeneous cuckoo search (BHCS) algorithm. We have solved the integer and noninteger order energy balance equation in order to analyse the temperature distribution in convective straight fins. We have compared our results with homotopy perturbation method (HPM), variational iteration method (VIM), and homotopy perturbation Sumudu transform method (HPSTM). The results show that the ANN–BHCS algorithm gives better results than other analytical techniques. We have further checked the efficiency of the ANN–BHCS algorithm by using the performance metrics MAD, TIC, and ENSE. We have calculated the values of MAD, TIC, and ENSE for case 1 of the problem, and histograms of these metrics show the efficiency of our algorithm. [ABSTRACT FROM AUTHOR]

Published

2021

4. A parallel hybrid accelerated extragradient algorithm for pseudomonotone equilibrium, fixed point, and split null point problems.

Author

Arfat, Yasir, Kumam, Poom, Khan, Muhammad Aqeel Ahmad, Ngiamsunthorn, Parinya Sa, and Kaewkhao, Attapol

Subjects

*ALGORITHMS, *EQUILIBRIUM, *MONOTONE operators, *EXTRAPOLATION, *PARALLEL algorithms

Abstract

This paper provides iterative construction of a common solution associated with the classes of equilibrium problems (EP) and split convex feasibility problems. In particular, we are interested in the EP defined with respect to the pseudomonotone bifunction, the fixed point problem (FPP) for a finite family of -demicontractive operators, and the split null point problem. From the numerical standpoint, combining various classical iterative algorithms to study two or more abstract problems is a fascinating field of research. We, therefore, propose an iterative algorithm that combines the parallel hybrid extragradient algorithm with the inertial extrapolation technique. The analysis of the proposed algorithm comprises theoretical results concerning strong convergence under a suitable set of constraints and numerical results. [ABSTRACT FROM AUTHOR]

Published

2021