Stochastic numerical technique for solving HIV infection model of CD4+ T cells

被引:0
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作者
Muhammad Umar
Zulqurnain Sabir
Fazli Amin
Juan L. G. Guirao
Muhammad Asif Zahoor Raja
机构
[1] Hazara University,Department of Mathematics and Statistics
[2] Technical University of Cartagena,Department of Applied Mathematics and Statistics
[3] Hospital de Marina,Department of Electrical and Computer Engineering
[4] COMSATS University Islamabad,Future Technology Research Center
[5] National Yunlin University of Science and Technology,undefined
来源
The European Physical Journal Plus | / 135卷
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摘要
The intension of the present work is to present the stochastic numerical approach for solving human immunodeficiency virus (HIV) infection model of cluster of differentiation 4 of T-cells, i.e., CD4+ T cells. A reliable integrated intelligent computing framework using layered structure of neural network with different neurons and their optimization with efficacy of global search by genetic algorithms supported with rapid local search methodology of active-set method, i.e., hybrid of GA-ASM, is used for solving the HIV infection model of CD4+ T cells. A comparison between the present results for different neurons-based models and the numerical values of the Runge–Kutta method reveals that the present intelligent computing techniques is trustworthy, convergent and robust. Statistics-based observation on different performance indices further demonstrates the applicability, effectiveness and convergence of the present schemes.
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