Comparative Study of Some Numerical Schemes for a Fractional Order Model of HIV Infection Treatment

Ferrari, A. J.; Lara, L. P.; Olguin, M. C.; Marcus, Eduardo A. Santillan

doi:10.5540/tcam.2022.023.04.00607

Cited by 3 publications

(1 citation statement)

References 13 publications

(16 reference statements)

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“…This is fundamentally due, on the one hand, to an important development of the fractional calculus both from the mathematical point of view and its applications in other areas (electricity, magnetism, mechanics, dynamics of fluids, medicine, etc [5,13,31]), which has led to great growth in its study in recent decades. On the other hand, the fractional differential equations establish models far superior to those that use differential equations with integer derivatives because they incorporate into the model issues of memory [11,21] or later effects that are neglected in the models with classical derivative.…”

Section: Introductionmentioning

confidence: 99%

Necessary Conditions to A Fractional Variational Problem

Barrios

Reyero

Tidball

2022

Stat., optim. inf. comput.

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The fractional variational calculus is a recent fifield, where classical variational problems are considered, but in the presence of fractional derivatives. Since there are several defifinitions of fractional derivatives, it is logical to think of different types of optimality conditions. For this reason, in order to solve fractional variational problems, two theorems of necessary conditions are well known: an Euler-Lagrange equation which involves Caputo and Riemann-Liouville fractional derivatives, and other Euler-Lagrange equation that involves only Caputo derivatives. However, it is undecided which of these two methods is convenient to work with. In this article, we make a comparison solving a particular fractional variational problem with both methods to obtain some conclusions about which one gives the optimal solution.

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Section: Introductionmentioning

confidence: 99%

Necessary Conditions to A Fractional Variational Problem

Barrios

Reyero

Tidball

2022

Stat., optim. inf. comput.

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Implementation of an effective transform technique for convergence analysis of the fractional enzyme kinetic and blood alcohol level models

Obeidat,

Rawashdeh,

Yahya

2024

Math Methods in App Sciences

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In the current study, we solve the nonlinear time fractional‐order enzyme kinematic system and the linear time fractional blood alcohol level using an effective method called the Adomian natural decomposition method (ANDM), which is a combination of the Adomian decomposition method (ADM) and the natural transform method (NTM). On the basis of the Banach fixed point theorem, we offer proofs for the existence and uniqueness theorems as they apply to nonlinear ordinary differential equations. Using the current method, approximate analytical solutions of nonlinear time fractional‐order enzyme kinematic system and exact solutions to the linear time fractional‐order blood alcohol level problem have been obtained. The outcomes indicate that the ANDM is highly efficient and useful. The method outlined in this paper is intended to be applied in subsequent work to handle comparable nonlinear problems connected to fractional calculus.

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