Adaptation of kernel functions‐based approach with Atangana–Baleanu–Caputo distributed order derivative for solutions of fuzzy fractional Volterra and Fredholm integrodifferential equations

Arqub, Omar Abu; Singh, Jagdev; Alhodaly, Mohammed Sh.

doi:10.1002/mma.7228

Cited by 95 publications

(13 citation statements)

References 51 publications

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“…From literature, it is believed that modeling of physical and real problems using non-integer order derivative is more precise compared to integer-order derivatives [30], [58]. The main advantages of using fractional order derivative in disease dynamics is that, they can properly capture the memory effects and hereditary properties of species that exist in biological systems [31], [32], [54], [15], [58]. Additional, it is believed that cell membrane of living organisms containing some fractional-order electrical conductance which are classified in the groups of non-integer order models.…”

Section: Introductionmentioning

confidence: 99%

Global Dynamics of Fractional-order Model for Malaria Disease Transmission

Helikumi

Lolika

2022

ARJOM

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In this study, we formulated and analyzed a fractional-order model for malaria disease transmission using Atangana-Beleanu-Caputo in sense to study the effects of heterogeneity vector biting exposure on the human population. To capture effects the heterogeneity vector biting exposure, we sub-divided the human population into two sub-groups namely; the population in high and low risk areas. In the model analysis, we computed the basic reproduction number R0 and qualitatively used to assess the existence and extinction of disease in the population. Additionally, we used the fixed point theorem to prove the existence and uniqueness of solutions.Numerical schemes for both Euler and Adam-Bathforth-Moulton are present in details and used in model simulations. Furthermore, we performed the numerical simulation to support the analytical results in this study. From numerical simulations, we estimated the values of model parameters using least square fitting method for the real data of malaria reported in Zimbabwe. The sensitivity analysis of the model parameters was done to determine the correlation between model parameters and R0: Finally, we used the Euler and Adam-Bashforth-Moulton scheme to simulate the model system using estimated parameters. Overall, we noted that fractional-order derivatives have more in uence on the dynamics of malaria disease in the population.

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Section: Introductionmentioning

confidence: 99%

Global Dynamics of Fractional-order Model for Malaria Disease Transmission

Helikumi

Lolika

2022

ARJOM

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“…[11,16,19,23,25,38] and [25] discussed various statistical tests for circular observations under fuzzy logic. More information on the applications of the fuzzy-based analysis can be seen in [1,4] and [5]. [34] introduced the neutrosophic (a study between true and false) logic that is found to be more efficient than fuzzy logic.…”

Section: Introductionmentioning

confidence: 99%

Comparing the Performance of Navigation Systems Under Complex Environment

Aslam

2022

Int J Comput Intell Syst

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Mardia–Watson–Wheeler is applied for testing whether the circulation observations differ significantly or not. The existing Mardia–Watson–Wheeler test is applied when all circulation observations are determined, precise, and certain. In this paper, Mardia–Watson–Wheeler is introduced under neutrosophic statistics. The proposed test applies when the circular data are not exact, in the interval, imprecise and indeterminate. The test statistic of Mardia–Watson–Wheeler is extended for neutrosophic statistics. The decision criteria for testing the null hypothesis are explained with the help of circular observations obtained from two boat navigation systems. The real example and comparative studies show that the proposed test outperforms the existing Mardia–Watson–Wheeler test under classical statistics in terms of flexibility and information. From the application and comparative studies, it can be concluded that the proposed test can be applied effectively in an uncertain environment.

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“…In the answer to the renowned mathematician L' Hospital's question, if d m dv m , then what does it mean if m = 1/2, different explanations of the fractional derivative are presented. The most famous approaches to fractional derivatives are Caputo derivative, Letnikove, and R-L derivative [12,13]. Few properties of these fractional-order derivatives are similar to the classical order derivatives.…”

Section: Introductionmentioning

confidence: 99%

Some Fundamental Results on Fuzzy Conformable Differential Calculus

Younus¹,

Asif²,

Atta³

et al. 2021

J Frac Calc & Nonlinear Sys

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In this paper, we combine fuzzy calculus, and conformable calculus to introduce the fuzzy conformable calculus. We define the fuzzy conformable derivative of order $2\Psi $ and generalize it to derivatives of order $p\Psi $. Several properties on difference, product, sum, and addition of two fuzzy-valued functions are provided which are used in the solution of the fuzzy conformable differential equations. Also, examples in each case are given to illustrate the utility of our results.

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Adaptation of kernel functions‐based approach with Atangana–Baleanu–Caputo distributed order derivative for solutions of fuzzy fractional Volterra and Fredholm integrodifferential equations

Cited by 95 publications

References 51 publications

Global Dynamics of Fractional-order Model for Malaria Disease Transmission

Global Dynamics of Fractional-order Model for Malaria Disease Transmission

Comparing the Performance of Navigation Systems Under Complex Environment

Some Fundamental Results on Fuzzy Conformable Differential Calculus

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