On Riemann-Type Weighted Fractional Operators and Solutions to Cauchy Problems

Samraiz, Muhammad; Umer, Muhammad; Abdeljawad, Thabet; Naheed, Saima; Rahman, Gauhar; Shah, Kamal

doi:10.32604/cmes.2023.024029

Cited by 5 publications

(4 citation statements)

References 30 publications

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“…Also, the operators with fractional order have a greater degree of freedom and therefore are increasingly used to describe various real world problems. Some important work recently published using fractional order derivatives include [27][28][29][30].…”

Section: Related Workmentioning

confidence: 99%

Using Non-Standard Finite Difference Scheme to Study Classical and Fractional Order SEIVR Model

et al. 2023

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In this study, we considered a model for novel COVID-19 consisting on five classes, namely S, susceptible; E, exposed; I, infected; V, vaccinated; and R, recovered. We derived the expression for the basic reproductive rate R0 and studied disease-free and endemic equilibrium as well as local and global stability. In addition, we extended the nonstandard finite difference scheme to simulate our model using some real data. Moreover, keeping in mind the importance of fractional order derivatives, we also attempted to extend our numerical results for the fractional order model. In this regard, we considered the proposed model under the concept of a fractional order derivative using the Caputo concept. We extended the nonstandard finite difference scheme for fractional order and simulated our results. Moreover, we also compared the numerical scheme with the traditional RK4 both in CPU time as well as graphically. Our results have close resemblance to those of the RK4 method. Also, in the case of the infected class, we compared our simulated results with the real data.

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Section: Related Workmentioning

confidence: 99%

Using Non-Standard Finite Difference Scheme to Study Classical and Fractional Order SEIVR Model

et al. 2023

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“…It is a relatively new field of study that has gained significant attention from researchers because of its wide-ranging applications in different sectors of science and engineering [ [1] , [2] , [3] , [4] , [5] ]. This has resulted in the development of new mathematical tools and techniques that have been used to solve complex problems in physics, engineering, finance, and other fields [ [6] , [7] , [8] , [9] , [10] ]. Studying fractional calculus has yielded the maturation of numerous numerical strategies for solving fractional models, including Riemann, Caputo, and Grunwald-Letnikov's approaches [ [11] , [12] , [13] ].…”

Section: Introductionmentioning

confidence: 99%

Existence, uniqueness, and galerkin shifted Legendre's approximation of time delays integrodifferential models by adapting the Hilfer fractional attitude

Sweis,

Shawagfeh,

Abu Arqub

2024

Heliyon

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“…In recent years, the area related to fractional differential and integral equations has received much attention from numerous mathematicians and specialists [1]. The derivatives of fractional order represent physical models of multiple phenomena in many fields, including engineering [2,3], mathematical physics [4], fractional calculus [5] and bio-engineering [6]. The idea of convexity has been modernized, extended and expanded in several ways [7,8].…”

Section: Introductionmentioning

confidence: 99%

Exploration of Hermite–Hadamard-Type Integral Inequalities for Twice Differentiable h-Convex Functions

et al. 2023

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The significance of fractional calculus cannot be underestimated, as it plays a crucial role in the theory of inequalities. In this paper, we study a new class of mean-type inequalities by incorporating Riemann-type fractional integrals. By doing so, we discover a novel set of such inequalities and analyze them using different mathematical identities. This particular class of inequalities is introduced by employing a generalized convexity concept. To validate our work, we create visual graphs and a table of values using specific functions to represent the inequalities. This approach allows us to demonstrate the validity of our findings and further solidify our conclusions. Moreover, we find that some previously published results emerge as special consequences of our main findings. This research serves as a catalyst for future investigations, encouraging researchers to explore more comprehensive outcomes by using generalized fractional operators and expanding the concept of convexity.

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On Riemann-Type Weighted Fractional Operators and Solutions to Cauchy Problems

Cited by 5 publications

References 30 publications

Using Non-Standard Finite Difference Scheme to Study Classical and Fractional Order SEIVR Model

Using Non-Standard Finite Difference Scheme to Study Classical and Fractional Order SEIVR Model

Existence, uniqueness, and galerkin shifted Legendre's approximation of time delays integrodifferential models by adapting the Hilfer fractional attitude

Exploration of Hermite–Hadamard-Type Integral Inequalities for Twice Differentiable h-Convex Functions

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