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Ulam–Hyers Stability and Uniqueness for Nonlinear Sequential Fractional Differential Equations Involving Integral Boundary Conditions

Areen Al-Khateeb, Hamzeh Zureigat, Osama Ala’yed, Sameer Bawaneh

2021Fractal and Fractional22 citationsDOIOpen Access PDF

Abstract

Fractional-order boundary value problems are used to model certain phenomena in chemistry, physics, biology, and engineering. However, some of these models do not meet the existence and uniqueness required in the mainstream of mathematical processes. Therefore, in this paper, the existence, stability, and uniqueness for the solution of the coupled system of the Caputo-type sequential fractional differential equation, involving integral boundary conditions, was discussed, and investigated. Leray–Schauder’s alternative was applied to derive the existence of the solution, while Banach’s contraction principle was used to examine the uniqueness of the solution. Moreover, Ulam–Hyers stability of the presented system was investigated. It was found that the theoretical-related aspects (existence, uniqueness, and stability) that were examined for the governing system were satisfactory. Finally, an example was given to illustrate and examine certain related aspects.

Topics & Concepts

UniquenessMathematicsContraction principleBoundary value problemStability (learning theory)Mathematical analysisContraction mappingApplied mathematicsNonlinear systemDifferential equationType (biology)Fixed-point theoremComputer sciencePhysicsMachine learningQuantum mechanicsEcologyBiologyFractional Differential Equations SolutionsNonlinear Differential Equations AnalysisNumerical methods for differential equations