Well-posedness and Ulam-Hyers stability results of solutions to pantograph fractional stochastic differential equations in the sense of conformable derivatives

Albalawi, Wedad; Liaqat, Muhammad Imran; Ud Din, Fahim; Nisar, Kottakkaran Sooppy; Abdel-Aty, Abdel-Haleem

doi:10.3934/math.2024605

MATH

2024

DOI: 10.3934/math.2024605

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Well-posedness and Ulam-Hyers stability results of solutions to pantograph fractional stochastic differential equations in the sense of conformable derivatives

Wedad Albalawi,

Muhammad Imran Liaqat,

Fahim Ud Din

et al.

Abstract: <abstract><p>One kind of stochastic delay differential equation in which the delay term is dependent on a proportion of the current time is the pantograph stochastic differential equation. Electric current collection, nonlinear dynamics, quantum mechanics, and electrodynamics are among the phenomena modeled using this equation. A key idea in physics and mathematics is the well-posedness of a differential equation, which guarantees that the solution to the problem exists and is a unique and meaningf… Show more

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2024

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Cited by 4 publications

References 67 publications

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Dynamics and stability analysis of enzymatic cooperative chemical reactions in biological systems with time-delayed effects

Jan,

Shah,

Bilal

et al. 2024

Partial Differential Equations in Applied Mathematics

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Dynamics and stability analysis of enzymatic cooperative chemical reactions in biological systems with time-delayed effects

Jan,

Shah,

Bilal

et al. 2024

Partial Differential Equations in Applied Mathematics

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Qualitative Analysis for the Solutions of Fractional Stochastic Differential Equations

Mohammed Djaouti,

Imran Liaqat

2024

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Fractional pantograph stochastic differential equations (FPSDEs) combine elements of fractional calculus, pantograph equations, and stochastic processes to model complex systems with memory effects, time delays, and random fluctuations. Ensuring the well-posedness of these equations is crucial as it guarantees meaningful, reliable, and applicable solutions across various disciplines. In differential equations, regularity refers to the smoothness of solution behavior. The averaging principle offers an approximation that balances complexity and simplicity. Our research contributes to establishing the well-posedness, regularity, and averaging principle of FPSDE solutions in Lp spaces with p≥2 under Caputo derivatives. The main ingredients in the proof include the use of Hölder, Burkholder–Davis–Gundy, Jensen, and Grönwall–Bellman inequalities, along with the interval translation approach. To understand the theoretical results, we provide numerical examples at the end.

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Qualitative Analysis of Stochastic Caputo–Katugampola Fractional Differential Equations

Khan,

Liaqat,

Akgül

et al. 2024

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Stochastic pantograph fractional differential equations (SPFDEs) combine three intricate components: stochastic processes, fractional calculus, and pantograph terms. These equations are important because they allow us to model and analyze systems with complex behaviors that traditional differential equations cannot capture. In this study, we achieve significant results for these equations within the context of Caputo–Katugampola derivatives. First, we establish the existence and uniqueness of solutions by employing the contraction mapping principle with a suitably weighted norm and demonstrate that the solutions continuously depend on both the initial values and the fractional exponent. The second part examines the regularity concerning time. Third, we illustrate the results of the averaging principle using techniques involving inequalities and interval translations. We generalize these results in two ways: first, by establishing them in the sense of the Caputo–Katugampola derivative. Applying condition β=1, we derive the results within the framework of the Caputo derivative, while condition β→0+ yields them in the context of the Caputo–Hadamard derivative. Second, we establish them in Lp space, thereby generalizing the case for p=2.

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Well-posedness and Ulam-Hyers stability results of solutions to pantograph fractional stochastic differential equations in the sense of conformable derivatives

Cited by 4 publications

References 67 publications

Dynamics and stability analysis of enzymatic cooperative chemical reactions in biological systems with time-delayed effects

Dynamics and stability analysis of enzymatic cooperative chemical reactions in biological systems with time-delayed effects

Qualitative Analysis for the Solutions of Fractional Stochastic Differential Equations

Qualitative Analysis of Stochastic Caputo–Katugampola Fractional Differential Equations

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