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Analytical and numerical solutions of MABC fractional advection dispersion models by utilizing the modified physics informed neural networks with impacts of fractional derivative

Emad A. Az-Zo’bi, Adel S. Hussain, Mujahid Iqbal, Abeer Aljohani, Mohammad A. Tashtoush, Nahaa E. Alsubaie, Firas K. A. Al-Hamarneh, Nazar Mohammad Nazar, Dumitru Baleanu

2025Scientific Reports7 citationsDOIOpen Access PDF

Abstract

Transport of pollutants is a serious environmental concern, where accurate and effective mathematical models are essential for developing viable mitigation programs. In this work, this study proposes new formulation of advection dispersion equations of fractional order and employ them to model the highly complex advection dispersion phenomena. The derivative using the Modified Atangana-Baleanu-Caputo (MABC) fractional derivative is an advanced extension of the classical Atangana Baleanu derivative and provides greater flexibility in describing memory and nonlocal effects. To solve the resulting problem numerically, we utilize the framework of physics informed neural networks (PINNs), in which the governing physical laws serve as the building blocks of a deep learning model. This approach enables the derivation of highly accurate and fast convergent semi-analytical solutions. The main contributions of this work are threefold: (1) the development of specific PINNs algorithm to solve fractional differential equations in the MABC sense; (2) an extensive performance analysis demonstrating higher precision and computational efficiency compared to conventional numerical and perturbative methods; and (3) validation through a variety of case studies, confirming the robustness and applicability of the proposed approach in different contexts. Several numerical examples are provided to illustrate the effectiveness of the approach, and the results are compared with existing methods to justify both the efficiency and feasibility of the proposed scheme.

Topics & Concepts

Fractional calculusArtificial neural networkApplied mathematicsRobustness (evolution)Dispersion (optics)AdvectionComputer scienceFlexibility (engineering)Automatic differentiationPartial differential equationMathematical optimizationDifferential equationPhysical systemNumerical analysisPhysical lawComplex systemComputer simulationOrdinary differential equationDerivative (finance)Mathematical modelMathematicsStatistical physicsWork (physics)Convergence (economics)AlgorithmScalabilityFractional Differential Equations SolutionsNumerical methods for differential equationsModel Reduction and Neural Networks
Analytical and numerical solutions of MABC fractional advection dispersion models by utilizing the modified physics informed neural networks with impacts of fractional derivative | Litcius