Efficient Nonstandard Grünwald-Letnikov Finite Difference Method for Time Fractional SIR Epidemic Model

Sweilam, Nasser; Hamdy, Nourhan; El-sayed, Ehab Ahmed; Emam, Tarek

doi:10.21608/fsrt.2024.288371.1129

Efficient Nonstandard Grünwald-Letnikov Finite Difference Method for Time Fractional SIR Epidemic Model

Document Type : Original Article

Authors

¹ Cairo university, faculty of science, Cairo, Egypt

² Department of Science and Engineering Mathematics, Faculty of Petroleum and Mining Engineering, Suez University, Suez, Egypt

³ Department of Science and Mathematical Engineering, Faculty of Petroleum and Mining Engineering, Suez University

⁴ Department of Mathematics, Faculty of Science, Suez University, Suez, Egypt

10.21608/fsrt.2024.288371.1129

Abstract

Nonlinear ordinary differential equations (ODEs) are commonly used for modeling physical, chemical, and biological systems. Mathematical models and their simulations are important for understanding the quality and quantity of these systems. Infectious disease mathematical models are widely used by many researchers. Epidemic models have become a valuable tool for the analysis of dynamics of infectious disease in recent years. Unfortunately, often the analytic solution of such differential equations can not be obtained explicitly . Hence, numerical methods to solve approximately these models. One of the simplest numerical techniques is the finite difference methods. This paper aims to present an efficient numerical method to study the fractional time SIR epidemic model. The numerical method that used to study this model is the nonstandard Grünwald-Letnikov finite difference method. Comparative study with the standard methods is done. Various graphs are presented to describe the numerical results. The obtained results indicate that the proposed method has been successful applied to efficiently study the SIR epidemic model.

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