DYNAMICAL ANALYSIS of A NOVEL DISCRETE FRACTIONAL SITRS MODEL for COVID-19

A. M.R. Elsonbaty; Zulqurnain Sabir; Rajagopalan Ramaswamy; Waleed Adel

doi:10.1142/S0218348X21400351

DYNAMICAL ANALYSIS of A NOVEL DISCRETE FRACTIONAL SITRS MODEL for COVID-19

A. M.R. Elsonbaty, Zulqurnain Sabir, Rajagopalan Ramaswamy, Waleed Adel

Mathematics

Research output: Contribution to journal › Article › peer-review

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Abstract

In this paper, a discrete fractional Susceptible-Infected-Treatment-Recovered-Susceptible (SITRS) model for simulating the coronavirus (COVID-19) pandemic is presented. The model is a modification to a recent continuous-Time SITR model by taking into account the possibility that people who have been infected before can lose their temporary immunity and get reinfected. Moreover, a modification is suggested in the present model to correct the improper assumption that the infection rates of both normal susceptible and old aged/seriously diseased people are equal. This modification complies with experimental data. The equilibrium points for the proposed model are found and results of thorough stability analysis are discussed. A full numerical simulation is carried out and gives a better analysis of the disease spread, influences of model's parameters, and how to control the virus. Comparisons with clinical data are also provided.

Original language	English
Article number	2140035
Journal	Fractals
Volume	29
Issue number	8
DOIs	https://doi.org/10.1142/S0218348X21400351
State	Published - 1 Dec 2021

Keywords

Caputo Fractional Difference
Epidemics
SITRS Model
Stability Analysis

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1142/S0218348X21400351

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abstract = "In this paper, a discrete fractional Susceptible-Infected-Treatment-Recovered-Susceptible (SITRS) model for simulating the coronavirus (COVID-19) pandemic is presented. The model is a modification to a recent continuous-Time SITR model by taking into account the possibility that people who have been infected before can lose their temporary immunity and get reinfected. Moreover, a modification is suggested in the present model to correct the improper assumption that the infection rates of both normal susceptible and old aged/seriously diseased people are equal. This modification complies with experimental data. The equilibrium points for the proposed model are found and results of thorough stability analysis are discussed. A full numerical simulation is carried out and gives a better analysis of the disease spread, influences of model's parameters, and how to control the virus. Comparisons with clinical data are also provided.",

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AU - Ramaswamy, Rajagopalan

AU - Adel, Waleed

PY - 2021/12/1

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N2 - In this paper, a discrete fractional Susceptible-Infected-Treatment-Recovered-Susceptible (SITRS) model for simulating the coronavirus (COVID-19) pandemic is presented. The model is a modification to a recent continuous-Time SITR model by taking into account the possibility that people who have been infected before can lose their temporary immunity and get reinfected. Moreover, a modification is suggested in the present model to correct the improper assumption that the infection rates of both normal susceptible and old aged/seriously diseased people are equal. This modification complies with experimental data. The equilibrium points for the proposed model are found and results of thorough stability analysis are discussed. A full numerical simulation is carried out and gives a better analysis of the disease spread, influences of model's parameters, and how to control the virus. Comparisons with clinical data are also provided.

AB - In this paper, a discrete fractional Susceptible-Infected-Treatment-Recovered-Susceptible (SITRS) model for simulating the coronavirus (COVID-19) pandemic is presented. The model is a modification to a recent continuous-Time SITR model by taking into account the possibility that people who have been infected before can lose their temporary immunity and get reinfected. Moreover, a modification is suggested in the present model to correct the improper assumption that the infection rates of both normal susceptible and old aged/seriously diseased people are equal. This modification complies with experimental data. The equilibrium points for the proposed model are found and results of thorough stability analysis are discussed. A full numerical simulation is carried out and gives a better analysis of the disease spread, influences of model's parameters, and how to control the virus. Comparisons with clinical data are also provided.

KW - Caputo Fractional Difference

KW - Epidemics

KW - SITRS Model

KW - Stability Analysis

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DYNAMICAL ANALYSIS of A NOVEL DISCRETE FRACTIONAL SITRS MODEL for COVID-19

Abstract

Keywords

UN SDGs

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