A novel computational fractional modeling approach for the global dynamics and optimal control strategies in mitigating Marburg infection-Reference-Cited by-同舟云学术

A novel computational fractional modeling approach for the global dynamics and optimal control strategies in mitigating Marburg infection

Published:2024 Issue:5 Volume:9 Page:13159-13194
ISSN:2473-6988
Container-title:AIMS Mathematics
language:
Short-container-title:MATH

Author:

Medjoudja Meroua¹,El hadi Mezabia Mohammed¹,Riaz Muhammad Bilal²³,Boudaoui Ahmed⁴,Ullah Saif⁵,Awwad Fuad A.⁶

Affiliation:

1. Laboratory of Applied Mathematics, Kasdi Merbah University, Ouargla 30000, Algeria

2. IT4Innovations, VSB-Technical University of Ostrava, Ostrava, Czech Republic

3. Department of Computer Science and Mathematics, Lebanese American University, Byblos, Lebanon

4. Laboratory of Mathematics Modeling and Applications, University of Adrar, Adrar 01000, Algeria

5. Department of Mathematics, University of Peshawar, KPK, Pakistan

6. Department of Quantitative analysis, College of Business Administration, King Saud University, P.O. Box 71115, Riyadh 11587, Saudi Arabia

Abstract

<abstract><p>Marburg virus disease poses a significant risk to global health, impacting both humans and non-human primates. This study has yielded an optimal control model for potentially mitigating the transmission of the Marburg infection. The proposed mathematical model includes fractional-order derivatives in the Caputo sense. Initially, we analyzed the model without control measures, examining its key characteristics regarding local and global stabilities. Subsequently, we extended the model by incorporating suitable time-dependent optimal control variables. We have also introduced two time-dependent control measures: $ \Psi_1 $ for the prevention of human-to-human Marburg transmission, and $ \Psi_2 $ to enhance the rate of quarantine of exposed individuals. We performed simulation analysis for both cases i.e., with and without optimal controls using the two-step Newton polynomial approximation method, considering both fractional and classical orders. The numerical findings of the comparative study between classical and fractional cases validate the biological significance of the fractional operator and effectiveness of the proposed optimal control strategies.</p></abstract>

Publisher

American Institute of Mathematical Sciences (AIMS)

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