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The influence of an infectious disease on a prey-predator model equipped with a fractional-order derivative

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dc.contributor.authorDjilali, Salih
dc.contributor.authorGhanbari, Behzad
dc.contributor.institutionDjilali, Salih, Laboratoire d'Analyse Non Linéaire et Mathématiques Appliquées, Université Abou Bekr Belkaid Tlemcen, Tlemcen, Algeria, Department of Mathematics, University Hassiba Benbouali - Chlef, Chlef, Algeria
dc.contributor.institutionGhanbari, Behzad, Department of Basic Sciences, Kermanshah University of Technology, Kermanshah, Iran, Department of Mathematics, Bahçeşehir Üniversitesi, Istanbul, Turkey
dc.date.accessioned2025-10-05T15:28:01Z
dc.date.issued2021
dc.description.abstractIn this research, we discuss the influence of an infectious disease in the evolution of ecological species. A computational predator-prey model of fractional order is considered. Also, we assume that there is a non-fatal infectious disease developed in the prey population. Indeed, it is considered that the predators have a cooperative hunting. This situation occurs when a pair or group of animals coordinate their activities as part of their hunting behavior in order to improve their chances of making a kill and feeding. In this model, we then shift the role of standard derivatives to fractional-order derivatives to take advantage of the valuable benefits of this class of derivatives. Moreover, the stability of equilibrium points is studied. The influence of this infection measured by the transmission rate on the evolution of predator-prey interaction is determined. Many scenarios are obtained, which implies the richness of the suggested model and the importance of this study. The graphical representation of the mathematical results is provided through a precise numerical scheme. This technique enables us to approximate other related models including fractional-derivative operators with high accuracy and efficiency. © 2020 Elsevier B.V., All rights reserved.
dc.identifier.doi10.1186/s13662-020-03177-9
dc.identifier.issn16871839
dc.identifier.issn16871847
dc.identifier.issue1
dc.identifier.scopus2-s2.0-85098891107
dc.identifier.urihttps://doi.org/10.1186/s13662-020-03177-9
dc.identifier.urihttps://hdl.handle.net/20.500.14719/9361
dc.identifier.volume2021
dc.language.isoen
dc.publisherSpringer Science and Business Media Deutschland GmbH
dc.relation.oastatusAll Open Access
dc.relation.oastatusGold Open Access
dc.relation.sourceAdvances in Difference Equations
dc.subject.authorkeywordsFractional Calculus
dc.subject.authorkeywordsHunting Cooperation
dc.subject.authorkeywordsInfected Prey
dc.subject.authorkeywordsPredator-prey Model
dc.titleThe influence of an infectious disease on a prey-predator model equipped with a fractional-order derivative
dc.typeArticle
dcterms.referencesDiscrete Contin Dyn Syst Ser S, (2018), Akgül, Ali, A novel method for a fractional derivative with non-local and non-singular kernel, Chaos, Solitons and Fractals, 114, pp. 478-482, (2018), Alex Eng J, (2020), Atangana, Abdon, Can transfer function and Bode diagram be obtained from Sumudu transform, Alexandria Engineering Journal, 59, 4, pp. 1971-1984, (2020), Alexandria Engineering Journal, (2020), Adv Differ Equ, (2020), Soufiane, Bentout, Age-Structured Modeling of COVID-19 Epidemic in the USA, UAE and Algeria, Alexandria Engineering Journal, 60, 1, pp. 401-411, (2021), Capone, Florinda, Turing patterns in a reaction–diffusion system modeling hunting cooperation, Mathematics and Computers in Simulation, 165, pp. 172-180, (2019), Chattopadhyay, Joydev, Predator-prey model with disease in the prey, Nonlinear Analysis, Theory, Methods and Applications, 36, 6, pp. 747-766, (1999), Cosner, Chris, Effects of spatial grouping on the functional response of predators, Theoretical Population Biology, 56, 1, pp. 65-75, (1999)
dspace.entity.typePublication
local.indexed.atScopus
person.identifier.scopus-author-id57195245854
person.identifier.scopus-author-id35174751300

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