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Stochastic Epidemic Model of Covid-19 via the Reservoir-People Transmission Network

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dc.contributor.author Nouri, Kazem
dc.contributor.author Fahimi, Milad
dc.contributor.author Torkzadeh, Leila
dc.contributor.author Baleanu, Dumitru
dc.date.accessioned 2024-04-25T07:32:26Z
dc.date.available 2024-04-25T07:32:26Z
dc.date.issued 2022
dc.identifier.citation Nouri, Kazem...et.al. (2022). "Stochastic Epidemic Model of Covid-19 via the Reservoir-People Transmission Network", Computers, Materials and Continua, Vol.72, No.1, pp.1495-1514. tr_TR
dc.identifier.issn 15462218
dc.identifier.uri http://hdl.handle.net/20.500.12416/7931
dc.description.abstract The novel Coronavirus COVID-19 emerged in Wuhan, China in December 2019. COVID-19 has rapidly spread among human populations and other mammals. The outbreak of COVID-19 has become a global challenge. Mathematical models of epidemiological systems enable studying and predicting the potential spread of disease. Modeling and predicting the evolution of COVID-19 epidemics in near real-time is a scientific challenge, this requires a deep understanding of the dynamics of pandemics and the possibility that the diffusion process can be completely random. In this paper, we develop and analyze a model to simulate the Coronavirus transmission dynamics based on Reservoir-People transmission network.When faced with a potential outbreak, decision-makers need to be able to trust mathematical models for their decision-making processes. One of the most considerable characteristics of COVID-19 is its different behaviors in various countries and regions, or even in different individuals, which can be a sign of uncertain and accidental behavior in the disease outbreak. This trait reflects the existence of the capacity of transmitting perturbations across its domains. We construct a stochastic environment because of parameters random essence and introduce a stochastic version of theReservoir-Peoplemodel. Then we prove the uniqueness and existence of the solution on the stochastic model. Moreover, the equilibria of the system are considered. Also, we establish the extinction of the disease under some suitable conditions. Finally, some numerical simulation and comparison are carried out to validate the theoretical results and the possibility of comparability of the stochastic model with the deterministic model. tr_TR
dc.language.iso eng tr_TR
dc.relation.isversionof 10.32604/cmc.2022.024406 tr_TR
dc.rights info:eu-repo/semantics/openAccess tr_TR
dc.subject Brownian Motion tr_TR
dc.subject Coronavirus tr_TR
dc.subject Infectious Diseases tr_TR
dc.subject Reservoir-People Model tr_TR
dc.subject Stochastic Differential Equation tr_TR
dc.subject Stochastic Modeling tr_TR
dc.subject Transmission Simulation tr_TR
dc.title Stochastic Epidemic Model of Covid-19 via the Reservoir-People Transmission Network tr_TR
dc.type article tr_TR
dc.relation.journal Computers, Materials and Continua tr_TR
dc.contributor.authorID 56389 tr_TR
dc.identifier.volume 72 tr_TR
dc.identifier.issue 1 tr_TR
dc.identifier.startpage 1495 tr_TR
dc.identifier.endpage 1514 tr_TR
dc.contributor.department Çankaya Üniversitesi, Fen-Edebiyat Fakültesi, Matematik Bölümü tr_TR


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