A novel queue-based stochastic epidemic model with adaptive stabilising control
A novel queue-based stochastic epidemic model with adaptive stabilising control
The main objective of this paper is to propose a novel SEIR stochastic epidemic model. A distinguishing feature of this new model is that it allows us to consider a setup under general latency and infectious period distributions. To some extent, queuing systems with infinitely many servers and a Markov chain with time-varying transition rate comprise the very technical underpinning of the paper. Although more general, the Markov chain is as tractable as previous models for exponentially distributed latency and infection periods. It is also significantly more straightforward and tractable than semi-Markov models with a similar level of generality. Based on stochastic stability, we derive a sufficient condition for a shrinking epidemic regarding the queuing system's occupation rate that drives the dynamics. Relying on this condition, we propose a class of ad-hoc stabilising mitigation strategies that seek to keep a balanced occupation rate after a prescribed mitigation-free period. We validate the approach in the light of the COVID-19 epidemic in England and in the state of Amazonas, Brazil, and assess the effect of different stabilising strategies in the latter setting. Results suggest that the proposed approach can curb the epidemic with various occupation rate levels if the mitigation is timely.
markov processes, queuing theory, stabilising control, stochastic epidemic models, Stochastic epidemic models, Markov processes, Stabilising control, Queuing theory
121-133
Arruda, Edilson F.
8eb3bd83-e883-4bf3-bfbc-7887c5daa911
Alexandre, Rodrigo e A.
c439f66a-0079-4d8a-9be8-dd461b9fd547
Fragoso, Marcelo D.
7f484139-de97-4458-aa6b-dc3249811a08
do Val, João B.R.
4139d2f5-1439-45d9-a77e-8e7e20ec98b8
Thomas, Sinnu S.
8cf7e34f-5892-4578-bb48-0376efa7c39c
September 2023
Arruda, Edilson F.
8eb3bd83-e883-4bf3-bfbc-7887c5daa911
Alexandre, Rodrigo e A.
c439f66a-0079-4d8a-9be8-dd461b9fd547
Fragoso, Marcelo D.
7f484139-de97-4458-aa6b-dc3249811a08
do Val, João B.R.
4139d2f5-1439-45d9-a77e-8e7e20ec98b8
Thomas, Sinnu S.
8cf7e34f-5892-4578-bb48-0376efa7c39c
Arruda, Edilson F., Alexandre, Rodrigo e A., Fragoso, Marcelo D., do Val, João B.R. and Thomas, Sinnu S.
(2023)
A novel queue-based stochastic epidemic model with adaptive stabilising control.
ISA Transactions, 140, .
(doi:10.1016/j.isatra.2023.06.018).
Abstract
The main objective of this paper is to propose a novel SEIR stochastic epidemic model. A distinguishing feature of this new model is that it allows us to consider a setup under general latency and infectious period distributions. To some extent, queuing systems with infinitely many servers and a Markov chain with time-varying transition rate comprise the very technical underpinning of the paper. Although more general, the Markov chain is as tractable as previous models for exponentially distributed latency and infection periods. It is also significantly more straightforward and tractable than semi-Markov models with a similar level of generality. Based on stochastic stability, we derive a sufficient condition for a shrinking epidemic regarding the queuing system's occupation rate that drives the dynamics. Relying on this condition, we propose a class of ad-hoc stabilising mitigation strategies that seek to keep a balanced occupation rate after a prescribed mitigation-free period. We validate the approach in the light of the COVID-19 epidemic in England and in the state of Amazonas, Brazil, and assess the effect of different stabilising strategies in the latter setting. Results suggest that the proposed approach can curb the epidemic with various occupation rate levels if the mitigation is timely.
Text
Stochastic_Epidemic_Models_with_Application_to_COVID_19
- Accepted Manuscript
Text
1-s2.0-S0019057823002859-main (1)
- Proof
More information
Accepted/In Press date: 19 June 2023
e-pub ahead of print date: 27 June 2023
Published date: September 2023
Additional Information:
Funding Information:
The Brazilian Research Council (CNPq), Brazil partly supported this study, under grants #311075/2018-5 , #303352/2018-3 , #421486/2016-3 and #312119/2020-8 . The study was also supported by Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)—Brasil [Finance Code 001 ].
Publisher Copyright:
© 2023 The Authors
Keywords:
markov processes, queuing theory, stabilising control, stochastic epidemic models, Stochastic epidemic models, Markov processes, Stabilising control, Queuing theory
Identifiers
Local EPrints ID: 478485
URI: http://eprints.soton.ac.uk/id/eprint/478485
ISSN: 0019-0578
PURE UUID: 07c109a5-7c2e-49a3-808f-f07dd71721d9
Catalogue record
Date deposited: 04 Jul 2023 17:20
Last modified: 16 Apr 2024 01:59
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Contributors
Author:
Edilson F. Arruda
Author:
Rodrigo e A. Alexandre
Author:
Marcelo D. Fragoso
Author:
João B.R. do Val
Author:
Sinnu S. Thomas
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