Predicting and controlling the dynamics of infectious diseases
Version 2 2024-06-05, 03:22
Version 1 2019-05-09, 10:32
conference contribution
posted on 2024-06-05, 03:22 authored by RJ Evans, Musa MammadovMusa Mammadov© 2015 IEEE. This paper introduces a new optimal control model to describe and control the dynamics of infectious diseases. In the present model, the average time to isolation (i.e. hospitalization) of infectious population is the main time-dependent parameter that defines the spread of infection. All the preventive measures aim to decrease the average time to isolation under given constraints. The model suggested allows one to generate a small number of possible future scenarios and to determine corresponding trajectories of infected population in different regions. Then, this information is used to find an optimal distribution of bed capabilities across countries/regions according to each scenario.
History
Pagination
5378-5383Location
Osaka, JapanPublisher DOI
Start date
2015-12-15End date
2015-12-18ISSN
0743-1546ISBN-13
9781479978861Language
engPublication classification
E1.1 Full written paper - refereedCopyright notice
2015, IEEETitle of proceedings
CDC 2015 : Proceedings of the 54th IEEE Conference on Decision and ControlEvent
Decision and Control. Conference (54th : 2015 : Osaka, Japan)Publisher
IEEEPlace of publication
Piscataway, N.J.Usage metrics
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