| Property | Value |
|---|
|
?:abstract
|
-
We consider the transmission dynamics of COVID-19 which is characterized by two distinct features. One is the existence of asymptomatic carriers which is a hidden variable in the problem. The other is the issue of latency which means that among the symptomatic carriers there could be a fraction whose symptoms develop after a couple of days. Our modelling is restricted to what we call the Phase -1 of the disease. During this phase the disease sets in and the number of infected people starts growing fast ( the number of new cases per day keeps growing on an average ) and then it slows down ( the number of new cases per day starts decreasing ) with the number of new cases decreasing to about one tenth of its peak value or even smaller). We define Phase-1 to be over when the daily cases start rising once again. We write down a Henon-like map to take various effects into account for this first phase.
|
|
is
?:annotates
of
|
|
|
?:arxiv_id
|
|
|
?:creator
|
|
|
?:externalLink
|
|
|
?:license
|
|
|
?:pdf_json_files
|
-
document_parses/pdf_json/13380c21678442624636910b155c4e04a508609a.json
|
|
?:publication_isRelatedTo_Disease
|
|
|
?:sha_id
|
|
|
?:source
|
|
|
?:title
|
-
A Henon map for the transmission dynamics of COVID-19: The role of asymptomatic transmitters and delayed symptoms
|
|
?:type
|
|
|
?:year
|
|
![[This page as RDF]](https://research.tib.eu/covid-19/static/rdf-icon.gif){kind=icon}