Equations for infection spread in a closed population are found in discrete approximation, corresponding to the published statistical data, and in continuous time in the form of delay differential equations. We consider the epidemic as dependent upon four key parameters: the size of population involved, the mean number of dangerous contacts of one infected person per day, the probability to transmit infection due to such contact and the mean duration of disease. In the simplest case of free-running epidemic in an infinite population, the number of infected rises exponentially day by day. Here we show the model for epidemic process in a closed population, constrained by isolation, treatment and so on. The four parameters introduced here have...
Public health science is increasingly focusing on understanding how COVID-19 spreads among humans. F...
A mathematical model to address the efficiency of the isolation and quarantine strategies in the con...
A new COVID-19 epidemic model with media coverage and quarantine is constructed. The model allows fo...
New equation for infection spread in a finite population is found. Description of the epidemic COVID...
We study a simple realistic model for describing the diffusion of an infectious disease on a pop- ul...
We develop a mathematical model for the transmission and spread of infections caused by the severe a...
We introduce a system of differential equations to assess the impact of (self-)quarantine of symptom...
International audienceAttempts to curb the spread of coronavirus by introducing strict quarantine me...
In this paper, a mathematical model based on COVID-19 is developed to study and manage disease outbr...
We constructed a simple Susceptible−Exposed–Infectious–Removed model of the spread of COVID-19. The ...
Quantitative assessment of the infection rate of a virus is key to monitor the evolution of an epide...
International audienceThis paper is devoted to a model of epidemic progression, taking into account ...
This article is an open access article distributed under the terms and conditions of the Creative Co...
A mathematical model revealing the transmission mechanism of COVID-19 is produced and theoretically ...
An S-A-I-Q-R epidemic model is investigated for Covid-19 as a class of infectious diseases that can ...
Public health science is increasingly focusing on understanding how COVID-19 spreads among humans. F...
A mathematical model to address the efficiency of the isolation and quarantine strategies in the con...
A new COVID-19 epidemic model with media coverage and quarantine is constructed. The model allows fo...
New equation for infection spread in a finite population is found. Description of the epidemic COVID...
We study a simple realistic model for describing the diffusion of an infectious disease on a pop- ul...
We develop a mathematical model for the transmission and spread of infections caused by the severe a...
We introduce a system of differential equations to assess the impact of (self-)quarantine of symptom...
International audienceAttempts to curb the spread of coronavirus by introducing strict quarantine me...
In this paper, a mathematical model based on COVID-19 is developed to study and manage disease outbr...
We constructed a simple Susceptible−Exposed–Infectious–Removed model of the spread of COVID-19. The ...
Quantitative assessment of the infection rate of a virus is key to monitor the evolution of an epide...
International audienceThis paper is devoted to a model of epidemic progression, taking into account ...
This article is an open access article distributed under the terms and conditions of the Creative Co...
A mathematical model revealing the transmission mechanism of COVID-19 is produced and theoretically ...
An S-A-I-Q-R epidemic model is investigated for Covid-19 as a class of infectious diseases that can ...
Public health science is increasingly focusing on understanding how COVID-19 spreads among humans. F...
A mathematical model to address the efficiency of the isolation and quarantine strategies in the con...
A new COVID-19 epidemic model with media coverage and quarantine is constructed. The model allows fo...