<p>(a) Evolution of the expected number of recovered pupils (solid green line) and the standard deviations (dashed red lines), given that at least one pupil is always infected. (b) The Fano factor (variance/mean) associated with the results in (a) as a function of time. (c) Dynamic evolution of the probability of extinction , . (d) The (approximately stationary) probability mass function at days.</p
<p>Model predictions of the effects of changes in the populations of susceptible and infected hosts ...
<p>We show the medians of , evaluated using stochastic runs for the baseline (SIR model without fea...
Simulation of the SIRS model: (A) Susceptibles; (B) Infectious; (C) Time evolution of both Reff and ...
Dynamics of the deterministic component of the SIR model (Eq 1) as a function of vaccine uptake. The...
The development of immunity in the susceptible class by a continuous low level of infection is a com...
(A) Proportions of susceptible, infected, and recovered individuals over time for an infection rate ...
<p>Parameter values for the SIR (Susceptible-Infectious-Recovered) model as applied to the epidemiol...
In the model, the transmission rate increases linearly over time, resulting in a critical transition...
<p>Parameters of the SIR model. Single numbers are values of fixed parameters. The rest are posterio...
<p>When and , immunity wanes and is boosted by re-exposure; we term this the SIRWS model. When and...
Abstract The objective of this paper is to explore the long time behavior of a stocha...
The temporal evolution of second and subsequent waves of epidemics such as Covid-19 is investigated....
Mathematical modeling is a powerful tool used to study the dynamical processes of disease networks. ...
<p>(A) Schematic of the mathematical model. Slender cells can become committed to differentiation vi...
We consider a SIR model with birth and death terms and time-varying infectivity parameter β (t). In ...
<p>Model predictions of the effects of changes in the populations of susceptible and infected hosts ...
<p>We show the medians of , evaluated using stochastic runs for the baseline (SIR model without fea...
Simulation of the SIRS model: (A) Susceptibles; (B) Infectious; (C) Time evolution of both Reff and ...
Dynamics of the deterministic component of the SIR model (Eq 1) as a function of vaccine uptake. The...
The development of immunity in the susceptible class by a continuous low level of infection is a com...
(A) Proportions of susceptible, infected, and recovered individuals over time for an infection rate ...
<p>Parameter values for the SIR (Susceptible-Infectious-Recovered) model as applied to the epidemiol...
In the model, the transmission rate increases linearly over time, resulting in a critical transition...
<p>Parameters of the SIR model. Single numbers are values of fixed parameters. The rest are posterio...
<p>When and , immunity wanes and is boosted by re-exposure; we term this the SIRWS model. When and...
Abstract The objective of this paper is to explore the long time behavior of a stocha...
The temporal evolution of second and subsequent waves of epidemics such as Covid-19 is investigated....
Mathematical modeling is a powerful tool used to study the dynamical processes of disease networks. ...
<p>(A) Schematic of the mathematical model. Slender cells can become committed to differentiation vi...
We consider a SIR model with birth and death terms and time-varying infectivity parameter β (t). In ...
<p>Model predictions of the effects of changes in the populations of susceptible and infected hosts ...
<p>We show the medians of , evaluated using stochastic runs for the baseline (SIR model without fea...
Simulation of the SIRS model: (A) Susceptibles; (B) Infectious; (C) Time evolution of both Reff and ...
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