In this paper we extend previous work deriving dynamic equations governing infectious disease spread on networks. The previous work has implicitly assumed that the disease is initialized by an infinitesimally small proportion of the population. Our modifications allow us to account for an arbitrarily large initial proportion infected. This helps resolve an apparent paradox in earlier work whereby the number of susceptible individuals could increase if too many individuals were initially infected. It also helps explain an apparent small deviation that has been observed between simulation and theory. An advantage of this modification is that it allows us to account for changes in the structure or behavior of the population during the epidemic
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
When an infectious disease strikes a population, the number of newly reported cases is often the onl...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Models of disease spreading are critical for predicting infection growth in a population and evaluat...
One major aim of statistics is to systematically study outcomes of interest in a population by obser...
The spread of an infectious disease may depend on the population size. For simplicity, classic epide...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
<p>(A) Final fraction of non-infected subjects as a function of the infective time and the infecti...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Infectious diseases, now more than ever, are a critical area of study within the field of public hea...
AbstractThe speed and range of epidemic spreading is strongly influenced by the topology and dynamic...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
When an infectious disease strikes a population, the number of newly reported cases is often the onl...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...
In this paper we extend previous work deriving dynamic equations governing infectious disease spread...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
Over the past century, mathematical epidemiology has grown to be one of the triumphs of applied math...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
Models of disease spreading are critical for predicting infection growth in a population and evaluat...
One major aim of statistics is to systematically study outcomes of interest in a population by obser...
The spread of an infectious disease may depend on the population size. For simplicity, classic epide...
Human societies are organized in complex webs that are constantly reshaped by a social dynamic which...
<p>(A) Final fraction of non-infected subjects as a function of the infective time and the infecti...
Advances in the fields of mathematics, physics, epidemiology, and computing have led to an incredibl...
Infectious diseases, now more than ever, are a critical area of study within the field of public hea...
AbstractThe speed and range of epidemic spreading is strongly influenced by the topology and dynamic...
Understanding the scaling of transmission is critical to predicting how infectious diseases will aff...
When an infectious disease strikes a population, the number of newly reported cases is often the onl...
Epidemic models often reflect characteristic features of infectious spreading processes by coupled n...