This paper deals with an infective process of type SIS, taking place in a closed population of moderate size that is inspected periodically. Our aim is to study the number of inspections that find the epidemic process still in progress. As the underlying mathematical model involves a discrete time Markov chain (DTMC) with a single absorbing state, the number of inspections in an outbreak is a first-passage time into this absorbing state. Cumulative probabilities are numerically determined from a recursive algorithm and expected values came from explicit expressions
We study a stochastic model for the spread of two pathogen strains –termed type-1 and type-2 – among...
550030/2010-7.The susceptible-infective-susceptible (SIS) epidemiological scheme is the simplest des...
A stochastic continuous-infection model is developed that describes the evolution of an infectious d...
This paper deals with an infective process of type SIS, taking place in a closed population of moder...
Recently, mathematical models are used to describe epidemic disease spread. Epidemic disease transmi...
The dynamics of deterministic and stochastic discrete-time epidemic models are analyzed and compared...
AbstractA chain-binomial deterministic model for the spread of an infectious disease of the S-I-S ty...
This thesis considers stochastic epidemic models for the spread of epidemics in structured populatio...
A stochastic model for the spread of an SIS epidemic among a population consisting of N individuals,...
Over the years, various parts of the world have experienced disease outbreaks. Mathematical models a...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
We continue here the work initiated in [13], and analyse an SIR epidemic model for the spread of an ...
We analyse SIS epidemics among populations partitioned into households. The analysis considers both ...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
Recently, Clancy [SIR epidemic models with general infectious period distribution, Statist. Prob. Le...
We study a stochastic model for the spread of two pathogen strains –termed type-1 and type-2 – among...
550030/2010-7.The susceptible-infective-susceptible (SIS) epidemiological scheme is the simplest des...
A stochastic continuous-infection model is developed that describes the evolution of an infectious d...
This paper deals with an infective process of type SIS, taking place in a closed population of moder...
Recently, mathematical models are used to describe epidemic disease spread. Epidemic disease transmi...
The dynamics of deterministic and stochastic discrete-time epidemic models are analyzed and compared...
AbstractA chain-binomial deterministic model for the spread of an infectious disease of the S-I-S ty...
This thesis considers stochastic epidemic models for the spread of epidemics in structured populatio...
A stochastic model for the spread of an SIS epidemic among a population consisting of N individuals,...
Over the years, various parts of the world have experienced disease outbreaks. Mathematical models a...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
We continue here the work initiated in [13], and analyse an SIR epidemic model for the spread of an ...
We analyse SIS epidemics among populations partitioned into households. The analysis considers both ...
We analyse SIS epidemics amongst populations partitioned into households. The analysis considers bot...
Recently, Clancy [SIR epidemic models with general infectious period distribution, Statist. Prob. Le...
We study a stochastic model for the spread of two pathogen strains –termed type-1 and type-2 – among...
550030/2010-7.The susceptible-infective-susceptible (SIS) epidemiological scheme is the simplest des...
A stochastic continuous-infection model is developed that describes the evolution of an infectious d...