Probability of a disease outbreak in stochastic multipatch epidemic models

EXTINCTION THRESHOLD IN A STOCHASTIC EPIDEMIC MODEL FOR ROTAVIRUS DYNAMICS WITH CONTAMINATED ENVIRONMENT ⋮ Disease outbreaks in plant-vector-virus models with vector aggregation and dispersal ⋮ Threshold Behavior in a Class of Stochastic SIRS Epidemic Models With Nonlinear Incidence ⋮ Heterogeneous population dynamics and scaling laws near epidemic outbreaks ⋮ Stochastic asymptotic analysis of a multi-host model with vector transmission ⋮ An epidemic model with time-distributed recovery and death rates ⋮ A stochastic tick-borne disease model: exploring the probability of pathogen persistence ⋮ A stochastic model of antibiotic misuse, economy, and drug resistance: relating mutant extinction probability to socioeconomic and epidemiological factors ⋮ Probability of disease extinction and outbreak in a stochastic tuberculosis model with fast-slow progression and relapse ⋮ The probability of extinction of infectious salmon anemia virus in one and two patches ⋮ A stochastic multi-host model for West Nile virus transmission ⋮ The evolutionary dynamics of stochastic epidemic model with nonlinear incidence rate ⋮ A practical guide to mathematical methods for estimating infectious disease outbreak risks ⋮ Stochastic analysis of in-host HCV dynamics through budding and bursting process ⋮ The distribution of the time taken for an epidemic to spread between two communities ⋮ Disease emergence in multi-patch stochastic epidemic models with demographic and seasonal variability ⋮ Local approximation of Markov chains in time and space ⋮ A stochastic model of contagion with different individual types ⋮ A stochastic epidemic model for the dynamics of two pathogens in a single tick population ⋮ The asymptotic behavior of a stochastic vaccination model with backward bifurcation ⋮ Unnamed Item ⋮ Determining the effects of wind-aided midge movement on the outbreak and coexistence of multiple bluetongue virus serotypes in patchy environments ⋮ Effect of movement on the early phase of an epidemic ⋮ Correlations between stochastic endemic infection in multiple interacting subpopulations ⋮ Network-level reproduction number and extinction threshold for vector-borne diseases ⋮ Discrete stochastic metapopulation model with arbitrarily distributed infectious period ⋮ Outbreak or extinction of bovine cysticercosis and human taeniasis: a stochastic modelling approach ⋮ A comparison of deterministic and stochastic plant-vector-virus models based on probability of disease extinction and outbreak

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• The basic reproduction number and the probability of extinction for a dynamic epidemic model
• The probability of extinction in a bovine respiratory syncytial virus epidemic model
• A mathematical model for the global spread of influenza
• Dependence of epidemic and population velocities on basic parameters
• Dynamic population epidemic models
• Strong approximation theorems for density dependent Markov chains
• Threshold of disease transmission in a patch environment
• Reproduction numbers and sub-threshold endemic equilibria for compartmental models of disease transmission
• An epidemic model in a patchy environment
• Quarantine in a multi-species epidemic model with spatial dynamics
• Impact of travel between patches for spatial spread of disease
• Relations between deterministic and stochastic thresholds for disease extinction in continuous- and discrete-time infectious disease models
• A model for disease transmission in a patchy environment
• The effect of global travel on the spread of SARS
• Strong approximations for mobile population epidemic models
• A Multipatch Malaria Model with Logistic Growth Populations
• Extinction thresholds in deterministic and stochastic epidemic models
• Modeling with Itô Stochastic Differential Equations
• Multi-patch deterministic and stochastic models for wildlife diseases
• The threshold behaviour of epidemic models
• The final size and severity of a generalised stochastic multitype epidemic model
• Some comparison results for multitype epidemic models
• A multi-city epidemic model
• In the Garden of Branching Processes
• The final outcome of an epidemic model with several different types of infective in a large population
• Asymptotic Profiles of the Steady States for an SIS Epidemic Patch Model
• Construction of Equivalent Stochastic Differential Equation Models
• A multi-species epidemic model with spatial dynamics
• Models for transmission of disease with immigration of infectives
• Stochastic differential equations. An introduction with applications.