This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introduce fundamental concepts from nonlinear dynamics and statistical physics, and use computer simulations that can be implemented by advanced undergraduate and by graduate students. It is shown that the model can describe real-world phenomena during an epidemic. Due to its simplicity and flexibility, the model is also a useful tool for research
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
Abstract In this paper, a stochastic SIS epidemic model with nonlinear incidence rate and double epi...
This textbook provides an exciting new addition to the area of network science featuring a stronger ...
This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introd...
The dynamical evolution of a deterministic epidemic model is studied. We model the system by taking ...
During the ongoing COVID-19 pandemic, mathematical models of epidemic spreading have emerged as powe...
Interest in the mathematical modeling of infectious diseases has increased due to the COVID-19 pande...
This thesis presents an original model of the geographic spread of disease. The model can represent ...
Nonlinear dynamical method of projecting the transmission of an epidemic is accurate if the input pa...
One of the frequently used modern epidemiological methods is the simulation of disease spread. We us...
Abstract. Dynamical structures have been recently applied in many areas including com-plex systems. ...
The abrupt outbreak and transmission of biological diseases has always been a long-time concern of h...
This paper was written to graduate and postgraduate students of Physics and Mathematics. Was done a ...
Given the human and economical impacts of recent disease outbreaks, understanding epidemics has beco...
This book provides a systematic treatment of the mathematical underpinnings of work in the theory of...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
Abstract In this paper, a stochastic SIS epidemic model with nonlinear incidence rate and double epi...
This textbook provides an exciting new addition to the area of network science featuring a stronger ...
This paper describes a deterministic dynamical model of the epidemic spreading of disease. We introd...
The dynamical evolution of a deterministic epidemic model is studied. We model the system by taking ...
During the ongoing COVID-19 pandemic, mathematical models of epidemic spreading have emerged as powe...
Interest in the mathematical modeling of infectious diseases has increased due to the COVID-19 pande...
This thesis presents an original model of the geographic spread of disease. The model can represent ...
Nonlinear dynamical method of projecting the transmission of an epidemic is accurate if the input pa...
One of the frequently used modern epidemiological methods is the simulation of disease spread. We us...
Abstract. Dynamical structures have been recently applied in many areas including com-plex systems. ...
The abrupt outbreak and transmission of biological diseases has always been a long-time concern of h...
This paper was written to graduate and postgraduate students of Physics and Mathematics. Was done a ...
Given the human and economical impacts of recent disease outbreaks, understanding epidemics has beco...
This book provides a systematic treatment of the mathematical underpinnings of work in the theory of...
Infectious disease outbreaks can emerge without warning and spread rapidly through a population. The...
Abstract In this paper, a stochastic SIS epidemic model with nonlinear incidence rate and double epi...
This textbook provides an exciting new addition to the area of network science featuring a stronger ...