Add to ORKGIn this work, a novel model to simulate epidemic spreading is in-troduced. It is based on the use of two-dimensional cellular automata, where each cell stand for a square portion of the environment. It is suppose that the distribution of the population is homogeneous, that is, all cells have the same population. The laboratory simulations obtained seem to be in agreement with the real behavior of epidemic spreading
The epidemic spreading of infectious disease is a process of evolution over time. Based on the cellu...
International audienceThis work aims at developing a general methodology to determine the spatial ch...
We present a lattice gas cellular automaton (LGCA) to study spatial and temporal dynamics of an epid...
AbstractThe main goal of this work is to propose a mathematical model, based on two-dimensional cell...
Computer modelling and simulation methods are very important and play a critical role in the mitigat...
Two-dimensional cellular automata are a powerful tool for the simulation of complex discrete systems...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
AbstractCellular Automata (CA) has shown to be a valuable approach in ecological modeling, in partic...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
AbstractThe main goal of this work is to propose a mathematical model, based on two-dimensional cell...
Currently, the world has been facing the brunt of a pandemic due to a disease called COVID-19 for th...
Abstract. The epidemic spreading of infectious disease is a process of evolution over time. Based on...
Addressing population heterogeneity and distribution in epidemics models using a cellular automata a...
In this work we show two different approaches to model virus spread in a large population of individ...
The epidemic spreading of infectious disease is a process of evolution over time. Based on the cellu...
International audienceThis work aims at developing a general methodology to determine the spatial ch...
We present a lattice gas cellular automaton (LGCA) to study spatial and temporal dynamics of an epid...
AbstractThe main goal of this work is to propose a mathematical model, based on two-dimensional cell...
Computer modelling and simulation methods are very important and play a critical role in the mitigat...
Two-dimensional cellular automata are a powerful tool for the simulation of complex discrete systems...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
AbstractCellular Automata (CA) has shown to be a valuable approach in ecological modeling, in partic...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
Compartmental models are very popular in epidemiology, they provide excellent results when the popul...
AbstractThe main goal of this work is to propose a mathematical model, based on two-dimensional cell...
Currently, the world has been facing the brunt of a pandemic due to a disease called COVID-19 for th...
Abstract. The epidemic spreading of infectious disease is a process of evolution over time. Based on...
Addressing population heterogeneity and distribution in epidemics models using a cellular automata a...
In this work we show two different approaches to model virus spread in a large population of individ...
The epidemic spreading of infectious disease is a process of evolution over time. Based on the cellu...
International audienceThis work aims at developing a general methodology to determine the spatial ch...
We present a lattice gas cellular automaton (LGCA) to study spatial and temporal dynamics of an epid...