Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov… - Royal Society Open …, 2022 - royalsocietypublishing.org
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
[PDF][PDF] Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov, PG Kevrekidis - 2022 - academia.edu
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov… - Royal Society open …, 2022 - pubmed.ncbi.nlm.nih.gov
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov… - Royal Society Open …, 2022 - scholarworks.umass.edu
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
[HTML][HTML] Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov… - Royal Society Open …, 2022 - ncbi.nlm.nih.gov
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov… - Royal Society Open …, 2022 - ui.adsabs.harvard.edu
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models.
A Vaziry, T Kolokolnikov, PG Kevrekidis - 2022 - cabidigitallibrary.org
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models.
A Vaziry, T Kolokolnikov… - Royal Society Open …, 2022 - europepmc.org
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
[PDF][PDF] Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov, PG Kevrekidis - 2022 - mathstat.dal.ca
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …
[PDF][PDF] Modelling of spatial infection spread through heterogeneous population: from lattice to partial differential equation models
A Vaziry, T Kolokolnikov, PG Kevrekidis - 2022 - mathstat.dal.ca
We present a simple model for the spread of an infection that incorporates spatial variability
in population density. Starting from first-principle considerations, we explore how a novel …
in population density. Starting from first-principle considerations, we explore how a novel …