A piecewise-linear adaptive exponential integrate-and-fire neuron model with emerging traveling waves using analytical scheme
Nonlinear Dynamics,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 22, 2025
Язык: Английский
A geometric analysis of the impact of large but finite switching rates on vaccination evolutionary games
Nonlinear Analysis Real World Applications,
Год журнала:
2023,
Номер
75, С. 103986 - 103986
Опубликована: Авг. 17, 2023
In
contemporary
society,
social
networks
accelerate
decision
dynamics
causing
a
rapid
switch
of
opinions
in
number
fields,
including
the
prevention
infectious
diseases
by
means
vaccines.
This
that
opinion
can
nowadays
be
much
faster
than
spread
epidemics.
Hence,
we
propose
Susceptible–Infectious–Removed
epidemic
model
coupled
with
an
evolutionary
vaccination
game
embedding
public
health
system
efforts
to
increase
vaccine
uptake.
results
global
"epidemic
+
game".
The
epidemiological
novelty
this
work
is
assume
switching
strategy
"pro
vaccine"
depends
on
incidence
disease.
As
consequence
above-mentioned
accelerated
decisions,
acts
two
different
scales:
fast
scale
for
decisions
and
slower
Another,
more
methodological,
element
apply
Geometrical
Singular
Perturbation
Theory
(GSPT)
such
two-scale
then
compare
geometric
analysis
Quasi-Steady-State
Approximation
(QSSA)
approach,
showing
criticality
latter.
Later,
GSPT
approach
disease
prevalence-based
already
studied
(Della
Marca
d'Onofrio,
Comm
Nonl
Sci
Num
Sim,
2021)
via
QSSA
considering
medium–large
values
parameter.
Язык: Английский
A geometric analysis of the impact of large but finite switching rates on vaccination evolutionary games
arXiv (Cornell University),
Год журнала:
2023,
Номер
unknown
Опубликована: Янв. 1, 2023
In
contemporary
society,
social
networks
accelerate
decision
dynamics
causing
a
rapid
switch
of
opinions
in
number
fields,
including
the
prevention
infectious
diseases
by
means
vaccines.
This
that
opinion
can
nowadays
be
much
faster
than
spread
epidemics.
Hence,
we
propose
Susceptible-Infectious-Removed
epidemic
model
coupled
with
an
evolutionary
vaccination
game
embedding
public
health
system
efforts
to
increase
vaccine
uptake.
results
global
``epidemic
+
game''.
The
epidemiological
novelty
this
work
is
assume
switching
strategy
``pro
vaccine''
depends
on
incidence
disease.
As
consequence
above-mentioned
accelerated
decisions,
acts
two
different
scales:
fast
scale
for
decisions
and
slower
Another,
more
methodological,
element
apply
Geometrical
Singular
Perturbation
Theory
(GSPT)
such
two-scale
then
compare
geometric
analysis
Quasi-Steady-State
Approximation
(QSSA)
approach,
showing
criticality
latter.
Later,
GSPT
approach
disease
prevalence-based
already
studied
(Della
Marca
d'Onofrio,
Comm
Nonl
Sci
Num
Sim,
2021)
via
QSSA
considering
medium-large
values
parameter.
Язык: Английский