The problem of interest is a discrete reaction-diffusion equation motivated by models
in population biology. We consider
where
,
is an
matrix such
that
is
monotone,
and
are smooth
functions, and
is a positive real constant. Of particular interest is the case where
is the discrete
Laplacian and
is the vector-valued logistic function. The function
will encode boundary conditions. Our primary goal is to establish the
existence of nonnegative solutions for several interesting choices of
. For each
choice we use monotonicity methods to find nonnegative solutions for appropriate ranges
of
.
PDF Access Denied
We have not been able to recognize your IP address
35.173.48.18
as that of a subscriber to this journal.
Online access to the content of recent issues is by
subscription, or purchase of single articles.
Please contact your institution's librarian suggesting a subscription, for example by using our
journal-recommendation form.
Or, visit our
subscription page
for instructions on purchasing a subscription.
Or, you may purchase this single article for
USD 30.00:
Keywords
discrete nonlinear boundary value problem,
reaction-diffusion equation, population model, sub- and
supersolutions, density-dependent boundary conditions