This paper investigates the asymptotic behaviour of solutions to certain infinite systems of coupled recurrence relations. In particular, we obtain a characterisation of those initial values which lead to a convergent solution, and for initial values satisfying a slightly stronger condition we obtain an optimal estimate on the rate of convergence. By establishing a connection with a related problem in continuous time, we are able to use this optimal estimate to improve the rate of convergence in the continuous setting obtained by the authors in a previous paper. We illustrate the power of the general approach by using it to study several concrete examples, both in continuous and in discrete time.Peer reviewe
International audienceWe study the asymptotic behavior, as time variable t goes to infinity, of nona...
In this thesis we study the asymptotic behaviour of the solution of a discrete time renewal equation...
We develop operator renewal theory for flows and apply this to obtain results on mixing and rates of...
This paper investigates the asymptotic behaviour of solutions to certain infinite systems of coupled...
We study the asymptotic behavior of solutions of model problems for a coupled system. By consistent ...
AbstractWe study the asymptotic behavior of solutions of model problems for a coupled system. By con...
AbstractIn this paper, we deal with linear and nonlinear perturbations of first-order recurrence sys...
This paper investigates the asymptotic behavior of solutions to certain infinite systems of ordinary...
Considering iterative sequences that arise when the approximate solution x k to a numerical problem ...
Several formal asymptotic expansions for a pair of coupled reaction-diffusion equations, constructed...
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We investigate the behavior at infinity of a special dissipative system, which consists of two steep...
In this paper we extend the notion of convergence, as defined for continuous-time dynamical systems,...
Considering iterative sequences that arise when the approximate solution to a numerical problem is u...
International audienceWe study the asymptotic behavior, as time variable t goes to infinity, of nona...
In this thesis we study the asymptotic behaviour of the solution of a discrete time renewal equation...
We develop operator renewal theory for flows and apply this to obtain results on mixing and rates of...
This paper investigates the asymptotic behaviour of solutions to certain infinite systems of coupled...
We study the asymptotic behavior of solutions of model problems for a coupled system. By consistent ...
AbstractWe study the asymptotic behavior of solutions of model problems for a coupled system. By con...
AbstractIn this paper, we deal with linear and nonlinear perturbations of first-order recurrence sys...
This paper investigates the asymptotic behavior of solutions to certain infinite systems of ordinary...
Considering iterative sequences that arise when the approximate solution x k to a numerical problem ...
Several formal asymptotic expansions for a pair of coupled reaction-diffusion equations, constructed...
AbstractWe derive asymptotic approximations for the sequence f(n) defined recursively by f(n)=min1⩽j...
We develop a theory of operator renewal sequences in the context of infinite ergodic theory. For lar...
We investigate the behavior at infinity of a special dissipative system, which consists of two steep...
In this paper we extend the notion of convergence, as defined for continuous-time dynamical systems,...
Considering iterative sequences that arise when the approximate solution to a numerical problem is u...
International audienceWe study the asymptotic behavior, as time variable t goes to infinity, of nona...
In this thesis we study the asymptotic behaviour of the solution of a discrete time renewal equation...
We develop operator renewal theory for flows and apply this to obtain results on mixing and rates of...