Add to ORKGWe analyse the long term behaviour of the measure-valued solutions of a class of linear renewal equations modelling physiologically structured populations. The renewal equations that we consider are characterised by a regularisation property of the kernel. This regularisation property allows to deduce the large time behaviour of the measure-valued solutions from the asymptotic behaviour of their absolutely continuous, with respect to the Lebesgue measure, component. We apply the results to a model of cell growth and fission and to a model of waning and boosting of immunity. For both models we relate the renewal equation (RE) to the partial differential equation (PDE) formulation and draw conclusions about the asymptotic behaviour of the sol...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
We present here a population structured model to describe the dynamics of macrophage cells. The mode...
We present here a population structured model to describe the dynamics of macrophage cells. The mode...
We present a unified framework ensuring well posedness and providing stability estimates to a class ...
We review the state-of-the-art concerning a mathematical framework for general physiologically struc...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Despite their relevance in mathematical biology, there are, as yet, few general results about the as...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
We present here a population structured model to describe the dynamics of macrophage cells. The mode...
We present here a population structured model to describe the dynamics of macrophage cells. The mode...
We present a unified framework ensuring well posedness and providing stability estimates to a class ...
We review the state-of-the-art concerning a mathematical framework for general physiologically struc...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...
Considering the environmental condition as a given function of time, we formulate a physiologically ...