It is well understood that populations cannot grow without bound and that it is competition between individuals for resources which restricts growth. Despite centuries of interest, the question of how best to model density dependent population growth still has no definitive answer. We address this question here through a number of individual based models of populations expressed using the process algebra WSCCS. The advantage of these models is that they can be explicitly based on observations of individual interactions. From our probabilistic models we derive equations expressing overall population dynamics, using a formal and rigorous rewriting based method. These equations are easily compared with the traditionally used deterministic Ordi...
Abstract. In this chapter we introduce process algebras, a class of for-mal modelling techniques dev...
This book provides an introduction to age-structured population modeling which emphasises the connec...
Individual-based models (IBMs) of human populations capture spatio-temporal dynamics using rules tha...
It is well understood that populations cannot grow without bound and that it is competition between ...
Is it possible to symbolically express and analyse an individual-based model of disease spread, incl...
Is it possible to symbolically express and analyse an individual-based model of disease spread, incl...
The problem of changing scale in models of a system is relevant in many different fields. In this th...
Changing scale, for example, the ability to move seamlessly from an individual-based model to a popu...
A new semantics in terms of Mean Field Equations is presented for WSCCS (Weighted Synchronous Calcul...
Changing scale, for example the ability to move seamlessly from an individual-based model to a popul...
AbstractA new semantics in terms of mean field equations is presented for WSCCS (Weighted Synchronou...
In many domain areas the behaviour of a system can be described at two levels: the behaviour of indi...
AbstractWe present two individual based models of disease systems using PEPA (Performance Evaluation...
Stochastic process algebras such as PEPA have enjoyed considerable success as CTMC-based system desc...
The growth and decline of population in nature and the struggle of species to predominate over one a...
Abstract. In this chapter we introduce process algebras, a class of for-mal modelling techniques dev...
This book provides an introduction to age-structured population modeling which emphasises the connec...
Individual-based models (IBMs) of human populations capture spatio-temporal dynamics using rules tha...
It is well understood that populations cannot grow without bound and that it is competition between ...
Is it possible to symbolically express and analyse an individual-based model of disease spread, incl...
Is it possible to symbolically express and analyse an individual-based model of disease spread, incl...
The problem of changing scale in models of a system is relevant in many different fields. In this th...
Changing scale, for example, the ability to move seamlessly from an individual-based model to a popu...
A new semantics in terms of Mean Field Equations is presented for WSCCS (Weighted Synchronous Calcul...
Changing scale, for example the ability to move seamlessly from an individual-based model to a popul...
AbstractA new semantics in terms of mean field equations is presented for WSCCS (Weighted Synchronou...
In many domain areas the behaviour of a system can be described at two levels: the behaviour of indi...
AbstractWe present two individual based models of disease systems using PEPA (Performance Evaluation...
Stochastic process algebras such as PEPA have enjoyed considerable success as CTMC-based system desc...
The growth and decline of population in nature and the struggle of species to predominate over one a...
Abstract. In this chapter we introduce process algebras, a class of for-mal modelling techniques dev...
This book provides an introduction to age-structured population modeling which emphasises the connec...
Individual-based models (IBMs) of human populations capture spatio-temporal dynamics using rules tha...