The development of hybrid methodologies is of current interest in both multi-scale modelling and stochastic reaction–diffusion systems regarding their applications to biology. We formulate a hybrid method for stochastic multi-scale models of cells populations that extends the remit of existing hybrid methods for reaction–diffusion systems. Such method is developed for a stochastic multi-scale model of tumour growth, i.e. population-dynamical models which account for the effects of intrinsic noise affecting both the number of cells and the intracellular dynamics. In order to formulate this method, we develop a coarse-grained approximation for both the full stochastic model and its mean-field limit. Such approximation involves averaging out t...
Stochastic processes and randomness are vital features of mathematical modeling in biology.Unfortuna...
Nucleation and growth processes arise in a variety of natural and technological applications, such a...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
The development of hybrid methodologies is of current interest in both multi-scale modelling and sto...
In this paper we present a new methodology that allows us to formulate and analyse stochas...
In this paper we present a new methodology that allows us to formulate and analyse stochastic multis...
In this paper we present a new methodology that allows us to formulate and analysestochastic multisc...
Modelling and simulation are essential to modern research in cell biology. This thesis follows a jou...
Cell signaling dynamics mediate myriad processes in biology. It has become increasingly clear that i...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
A major source of complexity in the mathematical modelling of an angiogenic process derives from the...
Abstract Background The fundamental role that intrinsic stochasticity plays in cellular functions ha...
The subject of this work is the development and implementation of algorithms which accelerate the si...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
Spatial reaction-diffusion models have been employed to describe many emergent phenomena in biologic...
Stochastic processes and randomness are vital features of mathematical modeling in biology.Unfortuna...
Nucleation and growth processes arise in a variety of natural and technological applications, such a...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...
The development of hybrid methodologies is of current interest in both multi-scale modelling and sto...
In this paper we present a new methodology that allows us to formulate and analyse stochas...
In this paper we present a new methodology that allows us to formulate and analyse stochastic multis...
In this paper we present a new methodology that allows us to formulate and analysestochastic multisc...
Modelling and simulation are essential to modern research in cell biology. This thesis follows a jou...
Cell signaling dynamics mediate myriad processes in biology. It has become increasingly clear that i...
We propose a modelling framework to analyse the stochastic behaviour of heterogeneous, multi-scale c...
A major source of complexity in the mathematical modelling of an angiogenic process derives from the...
Abstract Background The fundamental role that intrinsic stochasticity plays in cellular functions ha...
The subject of this work is the development and implementation of algorithms which accelerate the si...
Stochasticity (that is, randomness) is an inherent property of many biological systems. For example,...
Spatial reaction-diffusion models have been employed to describe many emergent phenomena in biologic...
Stochastic processes and randomness are vital features of mathematical modeling in biology.Unfortuna...
Nucleation and growth processes arise in a variety of natural and technological applications, such a...
Multiscale phenomena play an important role in our current society. In biological contexts, we can m...