Stochastic modelling is critical for studying many biochemical processes in a cell, in particular when some reacting species have low population numbers. For many such cellular processes the spatial distribution of the molecular species plays a key role. The evolution of spatially heterogeneous biochemical systems with some species in low amounts is accurately described by the mesoscopic model of the Reaction-Diffusion Master Equation. The Inhomogeneous Stochastic Simulation Algorithm provides an exact strategy to numerically solve this model, but it is computationally very expensive on realistic applications. We propose a novel adaptive time-stepping scheme for the tau-leaping method for approximating the solution of the Reaction-Diffusion...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
There is an increasing awareness of the pivotal role of noise in biochemical processes and of the ef...
We aim to construct higher order tau-leaping methods for numerically simulating stochastic chemical ...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
Abstract. Well stirred chemical reaction systems which involve small numbers of mole-cules for some ...
We present an effective procedure for selecting the stepsize in the binomial $\tau$-leap method, whi...
The use of the relatively new tau-leap algorithm to model the kinematics of regulatory systems and o...
Abstract reaction event that occurs in the system, the accuracy of the method comes at a high comput...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
Copyright © 2014 Daniele D’Agostino et al. This is an open access article distributed under the Crea...
Biochemical reactions can happen on different time scales and also the abun-dance of species in thes...
In cell biology, cell signaling pathway problems are often tackled with deterministic temporal model...
Biologists are increasingly conscious of the critical role that noise plays in cellular functions su...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
There is an increasing awareness of the pivotal role of noise in biochemical processes and of the ef...
We aim to construct higher order tau-leaping methods for numerically simulating stochastic chemical ...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
Abstract. Well stirred chemical reaction systems which involve small numbers of mole-cules for some ...
We present an effective procedure for selecting the stepsize in the binomial $\tau$-leap method, whi...
The use of the relatively new tau-leap algorithm to model the kinematics of regulatory systems and o...
Abstract reaction event that occurs in the system, the accuracy of the method comes at a high comput...
With the observation that stochasticity is important in biological systems, chemical kinetics have b...
Biochemical processes in living cells are comprised of reactions with vastly varying speeds and mole...
Copyright © 2014 Daniele D’Agostino et al. This is an open access article distributed under the Crea...
Biochemical reactions can happen on different time scales and also the abun-dance of species in thes...
In cell biology, cell signaling pathway problems are often tackled with deterministic temporal model...
Biologists are increasingly conscious of the critical role that noise plays in cellular functions su...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
There is an increasing awareness of the pivotal role of noise in biochemical processes and of the ef...
We aim to construct higher order tau-leaping methods for numerically simulating stochastic chemical ...