For many biological applications, a macroscopic (deterministic) treatment of reaction-drift-diffusion systems is insufficient. Instead, one has to properly handle the stochastic nature of the problem and generate true sample paths of the underlying probability distribution. Unfortunately, stochastic algorithms are computationally expensive and, in most cases, the large number of participating particles renders the relevant parameter regimes inaccessible. In an attempt to address this problem we present a genuine stochastic, multi-dimensional algorithm that solves the inhomogeneous, non-linear, drift-diffusion problem on a mesoscopic level. Our method improves on existing implementations in being multi-dimensional and handling inhomogeneous ...
Stochastic simulations of reaction-diffusion processes are used extensively for the modeling of comp...
In recent years, there has been increased awareness that stochasticity in chemical reactions and dif...
To address the problem of performing long time simula-tions of biochemical pathways under in vivo ce...
The small number of some reactant molecules in biological systems formed by living cells can result ...
The reaction-diffusion master equation (RDME) is a model that allows for efficient on-lattice simula...
Parallelization is vital in the future of spatial stochastic simulation and an important component o...
The reaction-diffusion master equation (RDME) is a model that allows for efficient on-lattice simula...
Stochastic, spatial reaction-diffusion simulations have been widely used in systems biology and comp...
Spatial stochastic reaction-diffusion simulations have become an important component of molecular mo...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
We have developed a new algorithm which merges discrete stochastic simulation, using the spatial sto...
In this paper, an algorithm is presented to calculate the transition rates between adjacent mesoscop...
We present a method for mesoscopic, dynamic Monte Carlo simulations of pattern formation in excitabl...
Quantitative descriptions of reaction kinetics formulated at the stochastic mesoscopic level are fre...
There is an increasing awareness of the pivotal role of noise in biochemical processes and of the ef...
Stochastic simulations of reaction-diffusion processes are used extensively for the modeling of comp...
In recent years, there has been increased awareness that stochasticity in chemical reactions and dif...
To address the problem of performing long time simula-tions of biochemical pathways under in vivo ce...
The small number of some reactant molecules in biological systems formed by living cells can result ...
The reaction-diffusion master equation (RDME) is a model that allows for efficient on-lattice simula...
Parallelization is vital in the future of spatial stochastic simulation and an important component o...
The reaction-diffusion master equation (RDME) is a model that allows for efficient on-lattice simula...
Stochastic, spatial reaction-diffusion simulations have been widely used in systems biology and comp...
Spatial stochastic reaction-diffusion simulations have become an important component of molecular mo...
Spatial distributions characterize the evolution of reaction-diffusion models of several physical, c...
We have developed a new algorithm which merges discrete stochastic simulation, using the spatial sto...
In this paper, an algorithm is presented to calculate the transition rates between adjacent mesoscop...
We present a method for mesoscopic, dynamic Monte Carlo simulations of pattern formation in excitabl...
Quantitative descriptions of reaction kinetics formulated at the stochastic mesoscopic level are fre...
There is an increasing awareness of the pivotal role of noise in biochemical processes and of the ef...
Stochastic simulations of reaction-diffusion processes are used extensively for the modeling of comp...
In recent years, there has been increased awareness that stochasticity in chemical reactions and dif...
To address the problem of performing long time simula-tions of biochemical pathways under in vivo ce...