We show how to extend a recently proposed multi-level Monte Carlo approach to the continuous time Markov chain setting, thereby greatly lowering the computational complexity needed to compute expected values of functions of the state of the system to a specified accuracy. The extension is non-trivial, exploiting a coupling of the requisite processes that is easy to simulate while providing a small variance for the estimator. Further, and in a stark departure from other implementations of multi-level Monte Carlo, we show how to produce an unbiased estimator that is significantly less computationally expensive than the usual unbiased estimator arising from exact algorithms in conjunction with crude Monte Carlo. We thereby dramatically improve...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic methods for simulating biochemical reaction networks often provide a more realistic descr...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
We analyze and compare the computational complexity of different simulation strategies for Monte Car...
Biochemical reaction networks are often modelled using discrete-state, continuous-time Markov chains...
Discrete-state, continuous-time Markov models are becoming commonplace in the modelling of biochemic...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic models of biochemical reaction networks are often more realistic descriptions of cellular...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic models of biochemical reaction networks are often more realistic descriptions of cellular...
In this work, we consider the problem of estimating summary statistics to characterise biochemical r...
The multi-level method for discrete-state systems, first introduced by Anderson and Higham (SIAM Mul...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
Two multiscale algorithms for stochastic simulations of reaction–diffusion processes are analysed. T...
There are two fundamental ways to view coupled systems of chemical equations: as continuous, repres...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic methods for simulating biochemical reaction networks often provide a more realistic descr...
The molecular networks regulating basic physiological processes in a cell are generally converted in...
We analyze and compare the computational complexity of different simulation strategies for Monte Car...
Biochemical reaction networks are often modelled using discrete-state, continuous-time Markov chains...
Discrete-state, continuous-time Markov models are becoming commonplace in the modelling of biochemic...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic models of biochemical reaction networks are often more realistic descriptions of cellular...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic models of biochemical reaction networks are often more realistic descriptions of cellular...
In this work, we consider the problem of estimating summary statistics to characterise biochemical r...
The multi-level method for discrete-state systems, first introduced by Anderson and Higham (SIAM Mul...
Stochastic models are widely used in the simulation of biochemical systems at a cellular level. For ...
Two multiscale algorithms for stochastic simulations of reaction–diffusion processes are analysed. T...
There are two fundamental ways to view coupled systems of chemical equations: as continuous, repres...
Tau-leaping is a popular discretization method for generating approximate paths of continuous time, ...
Stochastic methods for simulating biochemical reaction networks often provide a more realistic descr...
The molecular networks regulating basic physiological processes in a cell are generally converted in...