Team:USP-Brazil/Model:Stochastic
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P(X (t+\delta t) = i | X(t) = j) =P(X (\delta t) = i | X(0) = j) | P(X (t+\delta t) = i | X(t) = j) =P(X (\delta t) = i | X(0) = j) | ||
\end{equation} | \end{equation} | ||
- | <p>So the probability does not depend of which states the system was in the time interval [0,t]</p> | + | <p>So the probability does not depend of which states the system was in the time interval [0,t], that is, the future state of the system only depends on its present state.</p> |
<p>A larger explanation of that is in Chapter 5 of [1].</p> | <p>A larger explanation of that is in Chapter 5 of [1].</p> |
Revision as of 01:36, 28 September 2013
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Stochastic model
Introduction
We want to simulate a cell where is happening all the chemical reactions discribed in the Deterministic Model as a Stochastical Process whose states are determinated by a collection of nine numbers:
\begin{equation} (et, met, X_f,X_{et}, X_{met}, P_f,P_{et}, P_{met}, R) \end{equation} \begin{equation} A \longrightarrow B$ \end{equation} \begin{equation} p(t) = \lambda e^{-\lambda t} \end{equation}These are the only kind of distribution in continuous time which do not have a "memory" that means:
\begin{equation} P(X (t+\delta t) = i | X(t) = j) =P(X (\delta t) = i | X(0) = j) \end{equation}So the probability does not depend of which states the system was in the time interval [0,t], that is, the future state of the system only depends on its present state.
A larger explanation of that is in Chapter 5 of [1].
\begin{equation} \end{equation} \begin{equation} \end{equation} \begin{equation} \end{equation} \begin{equation} \end{equation} \begin{equation} \end{equation} \begin{equation} \end{equation}References
[1] Sheldon M. Ross, Stochastic Process, Wiley, New York 1996
[2] Radek Erban, S. Jonathan Chapman, Philip K. Maini: A prac tical guide to stochastic simulations of reaction-diffusion processes , http://arxiv.org/abs/0704.1908
RFP Visibility | Deterministic Model | Stochastic Model
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