Tokyo/Formulation/5.stochastic differential equation model with poisson random variables
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<br>Fig.5.2 indicates that in the steady state the cells at A state and that at B state | <br>Fig.5.2 indicates that in the steady state the cells at A state and that at B state | ||
Fig.5.2は,AとBに分かれて安定している. | Fig.5.2は,AとBに分かれて安定している. | ||
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+ | [[Image:phase plane and simulation-1.JPG|150px|none|thumb|Figure 5.4.1]] | ||
+ | [[Image:phase plane and simulation-2.7.JPG|150px|none|thumb|Figure 5.4.2]] | ||
+ | [[Image:phase plane and simulation-4.JPG|150px|none|thumb|Figure 5.4.3]] |
Revision as of 10:22, 24 October 2007
we introduced the terms of Ex 4-1 into a stochastic process to simulate the sthochastic behavior.we used Poisson random variables as a sthochastic process. Threfore,a stochastic differential equations were given as
The values of parameters in the right table were used and the results of simulation were shown in Fig 5.1-3.
where α2 = 1(μM) in Fig 5.1,α2 = 2.7(μM) in Fig 5.2,α2 = 4(μM) in Fig 5.3. and it has been estimated that 1(μM) = 1000 molecules (count).
Fig.5.1 indicates that all cells shift to A state in the steady state and Fig 5.3 indicates that all cells shift to B state in the steady state.These results doesn't represent coexistence stable.
Fig.5.2 indicates that in the steady state the cells at A state and that at B state
Fig.5.2は,AとBに分かれて安定している.