Team:LCG-UNAM-Mexico/Modelling
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At the population scale we need to model spatial and temporal dynamics. Events like infection are stochastic and depend upon many variables. We incorporated the intracellular simulations in the population scale by sampling the distributions mentioned above. | At the population scale we need to model spatial and temporal dynamics. Events like infection are stochastic and depend upon many variables. We incorporated the intracellular simulations in the population scale by sampling the distributions mentioned above. | ||
- | By using a multi-scale model we simulated observed behaviour but we can also make predictions about the system as a whole. Previous attempts to model T7 life cycle were focused only in the intracellular scale | + | By using a multi-scale model we simulated observed behaviour but we can also make predictions about the system as a whole. Previous attempts to model T7 life cycle were focused only in the intracellular scale but failed to incorporate the population dynamics [[Team:LCG-UNAM-Mexico/Modelling#References | References]], population models REFERENCES didn’t take into account intracellular dynamics. |
- | Population models take burst-size as a constant value taken from literature, this is unrealistic since the reported values for the burst-size have a lot of variance | + | Population models take burst-size as a constant value taken from literature, this is unrealistic since the reported values for the burst-size have a lot of variance . |
Our model takes into account the random fluctuations in the system so we can simulate the experimental data and distributions. | Our model takes into account the random fluctuations in the system so we can simulate the experimental data and distributions. | ||
Revision as of 22:45, 20 October 2009