Team:USP-UNESP-Brazil/Associative Memory/Modeling

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{{:Team:USP-UNESP-Brazil/Templates/RImage | image=Phis100ab.jpg | caption=Fig. 4. When $\frac{\phi_A}{\alpha_A} \gg 1$ and $\frac{\phi_B}{\alpha_B} \gg 1$, there are four equilibria, close to $(0,0)$, $(1,1)$, $(1,0)$ and $(0,1)$.} | size=350px}}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=Phis100ab.jpg | caption=Fig. 4. When $\frac{\phi_A}{\alpha_A} \gg 1$ and $\frac{\phi_B}{\alpha_B} \gg 1$, there are four equilibria, close to $(0,0)$, $(1,1)$, $(1,0)$ and $(0,1)$.} | size=350px}}
   
   
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Finally, when both $\phi_A$ and $\phi_B$ are large when compared to $\alpha_A$ and $\alpha_B$, both populations A and B are able to  
Finally, when both $\phi_A$ and $\phi_B$ are large when compared to $\alpha_A$ and $\alpha_B$, both populations A and B are able to  
repress each other. In this case, the system can reach both equilibruim points $(1,0)$ and $(0,1)$ - repression  
repress each other. In this case, the system can reach both equilibruim points $(1,0)$ and $(0,1)$ - repression  
of one population and activation of the other, Fig. 4. This is the condition we should find experimentally in order to make our system works properly.  
of one population and activation of the other, Fig. 4. This is the condition we should find experimentally in order to make our system works properly.  
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Its desired that, without any stimulus, the system converges to the point (0,0) and stays at this point. However, with a suficient  stimulus the system should be able to converge
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Its desired that, without any stimulus, the system converges to the point (0,0) and stays at this point. However, with a suficient  stimulus the system should be able to converge to the point (0,1) or (1,0), depending on which population was stimulated.  
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to the point (0,1) or (1,0), depending on which population was stimulated.  
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Revision as of 01:43, 27 September 2012