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

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(Hopfield Associative Memory Networks)
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===Biological Mechanism===
===Biological Mechanism===
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In a biological neural network, the cells occupy a specific location and the information is addressed through a direct physical contact - the neuron axonal projections. In our case, a population of bacteria represents a single neuron and the information is addressed by a quorum sensing molecule (QSM). With different QSM, it is possible to address the information in a specific manner.
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In a biological neural network, the cells occupy a specific location and the information is addressed through a direct physical contact - the neuron axonal projections. In our case, a population of bacteria represents a single neuron and the information is addressed by a quorum sensing molecule (QSM). With different QSM, it is possible to address the information in a specific manner. A comparison between a biological neural network and our design is presented in Fig 1.  
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A comparison between a biological neural network and our design is presented in Fig 1.  
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To replicate this in a cell system that moves constantly it would be also necessary some way to specifically address the information flow between the system’s components, otherwise it would not be possible to attach a meaning to a communication without specificity. Furthermore, is possible to verify the neuronal activity because of the fixed spatial position of the cells, which conserves the signal observation of a neuron in a specific local.
To replicate this in a cell system that moves constantly it would be also necessary some way to specifically address the information flow between the system’s components, otherwise it would not be possible to attach a meaning to a communication without specificity. Furthermore, is possible to verify the neuronal activity because of the fixed spatial position of the cells, which conserves the signal observation of a neuron in a specific local.

Revision as of 12:59, 26 September 2012