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Curr Opin Neurobiol. 2011 Oct;21(5):752-60. doi: 10.1016/j.conb.2011.05.016. Epub 2011 Jun 16.

Efficient computation via sparse coding in electrosensory neural networks.

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Department of Physiology, McGill University, Canada.


The electric sense combines spatial aspects of vision and touch with temporal features of audition. Its accessible neural architecture shares similarities with mammalian sensory systems and allows for recordings from successive brain areas to test hypotheses about neural coding. Further, electrosensory stimuli encountered during prey capture, navigation, and communication, can be readily synthesized in the laboratory. These features enable analyses of the neural circuitry that reveal general principles of encoding and decoding, such as segregation of information into separate streams and neural response sparsification. A systems level understanding arises via linkage between cellular differentiation and network architecture, revealed by in vitro and in vivo analyses, while computational modeling reveals how single cell dynamics and connectivity shape the sparsification process.

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