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Biological Information Technology Systems - BITS: Information Processing in Designed Neuronal Circuits

$1,155,999FY2002CSENSF

University Of Illinois At Urbana-Champaign, Urbana IL

Investigators

Abstract

EIA-0130828 -Bruce C. Wheeler-University of Illinois-BITS: Information processing in Designed Neuronal Circuits BITS: Information processing in Designed Neuronal Circuits The aim of this project is to enhance our understanding of information processing by small numbers of neurons arranged in designed circuits. This is an ideal time for this initiative because: We can intentionally design neuronal microcircuits due to progress in serum free media to support relatively pure neuronal populations, in microlithgraphy as applied to the deposition of proteins and other biomolecules to surfaces, and in understanding of the conditions under which sparse pattern populations of neurons become functionally active in culture. We can study the information processing capabilities of these neuronal circuits due to advances microelectrode array technology, permitting both stimulation and recording of electrical activity, as well as the supporting real-time data acquisition technology. We can analyze the data utilizing theories of neural coding derived as applications of rich theoretical foundations in signal processing and communications theory. We have three specific goals, creation of reliable, repeatable, robust neuronal circuits of cultured hippocampal neurons. Stable circuit behavior is essential to further investigation of information processing. The first aim emphasizes geometric properties, including guiding axonal extension, the second aim emphasizes functional properties, and the third aim is neuronal information processing. Models to be evaluated include rate codes, precise timing codes and phase synchronization codes.

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