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Analysis methodology of synchrony in simultaneously recorded single unit activity in the visual cortex

dc.creatorBernard, Melanie Rebecca
dc.description.abstract      Our brains process and interpret sensory information in order to generate perceptions of the environment or motivate behavior. However, the underlying mechanisms by which salient stimulus qualities are represented by neuronal response patterns remain a mystery. Precise coordination of spike events, or synchrony, is an attractive candidate to play a role in (visual) coding since it exists among (visual) cortical neurons, but its functional significance is largely unknown. Proving synchrony's importance in signaling is difficult since adequate methods to measure synchrony have not been developed. Current approaches quantify synchrony as a relationship between two neurons. However, synchrony allows for the formation of transient functional groups which could include tens, hundreds, thousands, or even larger numbers of neurons. Furthermore, very few studies have investigated how to measure the quality of synchrony in an assembly as well as develop some means to display these quantities. <br>      The work presented here derives a measure for synchrony within assemblies of arbitrary size by modeling the biological process of postsynaptic potential integration. We derive measures for the magnitude and quality of synchrony as well as show how our results are consistent with the Joint Peri-Stimulus Time Histogram approach for assemblies of two neurons. We also evaluate synchrony's role as a possible neural substrate for contour integration by investigating dynamic grouping and characteristics of group membership. Finally, we propose future investigation of synchrony as a biological sparse code employed by the visual cortex to represent high-order stimulus features in natural scenes.
dc.subjectImage processing
dc.subjectVisual cortex
dc.subjectneural coding
dc.subjecttemporal coordination
dc.subjectnatural images
dc.subjectneural assembly
dc.subjectVisual perception
dc.titleAnalysis methodology of synchrony in simultaneously recorded single unit activity in the visual cortex
dc.contributor.committeeMemberRichard Shiavi
dc.type.materialtext Engineering University
dc.contributor.committeeChairA. B. Bonds, III

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