"Information carried by population spike times in the whisker sensory cortex can be decoded without knowledge of stimulus time "

Computational analyses have revealed that precisely timed spikes emitted by somatosensory cortical neuronal populations encode basic stimulus features in the rat's whisker sensory system. Efficient spike time based decoding schemes both for the spatial location of a stimulus and for the kinetic...

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Vydané v:Frontiers in synaptic neuroscience Ročník 2; s. 17
Hlavný autor: Panzeri, Stefano
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Switzerland Frontiers Research Foundation 2010
Frontiers Media S.A
Predmet:
Decoding
Information Theory
Neural coding
Neuroscience
population coding
Somatosensation
spike patterns
somatosensation
information theory
decoding
spike patterns
neural coding
population coding
ISSN:1663-3563, 1663-3563
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Shrnutí:Computational analyses have revealed that precisely timed spikes emitted by somatosensory cortical neuronal populations encode basic stimulus features in the rat's whisker sensory system. Efficient spike time based decoding schemes both for the spatial location of a stimulus and for the kinetic features of complex whisker movements have been defined. To date, these decoding schemes have been based upon spike times referenced to an external temporal frame - the time of the stimulus itself. Such schemes are limited by the requirement of precise knowledge of the stimulus time signal, and it is not clear whether stimulus times are known to rats making sensory judgments. Here, we first review studies of the information obtained from spike timing referenced to the stimulus time. Then we explore new methods for extracting spike train information independently of any external temporal reference frame. These proposed methods are based on the detection of stimulus-dependent differences in the firing time within a neuronal population. We apply them to a data set using single-whisker stimulation in anesthetized rats and find that stimulus site can be decoded based on the millisecond-range relative differences in spike times even without knowledge of stimulus time. If spike counts alone are measured over tens or hundreds of milliseconds rather than milliseconds, such decoders are much less effective. These results suggest that decoding schemes based on millisecond-precise spike times are likely to subserve robust and information-rich transmission of information in the somatosensory system.
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Reviewed by: Guglielmo Foffani, Hospital Nacional de Parapléjicos, Spain; Drexel University, USA; Miguel Maravall, Universidad Miguel Hernández, Spain; Demetris Soteropoulos, Newcastle University, UK
Edited by: Per Jesper Sjöström, University College London, UK
ISSN:1663-3563
1663-3563
DOI:10.3389/fnsyn.2010.00017