Time structure and stimulus dependence of precisely replicating patterns present in monkey cortical neuronal spike trains

Evidence is presented on the parameters that affect the occurrence of precisely replicating patterns of neural discharge present as ‘hidden’ patterns in individual neuronal discharge trains of the visual cortical cells of the rhesus monkey in response to precisely controlled stimuli described in our...

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Veröffentlicht in:	Brain research 1987-12, Vol.437 (2), p.214-238
Hauptverfasser:	Lestienne, Remy, Strehler, Bernard L.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Biological and medical sciences Brain Central nervous system Coding Electrophysiology Evoked Potentials, Visual Fundamental and applied biological sciences. Psychology Macaca mulatta Models, Neurological Neurons - physiology Probability Redundancy Retina - physiology Spike Statistical analysis Synapses - physiology Time Factors Triplet Vertebrates: nervous system and sense organs Visual Cortex - physiology
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creator	Lestienne, Remy Strehler, Bernard L.
description	Evidence is presented on the parameters that affect the occurrence of precisely replicating patterns of neural discharge present as ‘hidden’ patterns in individual neuronal discharge trains of the visual cortical cells of the rhesus monkey in response to precisely controlled stimuli described in our previous publication. Using the All-Interval analytical paradigm we demonstrate: (1) that precisely replicating patterns are present in numbers that cannot be generated through continuous, smoothly varying probability distributions of interspike intervals; (2) that the records contain very large numbers of precisely replicating patterns—doublets, triplets, quadruplets, quintuplets and hextuplets of pulses; (3) that triplet-antitriplet pairs and symmetrical quadruplets are also present in improbable numbers; (4) that different stimuli generate different triplets; (5) and that the first order decay constant of capacity to generate specific precise patterns is a direct function of the number of events making up the patterns and thus that a temporary memory of the occurrence of a pattern exists following the presentation of a stimulus. It is concluded that such patterns of pulses are almost certainly coded symbols related to visual information; that such symbols are sufficiently precise in their replication to permit them to be decoded through spatial summation mechanisms and finally that the ability to generate and the capacity to store such symbols are probably present in the brain as related and coordinated complexes of specific facilities synapses.Some properties of a proposed model for the production and decoding of such patterns are presented and discussed as are specific mechanisms through which neural networks may implement such functions. Finally, existing and further experimental tests of the mechanisms proposed are outlined.
doi_str_mv	10.1016/0006-8993(87)91638-6
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Using the All-Interval analytical paradigm we demonstrate: (1) that precisely replicating patterns are present in numbers that cannot be generated through continuous, smoothly varying probability distributions of interspike intervals; (2) that the records contain very large numbers of precisely replicating patterns—doublets, triplets, quadruplets, quintuplets and hextuplets of pulses; (3) that triplet-antitriplet pairs and symmetrical quadruplets are also present in improbable numbers; (4) that different stimuli generate different triplets; (5) and that the first order decay constant of capacity to generate specific precise patterns is a direct function of the number of events making up the patterns and thus that a temporary memory of the occurrence of a pattern exists following the presentation of a stimulus. It is concluded that such patterns of pulses are almost certainly coded symbols related to visual information; that such symbols are sufficiently precise in their replication to permit them to be decoded through spatial summation mechanisms and finally that the ability to generate and the capacity to store such symbols are probably present in the brain as related and coordinated complexes of specific facilities synapses.Some properties of a proposed model for the production and decoding of such patterns are presented and discussed as are specific mechanisms through which neural networks may implement such functions. 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Using the All-Interval analytical paradigm we demonstrate: (1) that precisely replicating patterns are present in numbers that cannot be generated through continuous, smoothly varying probability distributions of interspike intervals; (2) that the records contain very large numbers of precisely replicating patterns—doublets, triplets, quadruplets, quintuplets and hextuplets of pulses; (3) that triplet-antitriplet pairs and symmetrical quadruplets are also present in improbable numbers; (4) that different stimuli generate different triplets; (5) and that the first order decay constant of capacity to generate specific precise patterns is a direct function of the number of events making up the patterns and thus that a temporary memory of the occurrence of a pattern exists following the presentation of a stimulus. It is concluded that such patterns of pulses are almost certainly coded symbols related to visual information; that such symbols are sufficiently precise in their replication to permit them to be decoded through spatial summation mechanisms and finally that the ability to generate and the capacity to store such symbols are probably present in the brain as related and coordinated complexes of specific facilities synapses.Some properties of a proposed model for the production and decoding of such patterns are presented and discussed as are specific mechanisms through which neural networks may implement such functions. 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subjects	Animals Biological and medical sciences Brain Central nervous system Coding Electrophysiology Evoked Potentials, Visual Fundamental and applied biological sciences. Psychology Macaca mulatta Models, Neurological Neurons - physiology Probability Redundancy Retina - physiology Spike Statistical analysis Synapses - physiology Time Factors Triplet Vertebrates: nervous system and sense organs Visual Cortex - physiology
title	Time structure and stimulus dependence of precisely replicating patterns present in monkey cortical neuronal spike trains
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