Hypnosis modelling in neural networks
Identifieur interne : 000965 ( Main/Exploration ); précédent : 000964; suivant : 000966Hypnosis modelling in neural networks
Auteurs : I. A. Kuzin [Russie]Source :
- Bulletin of Mathematical Biology [ 0092-8240 ] ; 1995-01-01.
English descriptors
- Teeft :
- Alpha production, Alpha rhythm, Amari, Associative, Associative memory, Associative paradigm, Blind spots, Clin, Correction commands, Dual pairs, Edmonston, Excitation, Excitatory, Excitatory channel, Excitatory signal, External stimuli, External stimulus, Field equations, Field models, Field theory, First level, First stage, First stages, Freud school, General features, Hand position, Hilgard, Holographic, Holographic memory, Human beings, Human information processing, Human physiology, Hypnosis, Hypnosis modelling, Hypnotic, Hypnotic induction, Hypnotic phenomena, Hypnotic signal, Hypnotic state, Hypnotic susceptibility, Hypnotizing signal, Image space, Imaginative involvement, Inhibitory, Inhibitory channel, Inhibitory channels, Inhibitory signal, Input signal, Kohonen, Kuzin, Linday, Mathematical approach, Mathematical biology, Matrix, Memorizing, Memory change, Memory hypnosis, Modelling, Necessary condition, Nerve cells, Nervous activity, Nervous system, Network activity, Neural, Neural nets, Neural network, Neural networks, Neural systems, Neuron, Neuronal, Neuronal network, Neuronal networks, Normal signal, Novelty filter, Other signals, Other words, Output signal, Plenum press, Primary hypnosis, Processing time, Rapport zone, Reference beam, Reference signal, Refractory, Refractory state, Second level, Spike basis, Stationary state, Statistical neurodynamics, Susceptibility, Synaptic, Synaptic memory, Transfer function, Tremor state.
Abstract
Abstract: In the framework of the neural network theory effects similar to hypnotic displays are constructed. They are based on the associative paradigm involving non-linear interaction of excitatory and inhibitory channels with synaptic memory. The non-linearity of long-term memorizing processes may cause effects exhibited by blind spots, which are interpreted as the first stage of hypnosis. More complicated phenomena are discussed in terms of a two-layer network.
Url:
- https://api.istex.fr/document/1F8DAA0C32A004B5EF55AA32A0F7FC3A84564FFA/fulltext/pdf
- https://api.istex.fr/document/E08FD1920645D955C1D5A328469BAB7D981E333C/fulltext/pdf
DOI: 10.1007/BF02458314
Affiliations:
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Le document en format XML
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<term>Spike basis</term>
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<term>Statistical neurodynamics</term>
<term>Susceptibility</term>
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<front><div type="abstract" xml:lang="en">Abstract: In the framework of the neural network theory effects similar to hypnotic displays are constructed. They are based on the associative paradigm involving non-linear interaction of excitatory and inhibitory channels with synaptic memory. The non-linearity of long-term memorizing processes may cause effects exhibited by blind spots, which are interpreted as the first stage of hypnosis. More complicated phenomena are discussed in terms of a two-layer network.</div>
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