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Information Theory in Neuroscience



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Autore: Piasini Eugenio Visualizza persona
Titolo: Information Theory in Neuroscience Visualizza cluster
Pubblicazione: MDPI - Multidisciplinary Digital Publishing Institute, 2019
Descrizione fisica: 1 electronic resource (280 p.)
Soggetto non controllato: synergy
Gibbs measures
categorical perception
entorhinal cortex
neural network
perceived similarity
graph theoretical analysis
orderness
navigation
network eigen-entropy
Ising model
higher-order correlations
discrimination
information theory
recursion
goodness
consciousness
neuroscience
feedforward networks
spike train statistics
decoding
eigenvector centrality
discrete Markov chains
submodularity
free-energy principle
infomax principle
neural information propagation
integrated information
mismatched decoding
maximum entropy principle
perceptual magnet
graph theory
internal model hypothesis
channel capacity
complex networks
representation
latching
noise correlations
independent component analysis
mutual information decomposition
connectome
redundancy
mutual information
information entropy production
unconscious inference
hippocampus
neural population coding
spike-time precision
neural coding
maximum entropy
neural code
Potts model
pulse-gating
functional connectome
integrated information theory
minimum information partition
brain network
Queyranne’s algorithm
principal component analysis
Persona (resp. second.): PanzeriStefano
Sommario/riassunto: As the ultimate information processing device, the brain naturally lends itself to being studied with information theory. The application of information theory to neuroscience has spurred the development of principled theories of brain function, and has led to advances in the study of consciousness, as well as to the development of analytical techniques to crack the neural code—that is, to unveil the language used by neurons to encode and process information. In particular, advances in experimental techniques enabling the precise recording and manipulation of neural activity on a large scale now enable for the first time the precise formulation and the quantitative testing of hypotheses about how the brain encodes and transmits the information used for specific functions across areas. This Special Issue presents twelve original contributions on novel approaches in neuroscience using information theory, and on the development of new information theoretic results inspired by problems in neuroscience.
Titolo autorizzato: Information Theory in Neuroscience  Visualizza cluster
ISBN: 3-03897-665-2
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910346856603321
Lo trovi qui: Univ. Federico II
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