Networks for memory, perception, and decision-making, and beyond to how the syntax for language might be implemented in the brain

Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recu...

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Published in	Brain research Vol. 1621; pp. 316 - 334
Main Authors	Rolls, Edmund T., Deco, Gustavo
Format	Journal Article
Language	English
Published	Netherlands Elsevier B.V 24.09.2015
Subjects	Animals Attractor network Brain - physiology Cortical Synchronization Decision Making - physiology Humans Language Memory - physiology Models, Neurological Nerve Net - physiology Neural Networks (Computer) Neural Pathways - physiology Neurology Neurons - physiology Perception - physiology Semantics Short-term memory Stochastic neurodynamics Synapses - physiology Syntax Attractor network Language Syntax Stochastic neurodynamics Semantics Short-term memory
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ISSN	0006-8993 1872-6240 1872-6240
DOI	10.1016/j.brainres.2014.09.021

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Abstract	Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2–3mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject–verb–object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject–verb–object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory. •Neural principles of memory, perception, and decision-making are highlighted.•These include place coding, associative synaptic modification, and attractor networks.•These principles may help to implement language.•Place coding in separate cortical modules may play a role in syntax.•Linked attractor networks are simulated to demonstrate the principles for syntax.
AbstractList	Abstract Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2–3 mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject–verb–object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject–verb–object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory. Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2-3 mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject-verb-object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject-verb-object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory. Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2-3 mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject-verb-object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject-verb-object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory.Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2-3 mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject-verb-object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject-verb-object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory. Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations, associative synaptic modification, and attractor networks in which the storage capacity is in the order of the number of associatively modifiable recurrent synapses on any one neuron. Based on those and further principles of cortical computation, hypotheses are explored in which syntax is encoded in the cortex using sparse distributed place coding. Each cortical module 2–3mm in diameter is proposed to be formed of a local attractor neuronal network with a capacity in the order of 10,000 words (e.g. subjects, verbs or objects depending on the module). Such a system may form a deep language-of-thought layer. For the information to be communicated to other people, the modules in which the neurons are firing which encode the syntactic role, as well as which neurons are firing to specify the words, must be communicated. It is proposed that one solution to this (used in English) is temporal order encoding, for example subject–verb–object. It is shown with integrate-and-fire simulations that this order encoding could be implemented by weakly forward-coupled subject–verb–object modules. A related system can decode a temporal sequence. This approach based on known principles of cortical computation needs to be extended to investigate further whether it could form a biological foundation for the implementation of language in the brain. This article is part of a Special Issue entitled SI: Brain and Memory. •Neural principles of memory, perception, and decision-making are highlighted.•These include place coding, associative synaptic modification, and attractor networks.•These principles may help to implement language.•Place coding in separate cortical modules may play a role in syntax.•Linked attractor networks are simulated to demonstrate the principles for syntax.
Author	Deco, Gustavo Rolls, Edmund T.
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Snippet	Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations,... Abstract Neural principles that provide a foundation for memory, perception, and decision-making include place coding with sparse distributed representations,...
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SubjectTerms	Animals Attractor network Brain - physiology Cortical Synchronization Decision Making - physiology Humans Language Memory - physiology Models, Neurological Nerve Net - physiology Neural Networks (Computer) Neural Pathways - physiology Neurology Neurons - physiology Perception - physiology Semantics Short-term memory Stochastic neurodynamics Synapses - physiology Syntax
Title	Networks for memory, perception, and decision-making, and beyond to how the syntax for language might be implemented in the brain
URI	https://www.clinicalkey.com/#!/content/1-s2.0-S0006899314012323 https://www.clinicalkey.es/playcontent/1-s2.0-S0006899314012323 https://dx.doi.org/10.1016/j.brainres.2014.09.021 https://www.ncbi.nlm.nih.gov/pubmed/25239476 https://www.proquest.com/docview/1708895891
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