@prefix epid: .
@prefix dc: .
@prefix geo: .
@prefix bibo: .
@prefix epx: .
@prefix owl: .
@prefix void: .
@prefix event: .
@prefix skos: .
@prefix xsd: .
@prefix cc: .
@prefix ep: .
@prefix foaf: .
@prefix rdf: .
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@prefix dct: .
<>
foaf:primaryTopic ;
rdfs:comment "The repository administrator has not yet configured an RDF license."^^xsd:string .
rdfs:label "brain1.ps"^^xsd:string .
dc:format "text/html";
dc:title "HTML Summary of #924 \n\nCoherence in a coupled network: Implication for brain function\n\n";
foaf:primaryTopic .
dct:hasPart ;
ep:hasFile ;
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ep:Document;
rdfs:label "Coherence in a coupled network: Implication for brain function (Postscript)"^^xsd:string .
rdf:_1 .
bibo:abstract "In many body systems, constituents interact with each other,\nforming a recursive pattern of mutual interaction and giving rise\nto many interesting phenomena. Based upon concepts of the modern\nmany body theory, a model for a generic many body system is\ndeveloped. A novel approach is used to investigate the general\nfeatures in such a system. An interesting phase transition in the\nsystem is found. Possible link to brain dynamics is discussed. It\nis shown how some of the basic brain processes, such as learning\nand memory, find therein a natural explanation.\n"^^xsd:string;
bibo:authorList ;
bibo:status ;
dct:creator ;
dct:date "2000";
dct:isPartOf ;
dct:subject ,
,
;
dct:title "Coherence in a coupled network: Implication for brain function"^^xsd:string;
ep:hasDocument ;
rdf:type bibo:Article,
ep:EPrint,
ep:PreprintEPrint;
rdfs:seeAlso .
rdf:type skos:Concept;
skos:prefLabel "Biophysics" .
rdf:type skos:Concept;
skos:prefLabel "Theoretical Biology" .
rdf:type skos:Concept;
skos:prefLabel "Brain Imaging" .
foaf:familyName "Ye"^^xsd:string;
foaf:givenName "Zhen"^^xsd:string;
foaf:name "Zhen Ye"^^xsd:string;
rdf:type foaf:Person .