@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: .
@prefix rdfs: .
@prefix eprel: .
@prefix dct: .
<>
foaf:primaryTopic ;
rdfs:comment "The repository administrator has not yet configured an RDF license."^^xsd:string .
rdfs:label "Image3.gif"^^xsd:string .
rdfs:label "Image4.gif"^^xsd:string .
rdfs:label "Image5.gif"^^xsd:string .
rdfs:label "Image6.gif"^^xsd:string .
rdfs:label "Image7.gif"^^xsd:string .
rdfs:label "Image8.gif"^^xsd:string .
rdfs:label "Image9.gif"^^xsd:string .
rdfs:label "Image10.gif"^^xsd:string .
rdfs:label "Image11.gif"^^xsd:string .
rdfs:label "Image12.gif"^^xsd:string .
rdfs:label "Image13.gif"^^xsd:string .
rdfs:label "Image14.gif"^^xsd:string .
rdfs:label "Image15.gif"^^xsd:string .
rdfs:label "Image16.gif"^^xsd:string .
rdfs:label "Image18.gif"^^xsd:string .
rdfs:label "Image19.gif"^^xsd:string .
rdfs:label "paper.htm"^^xsd:string .
rdfs:label "indexcodes.txt"^^xsd:string .
dc:format "text/html";
dc:title "HTML Summary of #811 \n\nMovement prediction and movement production\n\n";
foaf:primaryTopic .
dct:hasPart ,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
;
ep:hasFile ,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
,
;
rdf:type bibo:Document,
ep:Document;
rdfs:label "Movement prediction and movement production (HTML)"^^xsd:string .
dct:hasPart ;
ep:hasFile ;
eprel:isIndexCodesVersionOf ;
eprel:isVersionOf ;
eprel:isVolatileVersionOf ;
rdf:type ep:Document;
rdfs:label "Movement prediction and movement production (Indexer Terms)"^^xsd:string .
rdf:_1 ;
rdf:_2 .
bibo:abstract "The prediction of future positions of moving objects occurs in cases of actively produced and passively observed movement. We study the difference between active and passive movement prediction by asking subjects to estimate displacements of an occluded moving target, where the movement is produced by the subject or passively observed; in the passive condition, the target trajectory is either a replay of a preceding active trajectory, or a constant-speed approximation. In the active condition estimates are more anticipatory than in the passive conditions, but in all conditions, estimates become less anticipatory as the prediction distance increases, or the prediction time decreases. Decreasing the congruence between motor action and visual feedback diminishes but does not eliminate the anticipatory effect of action; introducing eye tracking, however, does eliminate it. Our results are compatible with common mechanisms underlying both active and passive movement prediction, with additional movement-related information in the active case making predictions more anticipatory."^^xsd:string;
bibo:authorList ;
bibo:status ,
;
dct:creator ,
;
dct:date "1999-03";
dct:isPartOf ;
dct:subject ,
,
,
;
dct:title "Movement prediction and movement production"^^xsd:string;
ep:hasDocument ,
;
rdf:type bibo:Article,
ep:EPrint,
ep:PreprintEPrint;
rdfs:seeAlso .
rdf:type skos:Concept;
skos:prefLabel "Behavioral Neuroscience" .
rdf:type skos:Concept;
skos:prefLabel "Cognitive Psychology" .
rdf:type skos:Concept;
skos:prefLabel "Perceptual Cognitive Psychology" .
rdf:type skos:Concept;
skos:prefLabel "Psychophysics" .
foaf:familyName "Wexler"^^xsd:string;
foaf:givenName "Mark"^^xsd:string;
foaf:name "Mark Wexler"^^xsd:string;
rdf:type foaf:Person .
foaf:familyName "Klam"^^xsd:string;
foaf:givenName "François"^^xsd:string;
foaf:name "François Klam"^^xsd:string;
rdf:type foaf:Person .