date: 2012-04-02T08:16:38Z
pdf:unmappedUnicodeCharsPerPage: 0
PXCViewerInfo: PDF-XChange Viewer;2.5.201.0 [(
PrivateBuild];Jan 23 2012;21:08:47;D:20120402101638+02'00'
pdf:PDFVersion: 1.5
pdf:docinfo:title: Visuomotor Adaptation: Dependency on Motion Trajectory 
xmp:CreatorTool: Acrobat PDFMaker 5.0 für Word
dc:description:  The present contribution studies the rapid adaptation process of the 
visuomotor system to optical transformations (here: shifting the image horizon-
tally  via  prism  goggles).  It  is  generally  believed  that  this  adaptation  consists 
primarily of recalibrating the transformation between visual and proprioceptive 
perception.  According  to  such  a  purely  perceptual  account  of  adaptation,  the 
exact path used to reach the object should not be important. If, however, it is the 
transformation from perception to action that is being altered, then the adapta-
tion should depend on the motion trajectory. In experiments with a variety of 
different motion trajectories we show that visuomotor adaptation is not merely 
a perceptual recalibration. The structure of the motion (starting position, trajec-
tory, end position) plays a central role, and even the weight load seems to be 
important. These results have strong implications for all models of visuomotor adaptation. 
access_permission:modify_annotations: true
access_permission:can_print_degraded: true
subject:  The present contribution studies the rapid adaptation process of the 
visuomotor system to optical transformations (here: shifting the image horizon-
tally  via  prism  goggles).  It  is  generally  believed  that  this  adaptation  consists 
primarily of recalibrating the transformation between visual and proprioceptive 
perception.  According  to  such  a  purely  perceptual  account  of  adaptation,  the 
exact path used to reach the object should not be important. If, however, it is the 
transformation from perception to action that is being altered, then the adapta-
tion should depend on the motion trajectory. In experiments with a variety of 
different motion trajectories we show that visuomotor adaptation is not merely 
a perceptual recalibration. The structure of the motion (starting position, trajec-
tory, end position) plays a central role, and even the weight load seems to be 
important. These results have strong implications for all models of visuomotor adaptation. 
dc:creator: Christian Kaernbach and Lutz Munka and Douglas Cunningham
description:  The present contribution studies the rapid adaptation process of the 
visuomotor system to optical transformations (here: shifting the image horizon-
tally  via  prism  goggles).  It  is  generally  believed  that  this  adaptation  consists 
primarily of recalibrating the transformation between visual and proprioceptive 
perception.  According  to  such  a  purely  perceptual  account  of  adaptation,  the 
exact path used to reach the object should not be important. If, however, it is the 
transformation from perception to action that is being altered, then the adapta-
tion should depend on the motion trajectory. In experiments with a variety of 
different motion trajectories we show that visuomotor adaptation is not merely 
a perceptual recalibration. The structure of the motion (starting position, trajec-
tory, end position) plays a central role, and even the weight load seems to be 
important. These results have strong implications for all models of visuomotor adaptation. 
dcterms:created: 2002-09-01T12:11:36Z
Last-Modified: 2012-04-02T08:16:38Z
dcterms:modified: 2012-04-02T08:16:38Z
pdf:docinfo:custom:PXCViewerInfo: PDF-XChange Viewer;2.5.201.0 [(
PrivateBuild];Jan 23 2012;21:08:47;D:20120402101638+02'00'
dc:format: application/pdf; version=1.5
title: Visuomotor Adaptation: Dependency on Motion Trajectory 
Last-Save-Date: 2012-04-02T08:16:38Z
pdf:docinfo:creator_tool: Acrobat PDFMaker 5.0 für Word
access_permission:fill_in_form: true
pdf:docinfo:modified: 2012-04-02T08:16:38Z
meta:save-date: 2012-04-02T08:16:38Z
pdf:encrypted: false
dc:title: Visuomotor Adaptation: Dependency on Motion Trajectory 
modified: 2012-04-02T08:16:38Z
cp:subject:  The present contribution studies the rapid adaptation process of the 
visuomotor system to optical transformations (here: shifting the image horizon-
tally  via  prism  goggles).  It  is  generally  believed  that  this  adaptation  consists 
primarily of recalibrating the transformation between visual and proprioceptive 
perception.  According  to  such  a  purely  perceptual  account  of  adaptation,  the 
exact path used to reach the object should not be important. If, however, it is the 
transformation from perception to action that is being altered, then the adapta-
tion should depend on the motion trajectory. In experiments with a variety of 
different motion trajectories we show that visuomotor adaptation is not merely 
a perceptual recalibration. The structure of the motion (starting position, trajec-
tory, end position) plays a central role, and even the weight load seems to be 
important. These results have strong implications for all models of visuomotor adaptation. 
pdf:docinfo:subject:  The present contribution studies the rapid adaptation process of the 
visuomotor system to optical transformations (here: shifting the image horizon-
tally  via  prism  goggles).  It  is  generally  believed  that  this  adaptation  consists 
primarily of recalibrating the transformation between visual and proprioceptive 
perception.  According  to  such  a  purely  perceptual  account  of  adaptation,  the 
exact path used to reach the object should not be important. If, however, it is the 
transformation from perception to action that is being altered, then the adapta-
tion should depend on the motion trajectory. In experiments with a variety of 
different motion trajectories we show that visuomotor adaptation is not merely 
a perceptual recalibration. The structure of the motion (starting position, trajec-
tory, end position) plays a central role, and even the weight load seems to be 
important. These results have strong implications for all models of visuomotor adaptation. 
Content-Type: application/pdf
pdf:docinfo:creator: Christian Kaernbach and Lutz Munka and Douglas Cunningham
X-Parsed-By: org.apache.tika.parser.DefaultParser
creator: Christian Kaernbach and Lutz Munka and Douglas Cunningham
meta:author: Christian Kaernbach and Lutz Munka and Douglas Cunningham
meta:creation-date: 2002-09-01T12:11:36Z
created: 2002-09-01T12:11:36Z
access_permission:extract_for_accessibility: true
access_permission:assemble_document: true
xmpTPg:NPages: 6
Creation-Date: 2002-09-01T12:11:36Z
pdf:charsPerPage: 2716
access_permission:extract_content: true
access_permission:can_print: true
Author: Christian Kaernbach and Lutz Munka and Douglas Cunningham
producer: Acrobat Distiller 5.0 (Windows)
access_permission:can_modify: true
pdf:docinfo:producer: Acrobat Distiller 5.0 (Windows)
pdf:docinfo:created: 2002-09-01T12:11:36Z