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== Exp. Brain Res. 2010: Specific vermal complex spike responses build up during the course of smooth-pursuit adaptation, paralleling the decrease of performance error == [[http://www.springerlink.com/content/j1173463v4501v17/|{{attachment:Dash_Catz_Dicke_Thier.jpg}}]] [[http://www.springerlink.com/content/j1173463v4501v17/|Suryadeep Dash, Nicolas Catz, Peter Wilhelm Dicke Peter Thier, Experimental Brain Research, Volume 205, Number 1, 41-55, DOI: 10.1007/s00221-010-2331-2]] |
publications to which nrec contributed to
Contents
- Brain Topogr. 2012: Processing of Coherent Visual Motion in Topographically Organized Visual Areas in Human Cerebral Cortex
- European Journal of Neuroscience 2011: The role of the cerebellum in saccadic adaptation as a window into neural mechanisms of motor learning
- Curr. Biol. 2011: View-Based Encoding of Actions in Mirror Neurons of Area F5 in Macaque Premotor Cortex
- J. Neuroscience 2010: The absence of eye muscle fatigue indicates that the nervous system compensates for non-motor disturbances of oculomotor function
1. Brain Topogr. 2012: Processing of Coherent Visual Motion in Topographically Organized Visual Areas in Human Cerebral Cortex
"...Stimulus generation and data acquisition were controlled by the open source nrec measurement system (http://nrec.neurologie.uni-tuebingen.de, created by F. Bunjes, J. Gukelberger et. al.) running on an IBM PC-compatible Pentium class computer. ..."
2. European Journal of Neuroscience 2011: The role of the cerebellum in saccadic adaptation as a window into neural mechanisms of motor learning
3. Curr. Biol. 2011: View-Based Encoding of Actions in Mirror Neurons of Area F5 in Macaque Premotor Cortex
"...Movies, as well as the other visual stimuli, were presented by custom produced real-time software (http://nrec.neurologie.uni-tuebingen.de) with a refresh rate of 60 fps. ..."
4. J. Neuroscience 2010: The absence of eye muscle fatigue indicates that the nervous system compensates for non-motor disturbances of oculomotor function
Mario Prsa, Peter W. Dicke, and Peter Thier, J. Neuroscience 30:15834-15842