Increase in weighting of vision vs. proprioception associated with force field adaptation published as: https://t.co/St7mqvsu1d @scireports #biorxiv
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
.@Martel_MF
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
We have some amazing faculty. Check out Dr. Block's latest paper.
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
Cool finding!
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
RT @IUBlockLab: Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new arti…
Force field adaptation is known to alter proprioception, but what happens to visuo-proprioceptive integration? Our new article in @SciReports suggests vision is up-weighted independent of force field direction: https://t.co/QsHys0aak2 https://t.co/woU03nTk
Increase in weighting of vision vs. proprioception associated with force field adaptation https://t.co/vIAImgU2yp v/ @NatureNews https://t.co/YDlgy9scO3