The duration of reaching movement is longer than predicted by minimum variance | Zendy

Chunji Wang | Zendy; Yupeng Xiao | Zendy; Etienne Burdet | Zendy; James Gordon | Zendy; Nicolas Schweighofer | Zendy

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The duration of reaching movement is longer than predicted by minimum variance

Author(s) -

Chunji Wang,

Yupeng Xiao,

Etienne Burdet,

James Gordon,

Nicolas Schweighofer

Publication year - 2016

Publication title -

journal of neurophysiology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.302

H-Index - 245

eISSN - 1522-1598

pISSN - 0022-3077

DOI - 10.1152/jn.00148.2016

Subject(s) - duration (music) , movement (music) , end point , noise (video) , variance (accounting) , time point , point (geometry) , signal (programming language) , statistics , mathematics , computer science , artificial intelligence , physics , acoustics , geometry , accounting , business , image (mathematics) , programming language

Whether the central nervous system minimizes variability or effort in planning arm movements can be tested by measuring the preferred movement duration and end-point variability. Here we conducted an experiment in which subjects performed arm reaching movements without visual feedback in fast-, medium-, slow-, and preferred-duration conditions. Results show that 1) total end-point variance was smallest in the medium-duration condition and 2) subjects preferred to carry out movements that were slower than this medium-duration condition. A parsimonious explanation for the overall pattern of end-point errors across fast, medium, preferred, and slow movement durations is that movements are planned to minimize effort as well as end-point error due to both signal-dependent and constant noise.

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