<p>A. The top row presents the temporal dynamics of grip force and load force signals. B. The bottom row presents the associated power spectrum of each signal in each condition. All trials were performed by the same participant. Movement and squeezing frequency was set respectively at 1</p
<p>Top row describes the distribution of target width over the course of trials. In the first experi...
<p>Several measures were extracted from these waveforms. The preload phase (a) corresponds to the du...
When moving grasped objects, people automatically modulate grip force (GF) with movement-dependent l...
<p>The top row presents the three conditions in which the elastic band was attached directly to the ...
<p>The top row presents the temporal dynamics of the force signals in each condition, and the bottom...
<p>A) Top view of the experimental set up. We isolated the subjects’ wrist middle, ring and little f...
<p>Force traces from trials in which a 12s grip was exerted in Experiment 2 (A,C,E,G) and Experiment...
<p>Grip force (F<i><sub>G</sub></i>) measured at object lift onset and during object hold (top and b...
<p>Mean ± SE (across experimental conditions) values over grasped (black bars) and touched (white ba...
<p>A and B) Raw traces of first dorsal interosseus EMG (top panel), grip force (2<sup>nd</sup> panel...
<p>(Left) Grip force in function of time to contact in upward (closed disks) and downward (open disk...
International audienceWhen moving grasped objects, people automatically modulate grip force (GF) wit...
<p>Mean ± SE values (average across participants over grasped trials) are reported separately for ea...
<p><b>A.</b> The white bar represented the target force level which was set at the beginning of each...
<p>Panel A shows the front view of the grip device used for each grip type condition. All dimensions...
<p>Top row describes the distribution of target width over the course of trials. In the first experi...
<p>Several measures were extracted from these waveforms. The preload phase (a) corresponds to the du...
When moving grasped objects, people automatically modulate grip force (GF) with movement-dependent l...
<p>The top row presents the three conditions in which the elastic band was attached directly to the ...
<p>The top row presents the temporal dynamics of the force signals in each condition, and the bottom...
<p>A) Top view of the experimental set up. We isolated the subjects’ wrist middle, ring and little f...
<p>Force traces from trials in which a 12s grip was exerted in Experiment 2 (A,C,E,G) and Experiment...
<p>Grip force (F<i><sub>G</sub></i>) measured at object lift onset and during object hold (top and b...
<p>Mean ± SE (across experimental conditions) values over grasped (black bars) and touched (white ba...
<p>A and B) Raw traces of first dorsal interosseus EMG (top panel), grip force (2<sup>nd</sup> panel...
<p>(Left) Grip force in function of time to contact in upward (closed disks) and downward (open disk...
International audienceWhen moving grasped objects, people automatically modulate grip force (GF) wit...
<p>Mean ± SE values (average across participants over grasped trials) are reported separately for ea...
<p><b>A.</b> The white bar represented the target force level which was set at the beginning of each...
<p>Panel A shows the front view of the grip device used for each grip type condition. All dimensions...
<p>Top row describes the distribution of target width over the course of trials. In the first experi...
<p>Several measures were extracted from these waveforms. The preload phase (a) corresponds to the du...
When moving grasped objects, people automatically modulate grip force (GF) with movement-dependent l...
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