Impulsive loadings during object grasping are common in everyday life. In predictable conditions, the grip force (GF) increases before the impact to anticipate the perturbation and reaches a maximum after the perturbation. In the present study, the authors addressed the predictive or reactive nature of this late GF component. The load of a handheld object was briskly increased by dropping a mass attached to the object (impact trials). The drop was self-induced, but for one third of the trials, the mechanism was blocked and no impact occurred (blank trials). Evidence that the late GF component is programmed as a predictive action emerged from a systematic comparison between impact and blank trials. The authors conclude that the GF increase o...
We often perform actions where we must break through some resistive force, but want to remain in con...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
Abstract It is widely accepted that human motor control is anticipatory in nature. Previous studies ...
AbstractA characteristic of skilled movement is the ability of the CNS to predict the consequences o...
Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. A...
Import JabRef | WosArea Neurosciences and NeurologyInternational audienceAnticipatory grip force adj...
\u3cp\u3eGrip force has been studied widely in a variety of interaction and movement tasks, however,...
The manipulation of small objects requires continuous contributions from both predictive and reactiv...
When moving grasped objects, people automatically modulate grip force (GF) with movement-dependent l...
International audienceWhen moving grasped objects, people automatically modulate grip force (GF) wit...
When humans proactively manipulate objects, the applied fin-gertip forces primarily depend on feedfo...
International audienceGrip force applied to an object held between the thumb and index finger is aut...
The reactive control of fingertip forces maintaining grasp stability was examined in man during a pr...
During transport of hand-held objects, the grip force is modulated in parallel with the load force c...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
We often perform actions where we must break through some resistive force, but want to remain in con...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
Abstract It is widely accepted that human motor control is anticipatory in nature. Previous studies ...
AbstractA characteristic of skilled movement is the ability of the CNS to predict the consequences o...
Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. A...
Import JabRef | WosArea Neurosciences and NeurologyInternational audienceAnticipatory grip force adj...
\u3cp\u3eGrip force has been studied widely in a variety of interaction and movement tasks, however,...
The manipulation of small objects requires continuous contributions from both predictive and reactiv...
When moving grasped objects, people automatically modulate grip force (GF) with movement-dependent l...
International audienceWhen moving grasped objects, people automatically modulate grip force (GF) wit...
When humans proactively manipulate objects, the applied fin-gertip forces primarily depend on feedfo...
International audienceGrip force applied to an object held between the thumb and index finger is aut...
The reactive control of fingertip forces maintaining grasp stability was examined in man during a pr...
During transport of hand-held objects, the grip force is modulated in parallel with the load force c...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
We often perform actions where we must break through some resistive force, but want to remain in con...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
Abstract It is widely accepted that human motor control is anticipatory in nature. Previous studies ...