Previous behavioral work has shown the existence of both anticipatory and reactive grip force responses to predictable load perturbations, but how the brain implements anticipatory control remains unclear. Here we recorded electroencephalographs while participants were subjected to predictable and unpredictable external load perturbations. Participants used precision grip to maintain the position of an object perturbed by load force pulses. The load perturbations were either distributed randomly over an interval 700-to 4,300-ms (unpredictable condition) or they were periodic with interval 2,000 ms (predictable condition). Preparation for the predictable load perturbation was manifested in slow preparatory brain potentials and in electromyog...
Although beta oscillations (≈ 13-35 Hz) are often considered as a sensorimotor rhythm, their functio...
Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. A...
International audienceThe brain can anticipate the time of imminent events to optimise sensorimotor ...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
International audienceGrip force applied to an object held between the thumb and index finger is aut...
International audienceDuring voluntary motor acts, potential perturbations due to transient external...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
Item does not contain fulltextAbstract Based on reward and difficulty information, people can strate...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
AbstractA characteristic of skilled movement is the ability of the CNS to predict the consequences o...
The ability to prepare movement is an essential requirement for the control of goal-directed actions...
The reactive control of fingertip forces maintaining grasp stability was examined in man during a pr...
International audienceAlthough beta oscillations (< 13–35 Hz) are often considered as a sensorimotor...
Although beta oscillations (≈ 13-35 Hz) are often considered as a sensorimotor rhythm, their functio...
Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. A...
International audienceThe brain can anticipate the time of imminent events to optimise sensorimotor ...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
Previous behavioral work has shown the existence of both anticipatory and reactive grip force respon...
International audienceGrip force applied to an object held between the thumb and index finger is aut...
International audienceDuring voluntary motor acts, potential perturbations due to transient external...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
Item does not contain fulltextAbstract Based on reward and difficulty information, people can strate...
Based on reward and difficulty information, people can strategically adjust proactive cognitive cont...
AbstractA characteristic of skilled movement is the ability of the CNS to predict the consequences o...
The ability to prepare movement is an essential requirement for the control of goal-directed actions...
The reactive control of fingertip forces maintaining grasp stability was examined in man during a pr...
International audienceAlthough beta oscillations (< 13–35 Hz) are often considered as a sensorimotor...
Although beta oscillations (≈ 13-35 Hz) are often considered as a sensorimotor rhythm, their functio...
Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. A...
International audienceThe brain can anticipate the time of imminent events to optimise sensorimotor ...