0000000000009964

AUTHOR

Chantal Bard

showing 3 related works from this author

Deafferentation and pointing with visual double-step perturbations

1999

The capability of reprogramming movement responses following changes in the visual goal has been studied through the double-step paradigm. These studies have shown that: (a) continuous internal feedback-loops correct unconsciously the dynamic errors throughout the movement; (b) proprioceptive information and/or the efference copy have a privileged status among central processes, insuring on-line regulation of the initial motor commands; and (c) generation of the motor program starts after target presentation, and is continuously updated in the direction of the current internal representation of the target, at least until the onset of hand movement. This main corrective process of the initia…

Afferent PathwaysCommunicationbusiness.industryMovement (music)MovementGeneral NeuroscienceEfferentRepresentation (systemics)Efference copyMotor controlBody movementMotor programMiddle AgedHandProprioceptionMotor systemHumansFemalebusinessPsychologyPhotic StimulationPsychomotor PerformanceCognitive psychologyExperimental Brain Research
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Corrective loops involved in fast aiming movements: effect of task and environment

1998

In daily living, we continuously interact with our environment. This environment is rarely stable and living beings show remarkable adaptive capacities. When we reach for an object, it is necessary to localize the position of this object with respect to our own body before programming an adequate arm movement. If the target remains stable, the programmed movement brings the hand near the target. However, what happens when the target suddenly jumps to another position in space? The aim of this work was to investigate how rapid aiming movements are corrected when the target is displaced close to movement onset. Our results reveal that rapid movements can be modified and that the efficiency of…

AdultComputer scienceMovementKinematicsEnvironmentFeedbackTask (project management)Reaction TimeHumansComputer visionKinesthesisAnalysis of VarianceCommunicationbusiness.industryMovement (music)General NeuroscienceWork (physics)Motor controlBody movementHandProprioceptionAdaptation PhysiologicalObject (philosophy)TrajectoryArtificial intelligencebusinessPsychomotor PerformanceExperimental Brain Research
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Role of the feedforward command and reafferent information in the coordination of a passing prehension task.

1999

The performances of a deafferented patient and five control subjects have been studied during a self-driven passing task in which one hand has to grasp an object transported by the other hand and in a unimanual reach-to-grasp task. The kinematics of the reach and grasp components and the scaling of the grip aperture recorded for the self-driven passing task were very similar in controls and the deafferented subject (GL). In contrast, for the unimanual task when vision was absent, GL's coordination between reaching and grasping was delayed in space and time compared with the control subjects. In addition, frequent reopening of the grip was observed in GL during the final closure phase of the…

AdultCommunicationAfferent PathwaysAnalysis of VarianceProprioceptionHand Strengthbusiness.industryGeneral NeuroscienceGRASPFeed forwardMotor controlBody movementKinematicsMiddle AgedProprioceptionAnticipationTask (project management)FeedbackCase-Control StudiesHumansbusinessPsychologyPsychomotor PerformanceCognitive psychologyExperimental brain research
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