Search results for "gravity force"

showing 2 items of 2 documents

Motor planning of arm movements is direction-dependent in the gravity field.

2007

International audience; In the present study we analyzed kinematic and dynamic features of arm movements in order to better elucidate how the motor system integrates environmental constraints (gravity) into motor planning and control processes. To reach this aim, we experimentally manipulated the mechanical effects of gravity on the arm while maintaining arm inertia constant (i.e. the distribution of the mass around the shoulder joint). Six subjects performed single-joint arm movements (rotation around the shoulder joint) in both sagittal (upward, U, versus downward, D) and horizontal (left, L, versus right, R) planes, at different amplitudes and from different initial positions. Under thes…

AdultMaleTime Factorsmedia_common.quotation_subjectMovementKinematicsRotationInertiaarm kinematics050105 experimental psychologyFunctional Laterality03 medical and health sciencesAcceleration0302 clinical medicineinternal modelsMotor systemmotor planningmedicineHumans0501 psychology and cognitive sciences[PHYS.MECA.BIOM]Physics [physics]/Mechanics [physics]/Biomechanics [physics.med-ph]gravity forceAstrophysics::Galaxy AstrophysicsMathematicsmedia_common[ PHYS.MECA.BIOM ] Physics [physics]/Mechanics [physics]/Biomechanics [physics.med-ph]Analysis of VarianceMovement (music)General Neuroscience05 social sciences[SPI.MECA.BIOM]Engineering Sciences [physics]/Mechanics [physics.med-ph]/Biomechanics [physics.med-ph]Planning TechniquesHorizontal planeGeodesySagittal planeBiomechanical Phenomenamedicine.anatomical_structureNonlinear DynamicsTorqueArminertial force[ SPI.MECA.BIOM ] Engineering Sciences [physics]/Mechanics [physics.med-ph]/Biomechanics [physics.med-ph]030217 neurology & neurosurgeryPsychomotor PerformanceGravitationNeuroscience
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Energy-related optimal control accounts for gravitational load: comparing shoulder, elbow, and wrist rotations.

2013

International audience; Gaveau J, Berret B, Demougeot L, Fadiga L, Pozzo T, Papaxanthis C. Energy-related optimal control accounts for gravitational load: comparing shoulder, elbow, and wrist rotations. J Neurophysiol 111: 4-16, 2014. First published October 16, 2013; doi: 10.1152/jn.01029.2012.-We permanently deal with gravity force. Experimental evidences revealed that moving against gravity strongly differs from moving along the gravity vector. This directional asymmetry has been attributed to an optimal planning process that optimizes gravity force effects to minimize energy. Yet, only few studies have considered the case of vertical movements in the context of optimal control. What kin…

DYNAMICSAdultMaleGravity (chemistry)REPRESENTATIONShoulderRotationPhysiologyMovementTORQUE-CHANGE MODELContext (language use)[ SCCO.PSYC ] Cognitive science/PsychologyKinematicsRotationModels Biologicaloptimal controlFEEDBACK-CONTROLGRAVITYControl theoryElbowTorqueHumansgravity forceMathematicsdistal[SCCO.NEUR]Cognitive science/NeuroscienceGeneral NeuroscienceMOTOR ADAPTATIONWork (physics)reaching movementVertical planeWristBiomechanical PhenomenaJerkproximalSAGITTAL PLANE[SCCO.PSYC]Cognitive science/Psychology[ SCCO.NEUR ] Cognitive science/NeuroscienceThermodynamicsNEURAL-CONTROL[ SCCO ] Cognitive scienceTRAJECTORIESsensorimotor controlARM POINTING MOVEMENTSGravitation
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