0000000000646621

AUTHOR

Philippe Lefèvre

showing 4 related works from this author

Grip Force Adjustments Reflect Prediction of Dynamic Consequences in Varying Gravitoinertial Fields

2018

International audience; Humans have a remarkable ability to adjust the way they manipulate tools through a genuine regulation of grip force according to the task. However, rapid changes in the dynamical context may challenge this skill, as shown in many experimental approaches. Most experiments adopt perturbation paradigms that affect only one sensory modality. We hypothesize that very fast adaptation can occur if coherent information from multiple sensory modalities is provided to the central nervous system. Here, we test whether participants can switch between different and never experienced dynamical environments induced by centrifugation of the body. Seven participants lifted an object …

Gravity (chemistry)object manipulationPhysiologyComputer science[SDV.MHEP.PHY] Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]Context (language use)gravity sensing03 medical and health sciencesAcceleration0302 clinical medicinePhysiology (medical)internal-modelsmotor control[SDV.MHEP.PHY]Life Sciences [q-bio]/Human health and pathology/Tissues and Organs [q-bio.TO]movements[SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]uncertaintySimulationhypergravityOriginal Research030304 developmental biologybayesian integration0303 health sciencessensorimotor memoryswitchinggrip forceGRASPsize cuesrecision gripgravity[SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]Grip force030217 neurology & neurosurgerysensory information
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Grip force regulates hand impedance to optimize object stability in high impact loads

2011

Anticipatory grip force adjustments are a prime example of the predictive nature of motor control. An object held in precision grip is stabilized by fine adjustments of the grip force against changes in tangential load force arising from inertia during acceleration and deceleration. When an object is subject to sudden impact loads, prediction becomes critical as the time available for sensory feedback is very short. Here, we investigated the control of grip force when participants performed a targeted tapping task with a hand-held object. During the initial transport phase of the movement, load force varied smoothly with acceleration. In contrast, in the collision, load forces sharply incre…

AdultMaleComputer scienceMovementmedia_common.quotation_subjectInertiaWeight-BearingYoung AdultAccelerationControl theorymedicineHumansLoad forceElectrical impedancemedia_commonHand StrengthGeneral NeuroscienceStiffnessMotor controlCollisionbody regionsAcoustic StimulationFemaleGrip forcemedicine.symptomNeuroscience
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Premiers apports du programme archéologique du canal Seine-Nord Europe pour l'âge du Bronze et le premier âge du Fer dans le nord de la France

2012

[SHS.ARCHEO] Humanities and Social Sciences/Archaeology and PrehistoryÂge du BronzeÂge du Fer[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and Prehistory[ SHS.ARCHEO ] Humanities and Social Sciences/Archaeology and Prehistory
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''Active Collisions in Altered Gravity Reveal Eye-Hand Coordination Strategies''

2012

White, Olivier | Lefevre, Philippe | Wing, Alan M. | Bracewell, R. Martyn | Thonnard, Jean-Louis; International audience; ''Most object manipulation tasks involve a series of actions demarcated by mechanical contact events, and gaze is usually directed to the locations of these events as the task unfolds. Typically, gaze foveates the target 200 ms in advance of the contact. This strategy improves manual accuracy through visual feedback and the use of gaze-related signals to guide the hand/ object. Many studies have investigated eye-hand coordination in experimental and natural tasks; most of them highlighted a strong link between eye movements and hand or object kinematics. In this experime…

MaleTime Factorsgenetic structuresComputer sciencelcsh:MedicineAstronomical SciencesKinematicsSocial and Behavioral SciencesInertiaDIRECTION''Behavioral NeuroscienceLearning and MemoryHuman PerformancePsychologyComputer visionOBJECT MANIPULATIONlcsh:ScienceDIRECTIONmedia_commonGravity AlteredMultidisciplinaryEye–hand coordinationHand StrengthWeightlessnessMiddle AgedSpace ExplorationSensory SystemsBiomechanical PhenomenaTARGET[ SCCO.NEUR ] Cognitive science/NeuroscienceGRIP FORCE ADJUSTMENTSFemaleResearch ArticleAdult''GRIP FORCE ADJUSTMENTSMovementCognitive Neurosciencemedia_common.quotation_subjectAccelerationFixation OcularYoung AdultVISUAL INFORMATIONLOAD PERTURBATIONSHand strengthSaccadesHumansWorking MemoryBiologyHEAD MOVEMENTSARM MOVEMENTSMotor SystemsBehaviorHypergravityWeightlessnessbusiness.industryLatency Period Psychologicallcsh:REye movementSpaceflightHandCollisionGazePOINTING MOVEMENTFixation (visual)TASKlcsh:QArtificial intelligencebusinessNeuroscience
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