Search results for "arm movement"

showing 9 items of 19 documents

Hill's Equation in the Arm Push of Shot Put

2016

Aims: The purpose of this paper was to continue the previous study of arm rotation movement where A.V. Hill’s force-velocity relationship was transformed into a constant maximum power model consisting of three different components of power. Methodology: In the present study a new model of Hill’s equation was applied for accelerated motions. This theoretically derived model of further development of Hill’s force-velocity relationship was tested by fitting it into two arm push measurements of shot put experiments. The results of the further development of Hill’s equation for accelerated motions were compared with the mechanics of the constant power model of the previous study. Results: The an…

Engineeringta222Mechanical engineering02 engineering and technology01 natural sciencesarm push in shot putforce-velocity relationship0103 physical sciences010303 astronomy & astrophysicsta119muscle powerarm movementta114business.industryta111Muscle mechanicsGeneral MedicineMechanics021001 nanoscience & nanotechnologyShot putmuscle mechanicsHill’s equationMuscle power0210 nano-technologybusinessBritish Journal of Applied Science & Technology
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Action Representation in Patients with Bilateral Vestibular Impairments

2011

During mental actions subjects feel themselves performing a movement without any corresponding motor output. Although broad information is available regarding the influence of central lesions on action representation, little is known about how peripheral damages affect mental events. In the current study, we investigated whether lack of vestibular information influences action representation. Twelve healthy adults and twelve patients with bilateral vestibular damage actually performed and mentally simulated walking and drawing. The locomotor paths implied one (first walking task) and four (second walking task) changes in the walking direction. In the drawing task, participants drew on a she…

MaleAnatomy and PhysiologyPsychologie appliquéelcsh:MedicineIMAGERYTask (project management)Behavioral NeuroscienceBODYlcsh:ScienceVestibular systemMovement DisordersMultidisciplinaryLOCOMOTIONParietal lobeMiddle AgedSciences bio-médicales et agricolesTEMPORAL FEATURESNeurologyVestibular Diseases[ SCCO.NEUR ] Cognitive science/NeuroscienceMedicineFemaleSIMULATED MOTOR ACTIONSBiologieResearch ArticleAdultREHABILITATIONmedicine.medical_specialtyIsochronyCognitive NeuroscienceNeurophysiologyBiologyEXECUTIONAffect (psychology)Neurological SystemPhysical medicine and rehabilitationMotor systemmedicineHumansBiologyARM MOVEMENTSMotor Systemslcsh:RPERFORMANCEMENTAL PRACTICEAction (philosophy)Case-Control StudiesGait analysislcsh:QNeuroscience
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Delayed postural control during self-generated perturbations in the frail older adults

2012

Alexandre Kubicki1–3, François Bonnetblanc1,2, Geoffroy Petrement3, Yves Ballay1,2, France Mourey2,4¹UFR STAPS, Université de Bourgogne, Dijon, France; ²Motricité et Plasticité, Institut National de la Santé et de la Recherche Médicale (INSERM), Dijon, France; ³SARL Fovea Interactive, Campus Industriel – Espace Entreprises, Chalon sur Saône, France; 4UFR Médecine, Université de Bourgogne, Dijon, FrancePurpose: The aim of this study was to investigate the coordination between posture and movement in pathological aging (frailty) in comparison with no…

MaleMovement disordersbackward disequilibriumPoison controlKinematicsPHENOTYPEPostural control0302 clinical medicineCognitionCenter of pressure (terrestrial locomotion)Task Performance and AnalysisPostural BalanceARM MOVEMENTAttention030212 general & internal medicineanticipatory postural adjustmentsPostural BalanceOriginal ResearchAged 80 and overMovement DisordersFALLSCognitionGeneral MedicineAdaptation PhysiologicalBackward Disequilibrium.COMMUNITYPROBABILITYADJUSTMENTSOlder adults[ SCCO.NEUR ] Cognitive science/NeuroscienceArmELDERLY PERSONSFemalemedicine.symptommedicine.medical_specialtyGO TESTFrail ElderlyFrail Older AdultsPosturefrailtyAGE-RELATED-CHANGES03 medical and health sciencesPhysical medicine and rehabilitationmedicineReaction TimeHumansAgedbusiness.industry[SCCO.NEUR]Cognitive science/Neuroscience[SCCO.NEUR] Cognitive science/NeuroscienceRC952-954.6Postural controlGeriatricsClinical Interventions in AgingGeriatrics and Gerontologybusiness030217 neurology & neurosurgeryPsychomotor PerformanceClinical Interventions in Aging
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Initial information prior to movement onset influences kinematics of upward arm pointing movements

2016

International audience; To elaborate a motor plan and perform online control in the gravity field, the brain relies on priors and multisensory integration of information. In particular, afferent and efferent inputs related to the initial state are thought to convey sensorimotor information to plan the upcoming action. Yet it is still unclear to what extent these cues impact motor planning. Here we examined the role of initial information on the planning and execution of arm movements. Participants performed upward arm movements around the shoulder at three speeds and in two arm conditions. In the first condition, the arm was outstretched horizontally and required a significant muscular comm…

MalePhysiologyrepresentationElectromyographyKinematicselectromechanical delay0302 clinical medicineRest (physics)medicine.diagnostic_testMovement (music)General Neuroscience05 social sciencesMiddle AgedBiomechanical PhenomenaArmVisual PerceptionFemalePsychologyreaching movementsGravitationMuscle ContractionAdultShouldermedicine.medical_specialtyMovementContext (language use)Motor Activityposition sensemotor commands050105 experimental psychologyYoung Adult03 medical and health sciencesAccelerationPhysical medicine and rehabilitationmotor planningmedicineHumans0501 psychology and cognitive sciencesgravitational forceMuscle SkeletalCommunicationarm movementProprioceptionElectromyographybusiness.industryMultisensory integrationinitial informationenergy-expenditureProprioceptiongravityTorquelimb movements[ SDV.NEU ] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]handControl of Movementbusiness030217 neurology & neurosurgery
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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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Constant Power Model in Arm Rotation—A New Approach to Hill’s Equation

2014

The purpose of this study was to further develop the constant power model of a previous study and to provide the final solution of Hill’s force-velocity equation. Forearm and whole arm rotations of three different subjects were performed downwards (elbow and shoulder extension) and upwards (elbow and shoulder flexion) with maximum velocity. These arm rotations were recorded with a special camera system and the theoretically derived model of constant maximum power was fitted to the experimentally measured data. The moment of inertia of the arm sectors was calculated using immersion technique for determining accurate values of friction coefficients of elbow and whole arm rotations. The experi…

muscle powerarm movementMaximum power principleMathematical analysisElbowMotion (geometry)Moment of inertiaRotationta3111force-velocity relationshipPower (physics)Moment (mathematics)Hill’s equationClassical mechanicsmedicine.anatomical_structuremedicineConstant (mathematics)ta315MathematicsWorld Journal of Mechanics
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Modeling the force – velocity relationship in arm movement

2012

Modeling the force-velocity dependence of a muscle-tendon unit has been one of the most interesting objectives in the field of muscle mechanics. The so-called Hill’s equation [1,2] is widely used to describe the force-velocity relationship of muscle fibers. Hill’s equation was based on the laboratory measurements of muscle fibers and its application to the practical measurements in muscle mechanics has been problematic. Therefore, the purpose of this study was to develop a new explicit calculation method to determine the force-velocity relationship, and test its function in experimental measurements. The model was based on the motion analysis of arm movements. Experiments on forearm rotatio…

muscle powerarm movementmuscle mechanicsforce-velocity relationship
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Modeling muscle mechanics of arm and leg movement : a new approach to Hill's equation

2015

muscle powerleg movementarm movementnopeusvoimajumpingkädetjalatmuscle mechanicsforce-velocity relationshipliikkeetHill's equationhyppääminenbiomekaniikkamatemaattiset mallitlihasvoima
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Hill’s Equation in Arm Push of Shot Put and in Braking of Arm Rotation

2019

This chapter consists of the earlier study of shot put where A.V. Hill’s force-velocity relationship was transformed into a constant maximum power model consisting of three different components of power. In addition, the braking phase of the arm rotation movement was examined where Hill’s equation was applied for accelerated motions. Hill’s force-velocity relationship was tested by fitting it into two arm push measurements of shot put experiments and one braking phase of whole arm rotation. Theoretically derived equation for accelerated motions was in agreement with the measured data of shot put experiments and the braking phase of the whole arm rotation experiment. Maximum power in these e…

nopeusmuscle powerHill’s equationarm movementbiomekaniikkakäsivarretarm push in shot putmuscle mechanicsforce-velocity relationshiplihasvoima
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