Search results for "Motor commands"

showing 2 items of 2 documents

Flexible switching of feedback control mechanisms allows for learning of different task dynamics.

2013

To produce skilled movements, the brain flexibly adapts to different task requirements and movement contexts. Two core abilities underlie this flexibility. First, depending on the task, the motor system must rapidly switch the way it produces motor commands and how it corrects movements online, i.e. it switches between different (feedback) control policies. Second, it must also adapt to environmental changes for different tasks separately. Here we show these two abilities are related. In a bimanual movement task, we show that participants can switch on a movement-by-movement basis between two feedback control policies, depending only on a static visual cue. When this cue indicates that the …

AdultAnatomy and PhysiologyCognitive NeuroscienceMovementFeedback controlNeurophysiologylcsh:MedicineMotor ActivitySocial and Behavioral SciencesNeurological SystemFeedbackMotor ReactionsYoung Adult03 medical and health sciencesLearning and Memory0302 clinical medicineHuman–computer interactionTask Performance and AnalysisMotor systemReaction TimePsychologyLearningHumansMotor activitylcsh:ScienceBiologySensory cue030304 developmental biologyMotor SystemsComputational NeurosciencePhysics0303 health sciencesMultidisciplinarybusiness.industrylcsh:RCognitive PsychologyMotor commandsRoboticsMental HealthArmMedicinelcsh:QArtificial intelligenceCuesbusiness030217 neurology & neurosurgeryHuman learningResearch ArticleNeurosciencePLoS ONE
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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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