Search results for "Weightless"

showing 10 items of 31 documents

''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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2015

Previous studies have documented the detrimental effects of microgravity on human sensorimotor skills. While that work dealt with simple, laboratory-type skills, we now evaluate the effects of microgravity on a complex, realistic instrument-control skill. Twelve participants controlled a simulated power plant during the short-term microgravity intervals of parabolic flight as well as during level flight. To this end they watched multiple displays, made strategic decisions and used multiple actuators to maximize their virtual earnings from the power plant. We quantified control efficiency as the participants’ net earnings (revenue minus expenses), motor performance as hand kinematics and dyn…

MultidisciplinaryInstrument controlComputer scienceWeightlessnesseducationWork (physics)KinematicsActuatorSimulationTerm (time)Task (project management)PLOS ONE
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European vestibular experiments on the Spacelab-1 mission: 4. Thresholds of perception of whole-body linear oscillation.

1986

Thresholds for the detection of linear oscillatory motion at 0.3 Hz in the X, Y and Z body axes were determined during the flight of Spacelab-1 and on the ground pre- and post-flight, using the method of limits with a single staircase procedure. Pre-flight, Z axis thresholds (mean 0.077 ms-2) were significantly higher than X and Y thresholds (mean 0.029 ms-2). Measures obtained on three crew members in-flight exhibited thresholds greater, by a factor of 1.5-4.3, than those obtained pre-flight. Post-flight, two crew members had significantly elevated X and Y axis thresholds whereas the other two crew members had lowered thresholds in X, Y and Z axes. In general, thresholds had returned to pr…

PhysicsVestibular systemOscillationWeightlessnessbusiness.industryMotion SicknessWeightlessnessGeneral NeuroscienceMathematical analysisAccelerationCrewAdaptation (eye)Space FlightAdaptation PhysiologicalOtolithic MembraneOpticsSensory thresholdSensory ThresholdsPsychophysicsPsychophysicsHumansVestibule LabyrinthWhole bodybusinessKinesthesisExperimental brain research
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Motor imagery

2015

International audience; Before participating in a space mission, astronauts undergo parabolic-flight and underwater training to facilitate their subsequent adaptation to weightlessness. Unfortunately, similar training methods can't be used to prepare re adaptation to planetary gravity. Here, we propose a quick, simple and inexpensive approach that could be used to prepare astronauts both for the absence and for the renewed presence of gravity. This approach is based on motor imagery (MI), a process in which actions are produced in working memory without any overt output. Training protocols based on MI have repeatedly been shown to modify brain circuitry and to improve motor performance in h…

SystemProcess (engineering)Computer sciencePerformanceCognitive NeuroscienceeducationNeuroscience (miscellaneous)VoluntaryMental PracticeSpaceflightMindlaw.inventionlcsh:RC321-571spaceflightExecution03 medical and health sciencesCellular and Molecular NeuroscienceMotor performance0302 clinical medicineMotor imageryDevelopmental NeuroscienceAeronauticslawMechanismsMovement (clockwork)Adaptation (computer science)lcsh:Neurosciences. Biological psychiatry. NeuropsychiatrySimulationWeightlessnessWorking memory[SCCO.NEUR]Cognitive science/Neuroscience030229 sport sciencescountermeasures[ SCCO.NEUR ] Cognitive science/NeurosciencePerspectiveStrengthMotor Imagery030217 neurology & neurosurgeryModelSportsNeuroscienceBrain circuitryFrontiers in Systems Neuroscience
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A MODEL FOR VESTIBULAR FUNCTION IN ALTERED GRAVITATIONAL STATES

1979

ABSTRACT During evolution, the vestibular organ was made to serve mainly two purposes: 1) to guide eye movements during sharp turns, so that the point of fixation in the visual field can be kept steady, a function accomplished by the semicircular canal system and 2) to indicate the terrestrial vertical, so that upright posture and gait can be maintained even in the dark. The otolith system serves the latter purpose. Since the function of the semicircular canal system does not depend on gravity, it is not grossly disturbed by gravitational levels different from 1 g . The proper function of the otolith system depends entirely on the presence of a gravitational force vector of 9.8/m/sec2 direc…

Vestibular systemGravitationPhysicsHypergravityInertial frame of referencemedicine.anatomical_structureSemicircular canalWeightlessnessFixation (visual)medicineAnatomyMechanicsOtolith
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General remarks on the role of the vestibular system in weightlessness

1987

Different methods are described to experimentally achieve weightlessness. Since the function of the otolith system depends on the presence of contact forces opposing gravity, it is disabled in weightlessness and may send misleading positional information to the brain. Without the contributions of the otolith system it is difficult in space to distinguish self-motion from object motion. Furthermore, the disintegration of information from the neck position receptors from those of the otolith system can lead to additional illusory positional sensations. Since the function of the semicircular canal system in previous space flights was found to be essentially undisturbed, the vestibular experime…

Vestibular systemmedicine.medical_specialtyProprioceptionSemicircular canalMotion SicknessWeightlessnessWeightlessnessbusiness.industryEye movementCaloric theoryGeneral MedicineNystagmusSpace FlightAudiologymedicine.anatomical_structureNystagmus PhysiologicOtorhinolaryngologymedicineHumansComputer visionVestibule LabyrinthArtificial intelligencemedicine.symptombusinessOtolithArchives of Oto-Rhino-Laryngology
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Responses to eccentric rotation in two space-bound subjects

1993

Two subjects were rotated eccentrically in the manner described previously. In contrast to a normal control group, settings of a luminous line to the subjective vertical were almost unrelated to the gravitoinertial vector before, and totally so shortly after, space flight. Only 3 days postflight did a clear relation to the gravitoinertial vector re-establish itself in the one subject who actually flew. The correspondence became normal 5 days after the flight. Since there were no clinical abnormalities evident in the subjects, it is suggested that both subjects suppressed their vestibular information, presumably as an effect of vestibular deconditioning training before the flight. In additio…

Vestibular systemmedicine.medical_specialtyRotationWeightlessnessmedia_common.quotation_subjectSpace medicineGeneral MedicineSpace FlightAudiologySpace (commercial competition)RotationOtolithic MembraneDeconditioningReference ValuesOrientationDrug DiscoveryVisual PerceptionmedicineHumansMolecular MedicineEccentricContrast (vision)PsychologyGenetics (clinical)media_commonThe Clinical Investigator
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Effect of water immersion on post-rotatory and caloric nystagmus.

1991

Caloric nystagmus and post-rotatory nystagmus were recorded with and without head-out water immersion. As water immersion reduces body weight by about 90% owing to buoyancy, it decreases somatosensory inputs. Thus water immersion can be used to simulate a weightless environment. Caloric nystagmus was enhanced significantly by water immersion; however, post-rotatory nystagmus was not. These findings demonstrate that caloric nystagmus is easily affected by water immersion which decreases somatosensory inputs, but that post-rotatory nystagmus is not.

medicine.medical_specialtyHot TemperatureRotationChemistryGeneral MedicineNystagmusAudiologyCaloric testBody weightProprioceptionSemicircular CanalsCaloric NystagmusOtorhinolaryngologyWater immersionWeightlessPhysical StimulationImmersionmedicineImmersion (virtual reality)Caloric TestsHumansmedicine.symptomActa oto-laryngologica. Supplementum
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European vestibular experiments on the Spacelab-1 mission: 7. Ocular counterrolling measurements pre- and post-flight.

1986

The static ocular counterrolling (OCR) of the four scientific crew members in the first Spacelab mission was measured during baseline-data-collection before and after the flight of SL-1. It was presumed that the modification of otolithic responses during spaceflight will be reflected in specific changes of the OCR-gain on the first days after recovery. The magnitude of OCR was determined analysing colour-transparencies of subjects right eyes that were produced in different positions of lateral body tilt. In general, one subject did not show any changes at all; three subjects exhibited a significant decrease of OCR-gain after exposure to weightlessness, whereby differences could be found bet…

medicine.medical_specialtyMotion SicknessCrewAdaptation (eye)Otolithic membraneAudiologySpaceflightlaw.inventionOtolithic MembraneOpticslawMedicineHumansSaccule and UtricleVestibular systembusiness.industryWeightlessnessWeightlessnessGeneral NeuroscienceGenetic VariationReflex Vestibulo-Ocularmedicine.diseaseAdaptation PhysiologicalMotion sicknesssense organsbusinessTilt (camera)Experimental brain research
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Effects of rectilinear acceleration and optokinetic and caloric stimulations in space.

1984

During the flight of Spacelab 1 the crew performed a number of experiments to explore changes in vestibular function and visual-vestibular interactions on exposure to microgravity. Measurements were made on the threshold for detection of linear oscillation, vestibulo-ocular reflexes elicited by angular and linear movements, oculomotor and posture responses to optokinetic stimulations, and responses to caloric stimulation. Tests were also conducted on the ground, during the 4 months before and on days 1 to 6 after flight. The most significant result was that caloric mystagmus of the same direction as on the earth could also be evoked in the weightless environment.

medicine.medical_specialtygenetic structuresEye MovementsMovementAccelerationCrewMotion PerceptionNystagmusAudiologyOpticsNystagmus PhysiologicWeightlessmedicineCaloric TestsHumansVestibular systemPhysicsMultidisciplinarymedicine.diagnostic_testbusiness.industryWeightlessnessWeightlessnessCaloric theoryOptokinetic reflexElectrooculographySpace FlightVestibular Function TestsElectrooculographyVisual Perceptionsense organsVestibule Labyrinthmedicine.symptombusinessHeadScience (New York, N.Y.)
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