Somatosensory attunement to the rigid body laws
Identifieur interne : 001420 ( PascalFrancis/Corpus ); précédent : 001419; suivant : 001421Somatosensory attunement to the rigid body laws
Auteurs : K. Shockley ; M. Grocki ; C. Carello ; M. T. TurveySource :
- Experimental brain research [ 0014-4819 ] ; 2001.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
In the most general case, haptic perception of an object's heaviness is most likely the perception of the object's resistance to movement, determined jointly by the object's mass and mass distribution. In two experiments with occluded objects wielded freely in three dimensions, we showed additive effects on perceived heaviness of mass and the inertia tensor. Our manipulations of the inertia tensor were directed specifically at the volume and symmetry of the inertia ellipsoid, quantities that can be understood as important to controlling the level and patterning of muscular forces, respectively. Ellipsoid volume and symmetry were found to have separate effects on perceptual reports of heaviness that were invariant over different tensors. Independent sensitivities to translational inertia and particular characterizations of rotational inertia suggest specialized somatosensory attunement to the rigid body laws.
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Pour connaître la documentation sur le format Inist Standard.
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Format Inist (serveur)
NO : | PASCAL 01-0191547 INIST |
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ET : | Somatosensory attunement to the rigid body laws |
AU : | SHOCKLEY (K.); GROCKI (M.); CARELLO (C.); TURVEY (M. T.) |
AF : | Center for the Ecological Study of Perception and Action, 406 Babbidge Road, U-20, University of Connecticut/Storrs, CT 06269-1020/Etats-Unis (1 aut., 2 aut., 3 aut., 4 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Experimental brain research; ISSN 0014-4819; Coden EXBRAP; Allemagne; Da. 2001; Vol. 136; No. 1; Pp. 133-137; Bibl. 12 ref. |
LA : | Anglais |
EA : | In the most general case, haptic perception of an object's heaviness is most likely the perception of the object's resistance to movement, determined jointly by the object's mass and mass distribution. In two experiments with occluded objects wielded freely in three dimensions, we showed additive effects on perceived heaviness of mass and the inertia tensor. Our manipulations of the inertia tensor were directed specifically at the volume and symmetry of the inertia ellipsoid, quantities that can be understood as important to controlling the level and patterning of muscular forces, respectively. Ellipsoid volume and symmetry were found to have separate effects on perceptual reports of heaviness that were invariant over different tensors. Independent sensitivities to translational inertia and particular characterizations of rotational inertia suggest specialized somatosensory attunement to the rigid body laws. |
CC : | 002A25E |
FD : | Tâche manuelle; Mouvement corporel; Force; Propriété mécanique; Masse; Perception; Mécanorécepteur; Coordination sensorimotrice; Contrôle moteur; Homme; Perception haptique |
ED : | Manual task; Body movement; Force; Mechanical properties; Mass; Perception; Mechanoreceptor; Sensorimotor coordination; Motor control; Human; Haptic perception |
SD : | Tarea manual; Movimiento corporal; Fuerza; Propiedad mecánica; Masa; Percepción; Mecanorreceptor; Coordinación sensoriomotora; Control motor; Hombre |
LO : | INIST-12535.354000094976460150 |
ID : | 01-0191547 |
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Pascal:01-0191547Le document en format XML
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<EA>In the most general case, haptic perception of an object's heaviness is most likely the perception of the object's resistance to movement, determined jointly by the object's mass and mass distribution. In two experiments with occluded objects wielded freely in three dimensions, we showed additive effects on perceived heaviness of mass and the inertia tensor. Our manipulations of the inertia tensor were directed specifically at the volume and symmetry of the inertia ellipsoid, quantities that can be understood as important to controlling the level and patterning of muscular forces, respectively. Ellipsoid volume and symmetry were found to have separate effects on perceptual reports of heaviness that were invariant over different tensors. Independent sensitivities to translational inertia and particular characterizations of rotational inertia suggest specialized somatosensory attunement to the rigid body laws.</EA>
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