The effects of voluntary movements on auditory-haptic and haptic-haptic temporal order judgments
Identifieur interne : 000390 ( PascalFrancis/Corpus ); précédent : 000389; suivant : 000391The effects of voluntary movements on auditory-haptic and haptic-haptic temporal order judgments
Auteurs : Ilja Frissen ; Mounia Ziat ; Gianni Campion ; Vincent Hayward ; Catherine GuastavinoSource :
- Acta psychologica [ 0001-6918 ] ; 2012.
Descripteurs français
- Pascal (Inist)
English descriptors
- KwdEn :
Abstract
In two experiments we investigated the effects of voluntary movements on temporal haptic perception. Measures of sensitivity (JND) and temporal alignment (PSS) were obtained from temporal order judgments made on intermodal auditory-haptic (Experiment 1) or intramodal haptic (Experiment 2) stimulus pairs under three movement conditions. In the baseline, static condition, the arm of the participants remained stationary. In the passive condition, the arm was displaced by a servo-controlled motorized device. In the active condition, the participants moved voluntarily. The auditory stimulus was a short, 500 Hz tone presented over headphones and the haptic stimulus was a brief suprathreshold force pulse applied to the tip of the index finger orthogonally to the finger movement. Active movement did not significantly affect discrimination sensitivity on the auditory-haptic stimulus pairs, whereas it significantly improved sensitivity in the case of the haptic stimulus pair, demonstrating a key role for motor command information in temporal sensitivity in the haptic system. Points of subjective simultaneity were by-and-large coincident with physical simultaneity, with one striking exception in the passive condition with the auditory-haptic stimulus pair. In the latter case, the haptic stimulus had to be presented 45 ms before the auditory stimulus in order to obtain subjective simultaneity. A model is proposed to explain the discrimination performance.
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Pour connaître la documentation sur le format Inist Standard.
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Format Inist (serveur)
NO : | FRANCIS 12-0430730 INIST |
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ET : | The effects of voluntary movements on auditory-haptic and haptic-haptic temporal order judgments |
AU : | FRISSEN (Ilja); ZIAT (Mounia); CAMPION (Gianni); HAYWARD (Vincent); GUASTAVINO (Catherine) |
AF : | Multimodal Interaction Lab, School of Information Studies, McGill University/Montreal, Québec/Canada (1 aut., 5 aut.); Centre for Interdisciplinary Research in Music Media and Technology (CIRMMT)/Montreal, Québec/Canada (1 aut., 5 aut.); Department of Psychology, Northern Michigan University/Marquette, MI/Etats-Unis (2 aut.); McGill University/Montreal, Québec/Canada (3 aut.); Institut des Systèmes Intelligents et de Robotique, UPMC Univ Paris 06/Paris/France (4 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Acta psychologica; ISSN 0001-6918; Coden APSOAZ; Royaume-Uni; Da. 2012; Vol. 141; No. 2; Pp. 140-148; Bibl. 3/4 p. |
LA : | Anglais |
EA : | In two experiments we investigated the effects of voluntary movements on temporal haptic perception. Measures of sensitivity (JND) and temporal alignment (PSS) were obtained from temporal order judgments made on intermodal auditory-haptic (Experiment 1) or intramodal haptic (Experiment 2) stimulus pairs under three movement conditions. In the baseline, static condition, the arm of the participants remained stationary. In the passive condition, the arm was displaced by a servo-controlled motorized device. In the active condition, the participants moved voluntarily. The auditory stimulus was a short, 500 Hz tone presented over headphones and the haptic stimulus was a brief suprathreshold force pulse applied to the tip of the index finger orthogonally to the finger movement. Active movement did not significantly affect discrimination sensitivity on the auditory-haptic stimulus pairs, whereas it significantly improved sensitivity in the case of the haptic stimulus pair, demonstrating a key role for motor command information in temporal sensitivity in the haptic system. Points of subjective simultaneity were by-and-large coincident with physical simultaneity, with one striking exception in the passive condition with the auditory-haptic stimulus pair. In the latter case, the haptic stimulus had to be presented 45 ms before the auditory stimulus in order to obtain subjective simultaneity. A model is proposed to explain the discrimination performance. |
CC : | 770B05D; 770B05E; 770B05H; 770B04D |
FD : | Mouvement volontaire; Audition; Sensibilité tactile; Perception temps; Perception intermodale; Etude expérimentale; Homme |
FG : | Motricité; Cognition; Perception |
ED : | Voluntary movement; Hearing; Tactile sensitivity; Time perception; Intermodal perception; Experimental study; Human |
EG : | Motricity; Cognition; Perception |
SD : | Movimiento voluntario; Audición; Sensibilidad tactil; Percepción tiempo; Percepción intermodal; Estudio experimental; Hombre |
LO : | INIST-2174.354000509592050020 |
ID : | 12-0430730 |
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Francis:12-0430730Le document en format XML
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<front><div type="abstract" xml:lang="en">In two experiments we investigated the effects of voluntary movements on temporal haptic perception. Measures of sensitivity (JND) and temporal alignment (PSS) were obtained from temporal order judgments made on intermodal auditory-haptic (Experiment 1) or intramodal haptic (Experiment 2) stimulus pairs under three movement conditions. In the baseline, static condition, the arm of the participants remained stationary. In the passive condition, the arm was displaced by a servo-controlled motorized device. In the active condition, the participants moved voluntarily. The auditory stimulus was a short, 500 Hz tone presented over headphones and the haptic stimulus was a brief suprathreshold force pulse applied to the tip of the index finger orthogonally to the finger movement. Active movement did not significantly affect discrimination sensitivity on the auditory-haptic stimulus pairs, whereas it significantly improved sensitivity in the case of the haptic stimulus pair, demonstrating a key role for motor command information in temporal sensitivity in the haptic system. Points of subjective simultaneity were by-and-large coincident with physical simultaneity, with one striking exception in the passive condition with the auditory-haptic stimulus pair. In the latter case, the haptic stimulus had to be presented 45 ms before the auditory stimulus in order to obtain subjective simultaneity. A model is proposed to explain the discrimination performance.</div>
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<ET>The effects of voluntary movements on auditory-haptic and haptic-haptic temporal order judgments</ET>
<AU>FRISSEN (Ilja); ZIAT (Mounia); CAMPION (Gianni); HAYWARD (Vincent); GUASTAVINO (Catherine)</AU>
<AF>Multimodal Interaction Lab, School of Information Studies, McGill University/Montreal, Québec/Canada (1 aut., 5 aut.); Centre for Interdisciplinary Research in Music Media and Technology (CIRMMT)/Montreal, Québec/Canada (1 aut., 5 aut.); Department of Psychology, Northern Michigan University/Marquette, MI/Etats-Unis (2 aut.); McGill University/Montreal, Québec/Canada (3 aut.); Institut des Systèmes Intelligents et de Robotique, UPMC Univ Paris 06/Paris/France (4 aut.)</AF>
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<EA>In two experiments we investigated the effects of voluntary movements on temporal haptic perception. Measures of sensitivity (JND) and temporal alignment (PSS) were obtained from temporal order judgments made on intermodal auditory-haptic (Experiment 1) or intramodal haptic (Experiment 2) stimulus pairs under three movement conditions. In the baseline, static condition, the arm of the participants remained stationary. In the passive condition, the arm was displaced by a servo-controlled motorized device. In the active condition, the participants moved voluntarily. The auditory stimulus was a short, 500 Hz tone presented over headphones and the haptic stimulus was a brief suprathreshold force pulse applied to the tip of the index finger orthogonally to the finger movement. Active movement did not significantly affect discrimination sensitivity on the auditory-haptic stimulus pairs, whereas it significantly improved sensitivity in the case of the haptic stimulus pair, demonstrating a key role for motor command information in temporal sensitivity in the haptic system. Points of subjective simultaneity were by-and-large coincident with physical simultaneity, with one striking exception in the passive condition with the auditory-haptic stimulus pair. In the latter case, the haptic stimulus had to be presented 45 ms before the auditory stimulus in order to obtain subjective simultaneity. A model is proposed to explain the discrimination performance.</EA>
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