Recherche
Panier électronique
Votre panier ne contient aucune notice
Connexion à la base
(Identifiez-vous pour accéder aux fonctions de mise à jour. Utilisez votre login-password de courrier électronique)
Entrepôt OAI-PMH
 | Consulter la notice détaillée |
 | Version complète en ligne |
 | Version complète en ligne accessible uniquement depuis l'Ircam |
 | Ajouter la notice au panier |
 | Retirer la notice du panier |
(full translation not yet available)
Consultation des notices
| Vue détaillée | Vue Refer | Vue Labintel | Vue BibTeX |
|
%0 Journal Article %A Botte, Marie-Claire %A Drake, Carolyn %A Brochard, Renaud %A McAdams, Stephen %T Perceptual attenuation of nonfocused auditory streams %D 1997 %B Perception and Psychophysics %V 59 %P 419-425 %F Botte97a %K auditory streaming %K attention %K loudness %X The aim of this study was to measure the perceptual attenuation, measured in decibels, resulting from the focusing of attention on one stream within a multi-stream auditory sequence. The intensity of a non-focused stream was increased until the accuracy of detecting a temporal irregularity in this stream was the same as in a focused stream. Eight subjects were required to detect a temporal irregularity created by delaying or advancing one tone which could be situated in one of three temporally regular streams played simultaneously to create a multi-stream sequence. The three streams differed in tempo and frequency. Subjects' attention was focused on one of the streams by preceding the multi-stream sequence with one of the single streams (a cue). We first established the size of temporal irregularity detected at a 90% level in cued streams, confirming that subjects were able to focus on one particular stream. Second, an irregularity of this size was not detected above chance level in non-cued streams, demonstrating that listeners only focus on the cued stream. Third, for five subjects, a 15 dB increase in the level of one of the non-cued streams was necessary to bring detection up to that found in the cued streams. This gain provides an equivalent measure of the perceptual attenuation of non- focused streams. For three other subjects, detection in the non-cued stream remained at chance performance whatever the level. For all subjects, detection in the cued stream decreased slightly as the level of the non-cued stream increased. We conclude that the attenuation of non-focused auditory streams can attain as much as 15 dB, at least for some subjects. %1 1 %2 3 |