Open AccessRole of perceptual integration in pitch discrimination at high frequencies
Author(s) -
Anahita H. Mehta,
Andrew J. Oxenham
Publication year - 2022
Publication title -
jasa express letters
Language(s) - English
Resource type - Journals
ISSN - 2691-1191
DOI - 10.1121/10.0013429
Subject(s) - harmonic , acoustics , noise (video) , range (aeronautics) , fundamental frequency , mathematics , speech recognition , computer science , physics , engineering , artificial intelligence , image (mathematics) , aerospace engineering
At very high frequencies, fundamental-frequency difference limens (F0DLs) for five-component harmonic complex tones can be better than predicted by optimal integration of information, assuming performance is limited by noise at the peripheral level, but are in line with predictions based on more central sources of noise. This study investigates whether there is a minimum number of harmonic components needed for such super-optimal integration effects and if harmonic range or inharmonicity affects this super-optimal integration. Results show super-optimal integration, even with two harmonic components and for most combinations of consecutive harmonic, but not inharmonic, components.
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