Humans use local spectrotemporal correlations to detect rising and falling pitch

Author:

Vaziri Parisa A.,McDougle Samuel D.ORCID,Clark Damon A.ORCID

Abstract

AbstractTo discern speech or appreciate music, the human auditory system detects how pitch increases or decreases over time. However, the algorithms used to detect changes in pitch, or pitch motion, are incompletely understood. Here, using psychophysics, computational modeling, functional neuroimaging, and analysis of recorded speech, we ask if humans detect pitch motion using computations analogous to those used by the visual system. We adapted stimuli from studies of vision to create novel auditory correlated noise stimuli that elicited robust pitch motion percepts. Crucially, these stimuli possess no persistent features across frequency or time, but do possess positive or negative local spectrotemporal correlations in intensity. In psychophysical experiments, we found clear evidence that humans judge pitch direction based on both positive and negative spectrotemporal correlations. The observed sensitivity to negative correlations is a direct analogue of illusory “reverse-phi” motion in vision, and thus constitutes a new auditory illusion. Our behavioral results and computational modeling led us to hypothesize that human auditory processing employs pitch direction opponency. fMRI measurements in auditory cortex supported this hypothesis. To link our psychophysical findings to real-world pitch perception, we analyzed recordings of English and Mandarin speech and discovered that pitch direction was robustly signaled by the same positive and negative spectrotemporal correlations used in our psychophysical tests, suggesting that sensitivity to both positive and negative correlations confers ecological benefits. Overall, this work reveals that motion detection algorithms sensitive to local correlations are deployed by the central nervous system across disparate modalities (vision and audition) and dimensions (space and frequency).

Publisher

Cold Spring Harbor Laboratory

Reference83 articles.

1. D. Hirst , A. Di Cristo , Intonation systems. A survey of Twenty Languages (1998).

2. Tone perception in Far Eastern languages;Journal of phonetics,1983

3. M. J. W. Yip , Tone (Cambridge University Press, 2002).

4. Perceptual motion standstill in rapidly moving chromatic displays;Proc. Natl. Acad. Sci. USA,1999

5. Systemtheoretische Analyse der Zeit-, Reihenfolgen-und Vorzeichenauswertung bei der Bewegungsperzeption des Rüsselkäfers Chlorophanus;Zeits. Naturforsch,1956

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