Abstract
The purpose of this study was to investigate the roles of spectral overlap and amplitude modulation (AM) rate for stream segregation for noise signals, as well as to test the build-up effect based on these two cues. Segregation ability was evaluated using an objective paradigm with listeners' attention focused on stream segregation. Stimulus sequences consisted of two interleaved sets of bandpass noise bursts (A and B bursts). The A and B bursts differed in spectrum, AM-rate, or both. The amount of the difference between the two sets of noise bursts was varied. Long and short sequences were studied to investigate the build-up effect for segregation based on spectral and AM-rate differences. Results showed the following: (1). Stream segregation ability increased with greater spectral separation. (2). Larger AM-rate separations were associated with stronger segregation abilities. (3). Spectral separation was found to elicit the build-up effect for the range of spectral differences assessed in the current study. (4). AM-rate separation interacted with spectral separation suggesting an additive effect of spectral separation and AM-rate separation on segregation build-up. The findings suggest that, when normal-hearing listeners direct their attention towards segregation, they are able to segregate auditory streams based on reduced spectral contrast cues that vary by the amount of spectral overlap. Further, regardless of the spectral separation they are able to use AM-rate difference as a secondary/weaker cue. Based on the spectral differences, listeners can segregate auditory streams better as the listening duration is prolonged—i.e., sparse spectral cues elicit build-up segregation; however, AM-rate differences only appear to elicit build-up when in combination with spectral difference cues.
Original language | English (US) |
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Article number | 1151 |
Journal | Frontiers in Psychology |
Volume | 6 |
DOIs | |
State | Published - Aug 7 2015 |
Bibliographical note
Funding Information:This work was supported, in part, by the NIH grant No. DC 008306 to PN and the Doctoral Dissertation Fellowship from the University of Minnesota and funding from the Department of Communication Sciences and Disorders at James Madison University to YN. The authors are indebted to Christophe Micheyl and Andrew Oxenham’s help on modeling the gap discrimination. We are grateful to Bert Schlauch and Neal Viemeister for their constructive suggestions. We also thank Magdalena Wojtczak and William Hartman for their valuable comments, as well as Dinesh Sharma for his advice on the statistical analysis in this work.
Publisher Copyright:
© Copyright © 2015 Nie and Nelson.
Keywords
- amplitude modulation
- auditory scene analysis
- auditory stream segregation
- auditory streaming
- bandpass noise
- build-up segregation
- cochlear implant simulations
- sequential grouping