The profile-analysis bandwidth

Abstract

Detection of a change in spectral shape, or profile analysis, appears to be mediated by comparisons across widely separated frequency "channels" rather than by local comparisons among adjacent frequency regions [e.g., Green et al., J. Acoust. Soc. Am. 73, 639-643 (1983)]. Two experiments were conducted in order to determine the "resolution bandwidth" of these channels. The first involved detection of an increment to a single component of a multicomponent background as a function of the number of components in the background. Performance improved as the number of components was increased from 3 to 21. Further increases yielded poorer performance and the estimate of the "resolution bandwidth" from these data suggests that this poorer performance was due simply to masking. The second exepriment involved discrimination of a multicomponent complex having a flat amplitude spectrum from one having a sinusoidally "rippled" amplitude spectrum. The latter experiment yielded somewhat larger estimates of the "resolution bandwidth" than did the former. Finally, profile analysis was investigated under a dichotic condition that precluded peripheral masking of the signal. Our results, like those of Green and Kidd [J. Acoust Soc. Am. 73. 1260-1265 (1983)], suggest that, although spectral analysis can be achieved using information across ears, performance is inferior to that obtained with diotic stimuli.