The Effect of Spectral Variation on Sound Localisation

Abstract

Previous research has suggested that spatialised auditory displays will enhance operator performance in many military settings. It is well known that a sound's spectrum must be broad and relatively flat for the sound to be accurately localised. The study described here examined the effect of systematically varying the evenness of a sound's spectrum on the accuracy with which the sound can be localised. Six participants localised spectrally scrambled sounds produced by setting the sound levels in the 98-, 391- or 1562-Hz wide frequency bands comprising a broadband (0-25 kHz) sound to random values within a 0-, 20-, 40- or 60-dB range. Localisation errors were found to increase with increases in both bandwidth and band-level range. Scrambling the spectra of sounds over a 60 dB range led to as much as a doubling of mean elevation error and a trebling of front/back confusion rate. The accuracy with which these sounds could be localised was found to be highly correlated with a simple measure of spectral variation. The results of this study inform the development of guidelines for designing localisable sounds to be used in spatialised auditory displays.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2006

Accession Number

ADA451868

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