Abstract
This study explored the relationship between perceived sound image size and speech intelligibility for sound sources reproduced over loudspeakers. Sources with varying degrees of spatial energy spread were generated using ambisonics processing. Young normal-hearing listeners estimated sound image size as well as performed two spatial release from masking (SRM) tasks with two symmetrically arranged interfering talkers. Either the target-to-masker ratio or the separation angle was varied adaptively. Results showed that the sound image size did not change systematically with the energy spread. However, a larger energy spread did result in a decreased SRM. Furthermore, the listeners needed a greater angular separation angle between the target and the interfering sources for sources with a larger energy spread. Further analysis revealed that the method employed to vary the energy spread did not lead to systematic changes in the interaural cross correlations. Future experiments with competing talkers using ambisonics or similar methods may consider the resulting energy spread in relation to the minimum separation angle between sound sources in order to avoid degradations in speech intelligibility.
Highlights
This study explored the relationship between perceived sound image size and speech intelligibility for sound sources reproduced over loudspeakers
In experiment 1, it was shown that a wider energy spread elicited by ambisonics processing did not lead to perceptually larger sound images
In experiment 2, a lower spatial release from masking (SRM) was found for sources with a large energy spread than for sources with a low energy spread
Summary
This study explored the relationship between perceived sound image size and speech intelligibility for sound sources reproduced over loudspeakers. Future experiments with competing talkers using ambisonics or similar methods may consider the resulting energy spread in relation to the minimum separation angle between sound sources in order to avoid degradations in speech intelligibility. Cubick et al (2018) investigated the effect of hearing-aid amplification on spatial release from masking (SRM) and the sound image size of the target and the interferers for normal-hearing listeners. They found larger sound image sizes, as well as a reduced SRM, in the conditions with hearing aids compared to the conditions without hearing aids but did not show a definitive link between the measures. To analyze the potential perceptual cues that may contribute to the sound image size, a variation of the IACC, considering only the early reflections and three octave bands, was analyzed (Okano et al, 1998; Frank, 2013)
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