The present study investigated whether the perception of virtual auditory distance is binaural, monaural, or both. Listeners evaluated the distance of a frontal source of pink noise simulated in a room via headphones. Experiment 1 was performed with eyes closed in a soundproof booth. Experiment 2 was performed with eyes open in the room used to create the stimuli. Individualized and non-individualized stimuli were compared. Different conditions for controlling sound level were tested. The amount of binaural information in the stimuli was varied by mixing the left and right ear signals in different proportions. Results showed that the use of non-individualized stimuli did not impair distance perception. Binaural information was not used by naive listeners to evaluate distance, both with and without visual information available. However, for some listeners, a complete absence of binaural information could disrupt distance evaluation with headphones. Sound level was a dominant cue used by listeners to judge for distance, and some listeners could also reliably use reverberation-related changes in spectral content. In the absence of specific training, artificial manipulation of sound level greatly altered distance judgments.
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