Abstract
The presented study examines the maximum distance at which listeners can still localize the direction of a nearby wall if the own mouth is the sound source. For this investigation, oral binaural room impulse responses (OBRIRs) were measured with a KEMAR dummyhead with mouth simulator at eight different distances to a wall in an anechoic chamber and two rooms with different reverberation properties. Using a headphone-based dynamic auralization, the participants had to turn until they thought to be facing the wall. In a stair-case inspired procedure, the test always started with the shortest distance of 25 cm. In case of a successful localization at least twice in three trials, the distance could be increased in intervals of 25 cm up to about 2 m. The results exhibit considerable differences in the individual performances, which is in line with results of earlier studies. At a 25 cm-distance, all participants could localize the direction of the reflecting wall. From 50 cm onward, more and more participants found it difficult to determine the correct direction. In the anechoic room, four of the 22 participants succeeded in the localization at the 2 m distance. In the reverberant rooms, the localizability decreased significantly.