Abstract
In order to make full use of their potential to replace experiments in real rooms, auralizations must be as realistic as possible. Recently, it has been shown that for speech, head-tracked binaural auralizations based on measured binaural room impulse responses (BRIRs) can be so realistic, that they become indistinguishable (or nearly so) from the real room [1, 2]. In the present contribution, perceptual comparisons between the auralized and the real room are reported for auralizations based both on measured and simulated BRIRs. In the experiment, subjects sitting in the real room rated the agreement between the real and the auralized room with respect to a number of attributes. The results indicate that for most attributes, the agreement between the auralized and the real room can be very convincing (better than 7.5 on a nine-point scale). This was not only observed for auralizations based on measured BRIRs, but also for those based on simulated BRIRs. In the scenario considered here, the use of individual head-related impulse responses (HRIRs) does not seem to offer any benefit over using HRIRs from a head-and-torso-simulator.
Highlights
Auralization, i.e. making sound fields audible by rendering them via headphones or loudspeakers, has been used for many years, see [3] for an early overview
It has been shown that for speech, head-tracked binaural auralizations based on measured binaural room impulse responses (BRIRs) can be so realistic, that they become indistinguishable from the real room [1, 2]
This was observed for auralizations based on measured BRIRs, and for those based on simulated BRIRs
Summary
Auralization, i.e. making sound fields audible by rendering them via headphones or loudspeakers, has been used for many years, see [3] for an early overview. Despite this long history, the use of auralization as a replacement for listening in a real room has not become widespread. Auralization has much more to offer: It has the potential to replace experiments in real rooms, with applications in architectural acoustics, psychology, therapeutic training, etc.
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