Perceptual detection thresholds for numerical dispersion in binaural auralizations of two acoustically different rooms
Journal article, 2022

Room acoustic simulations using the finite-difference time-domain method on a wide frequency range can be computationally expensive and typically contain numerical dispersion. Numerical dispersion can be audible and, thus, constitutes an artifact in auralizations. There is a need to measure perceptual thresholds for numerical dispersion to achieve an optimal balance between computational complexity and audibility of dispersion. This work measures the perceptual detection thresholds for numerical dispersion in binaural auralizations of two acoustically different rooms. Numerical dispersion is incorporated into measured binaural room impulse responses (BRIRs) by the means of filters that represent the dispersion that plane waves experience, which propagate in the simulation in the direction of the worst-case dispersion error. The results show that the perceptual detection threshold is generally lower for the most reverberant room and greatly depends on the source signal independently of the room in which the threshold is measured. It is the most noticeable in the pure BRIRs, i.e., with an impulse as source signal, and almost unnoticeable with speech. The results also show that there was no statistical evidence that the perceptual thresholds for the conditions where numerical dispersion was present or absent in the direct path of the BRIRs be different.

TIME-DOMAIN SIMULATION

AUDIBILITY

ERROR

Author

Julie Meyer

Aalto University

Jens Ahrens

Chalmers, Architecture and Civil Engineering, Applied Acoustics

Tapio Lokki

Aalto University

Journal of the Acoustical Society of America

0001-4966 (ISSN) 1520-8524 (eISSN)

Vol. 152 4 2266-2276

Binaural Rendering of Spherical Microphone Array Data

Oculus Inc., 2018-05-01 -- 2019-04-30.

Areas of Advance

Information and Communication Technology

Subject Categories

Other Medical Sciences not elsewhere specified

General Language Studies and Linguistics

Musicology

DOI

10.1121/10.0014830

PubMed

36319249

More information

Latest update

10/26/2023