Distance-Dependent Head-Related Transfer Functions Measured With High Spatial Resolution Using a Spark Gap

Author

Qu, Tianshu ; Xiao, Zheng ; Gong, Mei ; Huang, Ying ; Li, Xiaodong ; Wu, Xihong

Author_Institution

Key Lab. of Machine Perception (Minist. of Educ.), Peking Univ., Beijing

Volume

17

Issue

6

fYear

2009

Firstpage

1124

Lastpage

1132

Abstract

A measurement of head-related transfer functions (HRTFs) with high spatial resolution was carried out in this study. HRTF measurement is difficult in the proximal region because of the lack of an appropriate acoustic point source. In this paper, a modified spark gap was used as the acoustic sound source. Our evaluation experiments showed that the spark gap was more like an acoustic point source than others previously used from the viewpoints of frequency response, directivity, power attenuation, and stability. Using this spark gap, high spatial resolution HRTFs were measured at 6344 spatial points, with distances from 20 to 160 cm, elevations from -40deg to 90deg, and azimuths from 0deg to 360deg. Based on these measurements, an HRTF database was obtained and its reliability was confirmed by both objective and subjective evaluations.

Keywords

acoustic measurement; headphones; spark gaps; transfer functions; acoustic filters; acoustic sound source; distance-dependent head-related transfer functions; high spatial resolution; spark gap; Acoustic measurements; Acoustic noise; Azimuth; Humans; Laboratories; Loudspeakers; Magnetic heads; Sparks; Spatial resolution; Transfer functions; Acoustic applications; acoustic filters; acoustic measurements; head-related transfer functions (HRTFs); spark gap;

fLanguage

English

Journal_Title

Audio, Speech, and Language Processing, IEEE Transactions on

Publisher

ieee

ISSN

1558-7916

Type

jour

DOI

10.1109/TASL.2009.2020532

Filename

5109764