This paper describes the effect of spectro-temporal factors on human sound localization performance in two dimensions (2D). Subjects responded with saccadic eye movements to acoustic stimuli presented in the frontal hemisphere. Both the horizontal (azimuth) and vertical (elevation) stimulus location were varied randomly. Three types of stimuli were used, having different spectro-temporal patterns, but identically shaped broadband averaged power spectra: noise bursts, frequency-modulated tones, and trains of short noise bursts. In all subjects, the elevation components of the saccadic responses varied systematically with the different temporal parameters, whereas the azimuth response components remained equally accurate for all stimulus conditions. The data show that the auditory system does not calculate a final elevation estimate from a long-term (order 100 ms) integration of sensory input. Instead, the results suggest that the auditory system may apply a “multiple-look” strategy in which the final estimate is calculated from consecutive short-term (order few ms) estimates. These findings are incorporated in a conceptual model that accounts for the data and proposes a scheme for the temporal processing of spectral sensory information into a dynamic estimate of sound elevation.

1.
Batteau
,
D. W.
(
1967
). “
The role of pinna in human localization
,”
Proc. R. Soc. London, Ser. B
168
,
158
180
.
2.
Blauert, J. (1996). Spatial Hearing: The Psychophysics of Human Sound Localization (MIT, Cambridge, MA).
3.
Butler
,
R. A.
, and
Musicant
,
A. D.
(
1993
). “
Binaural localization: Influence of stimulus frequency and the linkage to covert peak areas
,”
Hearing Res.
67
,
220
229
.
4.
Carpenter
,
R. H. S.
, and
Williams
,
M. L. L.
(
1995
). “
Neural computation of log likelihood in control of saccadic eye movements
,”
Nature (London)
377
,
59
62
.
5.
Collewijn
,
H.
,
Van der Mark
,
F.
, and
Jansen
,
T. C.
(
1975
). “
Precise recording of human eye movements
,”
Vision Res.
15
,
447
450
.
6.
Frens
,
M. A.
, and
Van Opstal
,
A. J.
(
1995
). “
A quantitative study of auditory-evoked saccadic eye movements in two dimensions
,”
Exp. Brain Res.
107
,
103
117
.
7.
Gardner
,
M. B.
, and
Gardner
,
R. S.
(
1973
). “
Problem of localization in the median plane: Effect of pinnae occlusion
,”
J. Acoust. Soc. Am.
53
,
400
408
.
8.
Han
,
H. L.
(
1994
). “
Measuring a dummy head in search of pinna cues
,”
J. Audio Eng. Soc.
42
,
15
37
.
9.
Harris
,
C. M.
(
1995
). “
Does saccadic undershoot minimize saccadic flight-time? A Monte-Carlo study
,”
Vision Res.
35
,
691
701
.
10.
Hebrank
,
J.
, and
Wright
,
D.
(
1974
). “
Spectral cues used in the localization of sound sources on the median plane
,”
J. Acoust. Soc. Am.
56
,
1829
1234
.
11.
Hofman, P. M., and Van Opstal, A. J. (1997). “Identification of spectral features as sound localization cues in the external ear acoustics,” in Biological and Artificial Computation: From Neuroscience to Technology, edited by J. Mira, R. Moreno-Dı́az, and J. Cabestany (Springer-Verlag, Berlin).
12.
Kistler
,
D. J.
, and
Wightman
,
F. L.
(
1992
). “
A model of head-related transfer functions based on principal component analysis and minimum-phase reconstruction
,”
J. Acoust. Soc. Am.
91
,
1637
1647
.
13.
Lopez-Poveda
,
E. A.
, and
Meddis
,
R.
(
1996
). “
A physical model of sound diffraction and reflections in the human concha
,”
J. Acoust. Soc. Am.
100
,
3248
3259
.
14.
Makous
,
J. C.
, and
Middlebrooks
,
J. C.
(
1990
). “
Two-dimensional sound localization by human listeners
,”
J. Acoust. Soc. Am.
87
,
2188
2200
.
15.
Mehrgardt
,
S.
, and
Mellert
,
V.
(
1977
). “
Transformation characteristics of the external ear
,”
J. Acoust. Soc. Am.
61
,
1567
1576
.
16.
Middlebrooks
,
J. C.
(
1992
). “
Narrow-band sound localization related to external ear acoustics
,”
J. Acoust. Soc. Am.
92
,
2607
2624
.
17.
Middlebrooks
,
J. C.
,
Makous
,
J. C.
, and
Green
,
D. M.
(
1989
). “
Directional sensitivity of sound-pressure levels in the human ear canal
,”
J. Acoust. Soc. Am.
86
,
89
108
.
18.
Musicant
,
A. D.
, and
Butler
,
R. A.
(
1984
). “
The influence of pinnae-based spectral cues on sound localization
,”
J. Acoust. Soc. Am.
75
,
1195
1200
.
19.
Neti
,
C.
,
Young
,
E. D.
, and
Schneider
,
M. H.
(
1992
). “
Neural network models of sound localization based on directional filtering by the pinnae
,”
J. Acoust. Soc. Am.
92
,
3141
3155
.
20.
Oldfield
,
S. R.
and
Parker
,
S. P.
(
1984a
). “
Acuity of sound localisation: a topography of auditory space. I. Normal hearing conditions
,”
Perception
13
,
581
600
.
21.
Oldfield
,
S. R.
and
Parker
,
S. P.
(
1984b
). “
Acuity of sound localisation: a topography of auditory space. II. Pinna cues absent
,”
Perception
13
,
601
617
.
22.
Press, W. H., Teukolsky, S. A., Vetterling, W. T., and Flannery, B. P. (1992). Numerical Recipes in C (Cambridge U.P., Cambridge, MA), 2nd ed.
23.
Schröder
,
M. R.
(
1970
). “
Synthesis of low-peak-factor signals and binary sequences with low autocorrelation
,”
IEEE Trans. Inf. Theory
16
,
85
89
.
24.
Shaw
,
E. A. G.
(
1974
). “
Transformation of sound pressure level from free field to eardrum in the horizontal plane
,”
J. Acoust. Soc. Am.
56
,
1848
1861
.
25.
Teranishi
,
R.
, and
Shaw
,
E. A. G.
(
1968
). “
External-ear acoustic models with simple geometry
,”
J. Acoust. Soc. Am.
44
,
257
263
.
26.
Van Opstal
,
A. J.
, and
Van Gisbergen
,
J. A. M.
(
1989
). “
Scatter in the metrics of saccades and properties of the collicular motor map
,”
Vision Res.
29
,
1183
1196
.
27.
Viemeister
,
N. F.
, and
Wakefield
,
G. H.
(
1991
). “
Temporal integration and multiple looks
,”
J. Acoust. Soc. Am.
90
,
858
865
.
28.
Wightman
,
F. L.
, and
Kistler
,
D. J.
(
1989
). “
Headphone simulation of free field listening I: stimulus synthesis
,”
J. Acoust. Soc. Am.
85
,
858
867
.
29.
Wightman
,
F. L.
, and
Kistler
,
D. J.
(
1992
). “
The dominant role of low-frequency interaural time differences in sound localization
,”
J. Acoust. Soc. Am.
91
,
1648
1661
.
30.
Zakarouskas
,
P.
, and
Cynader
,
M. S.
(
1993
). “
A computational theory of spectral cue localization
,”
J. Acoust. Soc. Am.
94
,
1323
1331
.
This content is only available via PDF.
You do not currently have access to this content.