A model is presented which calculates the intrinsic envelope power of a bandpass noise carrier within the passband of a hypothetical modulation filter tuned to a specific modulation frequency. Model predictions are compared to experimentally obtained amplitude modulation (AM) detection thresholds. In experiment 1, thresholds for modulation rates of 5, 25, and 100 Hz imposed on a bandpass Gaussian noise carrier with a fixed upper cutoff frequency of 6 kHz and a bandwidth in the range from 1 to 6000 Hz were obtained. In experiment 2, three noises with different spectra of the intrinsic fluctuations served as the carrier: Gaussian noise, multiplied noise, and low-noise noise. In each case, the carrier was spectrally centered at 5 kHz and had a bandwidth of 50 Hz. The AM detection thresholds were obtained for modulation frequencies of 10, 20, 30, 50, 70, and 100 Hz. The intrinsic envelope power of the carrier at the output of the modulation filter tuned to the signal modulation frequency appears to provide a good estimate for AM detection threshold. The results are compared with predictions on the basis of the more complex auditory processing model by Dau et al. [J. Acoust. Soc. Am. 99, 3615–3622 (1997)].

1.
Bacon
,
S. P.
, and
Grantham
,
D. W.
(
1989
). “
Modulation masking: Effects of modulation frequency, depth, and phase
,”
J. Acoust. Soc. Am.
85
,
2575
2580
.
2.
Bacon
,
S. P.
, and
Viemeister
,
N. F.
(
1985
). “
Temporal modulation transfer functions in normal-hearing and hearing-impaired listeners
,”
Audiology
24
,
117
134
.
3.
Dau
,
T.
,
Kollmeier
,
B.
, and
Kohlrausch
,
A.
(
1997a
). “
Modeling auditory processing of amplitude modulation: I. Modulation detection and masking with narrow-band carriers
,”
J. Acoust. Soc. Am.
102
,
2892
2905
.
4.
Dau
,
T.
,
Kollmeier
,
B.
, and
Kohlrausch
,
A.
(
1997b
). “
Modeling auditory processing of amplitude modulation: II. Spectral and temporal integration in modulation detection
,”
J. Acoust. Soc. Am.
102
,
2906
2919
.
5.
Dau
,
T.
,
Püschel
,
D.
, and
Kohlrausch
,
A.
(
1996a
). “
A quantitative model of the ‘effective’ signal processing in the auditory system: I. Model structure
,”
J. Acoust. Soc. Am.
99
,
3615
3622
.
6.
Dau
,
T.
,
Püschel
,
D.
, and
Kohlrausch
,
A.
(
1996b
). “
A quantitative model of the ‘effective’ signal processing in the auditory system: II. Simulations and measurements
,”
J. Acoust. Soc. Am.
99
,
3623
3631
.
7.
Fleischer
,
H.
(
1982a
). “
Modulationsschwellen von Schmalbandrauschen
,”
Acustica
51
,
154
161
.
8.
Fleischer
,
H.
(
1982b
). “
Calculating psychoacoustic parameters of amplitude modulated narrow noise bands
,”
Biol. Cybern.
44
,
177
184
.
9.
Forrest
,
T. G.
, and
Green
,
D. M.
(
1987
). “
Detection of partially filled gaps in noise and the temporal modulation transfer function
,”
J. Acoust. Soc. Am.
82
,
1933
1943
.
10.
Green, D. M., and Swets, J. A. (1966). Signal Detection Theory and Psychophysics (Wiley, New York).
11.
Hartmann
,
W. M.
, and
Pumplin
,
J.
(
1988
). “
Noise power fluctuation and the masking of sine signals
,”
J. Acoust. Soc. Am.
83
,
2277
2289
.
12.
Hartmann
,
W. M.
, and
Pumplin
,
J.
(
1991
). “
Periodic signals with minimal power fluctuations
,”
J. Acoust. Soc. Am.
90
,
1310
1317
.
13.
Houtgast
,
T.
(
1989
). “
Frequency selectivity in amplitude-modulation detection
,”
J. Acoust. Soc. Am.
85
,
1676
1680
.
14.
Kohlrausch, A., Fassel, R., and Dau, T. (1999). “The influence of carrier level and frequency on modulation and beat-detection thresholds for sinusoidal carriers,” submitted to J. Acoust. Soc. Am.
15.
Kohlrausch
,
A.
,
Fassel
,
R.
,
van der Heijden
,
M.
,
Kortekaas
,
R.
,
van de Par
,
S.
,
Oxenham
,
A.
, and
Püschel
,
D.
(
1997
). “
Detection of tones in low-noise noise: Further evidence for the role of envelope fluctuations
,”
Acust. Acta Acust.
83
,
659
669
.
16.
Lawson, J. L., and Uhlenbeck, G. E. (1950). Threshold Signals, Vol. 24 of Radiation Laboratory Series (McGraw–Hill, New York).
17.
Levitt
,
H.
(
1971
). “
Transformed up–down procedures in psychoacoustics
,”
J. Acoust. Soc. Am.
49
,
467
477
.
18.
Moore, B. C. J., and Glasberg, B. R. (1986). “The role of frequency selectivity in the perception of loudness, pitch and time,” in Frequency Selectivity in Hearing, edited by B. C. J. Moore (Academic, London), pp. 251–308.
19.
Moore
,
B. C. J.
,
Vickers
,
D. A.
, and
Launer
,
S.
(
1999
). “
Factors affecting the loudness of modulated sounds
,”
J. Acoust. Soc. Am.
105
,
2757
2772
.
20.
Oxenham
,
A. J.
, and
Moore
,
B. C. J.
(
1994
). “
Modeling the additivity of nonsimultaneous masking
,”
Hear. Res.
80
,
105
118
.
21.
Oxenham
,
A. J.
, and
Moore
,
B. C. J.
(
1995
). “
Additivity of masking in normally hearing and hearing-impaired listeners
,”
J. Acoust. Soc. Am.
98
,
1921
1934
.
22.
Oxenham
,
A. J.
, and
Plack
,
C. J.
(
1997
). “
A behavioral measure of basilar-membrane nonlinearity in listeners with normal and impaired hearing
,”
J. Acoust. Soc. Am.
101
,
3678
3687
.
23.
Penner
,
M. J.
(
1980
). “
The coding of intensity and the interaction of forward and backward masking
,”
J. Acoust. Soc. Am.
67
,
608
616
.
24.
Plack
,
C. J.
, and
Oxenham
,
A. J.
(
1998
). “
Basilar-membrane nonlinearity and the growth of forward masking
,”
J. Acoust. Soc. Am.
103
,
1598
1608
.
25.
Pumplin
,
J.
(
1985
). “
Low-noise noise
,”
J. Acoust. Soc. Am.
78
,
100
104
.
26.
Püschel, D. (1988). “Prinzipien der zeitlichen Analyse beim Hören,” Doctoral Thesis, University of Göttingen.
27.
Rhode
,
W. S.
(
1971
). “
Observations of the vibration of the basilar membrane in squirrel monkeys using the Mössbauer technique
,”
J. Acoust. Soc. Am.
49
,
1218
1231
.
28.
Robles
,
L.
,
Ruggero
,
M. A.
, and
Rich
,
N. C.
(
1986
). “
Basilar membrane mechanics at the base of the chinchilla cochlea: I. Input–output functions, tuning curves, and response phases
,”
J. Acoust. Soc. Am.
80
,
1364
1374
.
29.
Rodenburg, M. (1977). “Investigation of temporal effects with amplitude modulated signals” in Psychophysics and Physiology of Hearing, edited by E. F. Evans and J. P. Wilson (Academic, London), pp. 429–437.
30.
van de Par
,
S.
, and
Kohlrausch
,
A.
(
1998
). “
Diotic and dichotic detection using multiplied-noise maskers
,”
J. Acoust. Soc. Am.
103
,
2100
2110
.
31.
Viemeister, N. V. (1977). “Temporal factors in audition: A systems analysis approach,” in Psychophysics and Physiology of Hearing, edited by E. F. Evans and J. P. Wilson (Academic, London), pp. 419–427.
32.
Viemeister
,
N. F.
(
1979
). “
Temporal modulation transfer functions based upon modulation thresholds
,”
J. Acoust. Soc. Am.
66
,
1364
1380
.
33.
Viemeister, N. F., and Plack, C. J. (1993). “Time analysis,” in Human Psychophysics, edited by W. A. Yost, A. N. Popper, and R. R. Fay (Springer, New York), pp. 116–154.
34.
Yates
,
G. K.
(
1990
). “
Basilar membrane nonlinearity and its influence on auditory nerve rate-intensity functions
,”
Hear. Res.
50
,
145
162
.
35.
Zhang
,
C.
, and
Zeng
,
F.-G.
(
1997
). “
Loudness of dynamic stimuli in acoustic and electric hearing
,”
J. Acoust. Soc. Am.
102
,
2925
2934
.
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