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Further evaluation of a model of loudness perception applied to cochlear hearing loss
1.Bonding, P. (1979). “Critical bandwidth in loudness summation in sensorineural hearing loss,” Br. J. Audiol. 13, 23–30.
2.Bonding, P. , and Elberling, C. (1980). “Loudness summation across frequency under masking and in sensorineural hearing loss,” Audiology 19, 57–74.
3.Fletcher, H. (1940). “Auditory patterns,” Rev. Mod. Phys. 12, 47–65.
4.Fletcher, H. , and Munson, W. A. (1937). “Relation between loudness and masking,” J. Acoust. Soc. Am. 9, 1–10.
5.Florentine, M. , and Houtsma, A. J. M. (1983). “Tuning curves and pitch matches in a listener with a unilateral, low-frequency hearing loss,” J. Acoust. Soc. Am. 73, 961–965.
6.Florentine, M. , and Zwicker, E. (1979). “A model of loudness summation applied to noise-induced hearing loss,” Hearing Res. 1, 121–132.
7.Giguère, C. , and Woodland, P. C. (1994). “A computational model of the auditory periphery for speech and hearing research. I. Ascending path,” J. Acoust. Soc. Am. 95, 331–342.
8.Glasberg, B. R. , and Moore, B. C. J. (1990). “Derivation of auditory filter shapes from notched-noise data,” Hearing Res. 47, 103–138.
9.Greenwood, D. D. (1961). “Critical bandwidth and the frequency coordinates of the basilar membrane,” J. Acoust. Soc. Am. 33, 1344–1356.
10.Greenwood, D. D. (1990). “A cochlear frequency-position function for several species-29 years later,” J. Acoust. Soc. Am. 87, 2592–2605.
11.Houtgast, T. (1974). “Lateral suppression and loudness reduction of a tone in noise,” Acustica 30, 214–221.
12.Killion, M. C. (1978). “Revised estimate of minimal audible pressure: Where is the ‘missing 6 dB’?,” J. Acoust. Soc. Am. 63, 1501–1510.
13.Launer, S. (1995). “Loudness perception in listeners with sensorineural hearing impairment,” Ph.D Thesis, Oldenburg, Germany.
14.Launer, S., Hohmann, V., and Kollmeier, B. (1997). “Modeling loudness growth and loudness summation in hearing-impaired listeners,” in Modeling Sensorineural Hearing Loss, edited by W. Jesteadt (Erlbaum, Mahwah, NJ).
15.Moore, B. C. J. (1986). “Parallels between frequency selectivity measured psychophysically and in cochlear mechanics,” Scand. Audiol. Suppl. 25, 139–152.
16.Moore, B. C. J. (1995). Perceptual Consequences of Cochlear Damage (Oxford University Press, Oxford).
17.Moore, B. C. J. (1997). An Introduction to the Psychology of Hearing, 4th ed. (Academic, San Diego).
18.Moore, B. C. J. (1998). Cochlear Hearing Loss (Whurr, London).
19.Moore, B. C. J. , Alcántara, J. I. , Stone, M. A. , and Glasberg, B. R. (1999a). “Use of a loudness model for hearing aid fitting. II. Hearing aids with multi-channel compression,” Br. J. Audiol. 33, 99–113.
20.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).
21.Moore, B. C. J. , and Glasberg, B. R. (1996). “A revision of Zwicker’s loudness model,” Acust. Acta Acust. 82, 335–345.
22.Moore, B. C. J. , and Glasberg, B. R. (1997). “A model of loudness perception applied to cochlear hearing loss,” Aud. Neurosci. 3, 289–311.
23.Moore, B. C. J. , and Glasberg, B. R. (1998). “Use of a loudness model for hearing aid fitting. I. Linear hearing aids,” Br. J. Audiol. 32, 301–319.
24.Moore, B. C. J. , Glasberg, B. R. , and Baer, T. (1997a). “A model for the prediction of thresholds, loudness, and partial loudness,” J. Audio Eng. Soc. 45, 224–240.
25.Moore, B. C. J. , Glasberg, B. R. , Hess, R. F. , and Birchall, J. P. (1985). “Effects of flanking noise bands on the rate of growth of loudness of tones in normal and recruiting ears,” J. Acoust. Soc. Am. 77, 1505–1515.
26.Moore, B. C. J., Glasberg, B. R., and Stone, M. A. (1999b). “Use of a loudness model for hearing aid fitting. III. A general method for deriving initial fittings for hearing aids with multi-channel compression,” Br. J. Audiol. (in press).
27.Moore, B. C. J., Launer, S., Vickers, D., and Baer, T. (1998). “Loudness of modulated sounds as a function of modulation rate, modulation depth, modulation waveform and overall level,” in Psychophysical and Physiological Advances in Hearing, edited by A. R. Palmer, A. Rees, A. Q. Summerfield, and R. Meddis (Whurr, London).
28.Moore, B. C. J., Vickers, D. A., Baer, T., and Launer, S. (1999c). “Factors affecting the loudness of modulated sounds,” J. Acoust. Soc. Am. (in press).
29.Moore, B. C. J. , Vickers, D. A. , Glasberg, B. R. , and Baer, T. (1997b). “Comparison of real and simulated hearing impairment in subjects with unilateral and bilateral cochlear hearing loss,” Br. J. Audiol. 31, 227–245.
30.Relkin, E. M. , and Doucet, J. R. (1997). “Is loudness simply proportional to the auditory nerve spike count?,” J. Acoust. Soc. Am. 191, 2735–2740.
31.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.
32.Ruggero, M. A. , and Rich, N. C. (1991). “Furosemide alters organ of Corti mechanics: Evidence for feedback of outer hair cells upon the basilar membrane,” J. Neurosci. 11, 1057–1067.
33.Ruggero, M. A. , Rich, N. C. , Recio, A. , Narayan, S. S. , and Robles, L. (1997). “Basilar-membrane responses to tones at the base of the chinchilla cochlea,” J. Acoust. Soc. Am. 101, 2151–2163.
34.Scharf, B. (1970). “Critical bands,” in Foundations of Modern Auditory Theory, edited by J. V. Tobias (Academic, New York).
35.Scharf, B. , and Hellman, R. P. (1966). “Model of loudness summation applied to impaired ears,” J. Acoust. Soc. Am. 40, 71–78.
36.Sellick, P. M. , Patuzzi, R. , and Johnstone, B. M. (1982). “Measurement of basilar membrane motion in the guinea pig using the Mössbauer technique,” J. Acoust. Soc. Am. 72, 131–141.
37.Thornton, A. R. , and Abbas, P. J. (1980). “Low-frequency hearing loss: perception of filtered speech, psychophysical tuning curves, and masking,” J. Acoust. Soc. Am. 67, 638–643.
38.Tyler, R. S. (1986). “Frequency resolution in hearing-impaired listeners,” in Frequency Selectivity in Hearing, edited by B. C. J. Moore (Academic, London).
39.Yates, G. K. (1990). “Basilar membrane nonlinearity and its influence on auditory nerve rate-intensity functions,” Hearing Res. 50, 145–162.
40.Yates, G. K. (1995). “Cochlear structure and function,” in Hearing, edited by B. C. J. Moore (Academic, San Diego).
41.Zwicker, E. (1956). “Die elementaren Grundlagen zur Bestimmung der Informationskapazität des Gehörs,” Acustica 6, 356–381.
42.Zwicker, E. (1958). “Über psychologische und methodische Grundlagen der Lautheit,” Acustica 8, 237–258.
43.Zwicker, E. (1961). “Subdivision of the audible frequency range into critical bands (Frequenzgruppen),” J. Acoust. Soc. Am. 33, 248.
44.Zwicker, E., and Fastl, H. (1990). Psychoacoustics—Facts and Models (Springer, Berlin).
45.Zwicker, E. , Fastl, H. , and Dallmayr, C. (1984). “BASIC-Program for calculating the loudness of sounds from their 1/3-oct. band spectra according to ISO 532B,” Acustica 55, 63–67.
46.Zwicker, E. , Flottorp, G. , and Stevens, S. S. (1957). “Critical bandwidth in loudness summation,” J. Acoust. Soc. Am. 29, 548–557.
47.Zwicker, E. , and Scharf, B. (1965). “A model of loudness summation,” Psychol. Rev. 72, 3–26.
48.Zwislocki, J. (1953). “Acoustic attenuation between the ears,” J. Acoust. Soc. Am. 25, 752–759.
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