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Comparison of different forms of compression using wearable digital hearing aids
1.Boothroyd, A. (1968). “Developments in speech audiometry,” Sound 2, 3–10.
2.Braida, L. D., Durlach, N. I., De Gennaro, S. V., Peterson, P. M., and Bustamante, D. K. (1982). “Review of recent research on multiband amplitude compression for the hearing impaired,” in The Vanderbilt Hearing-Aid Report, edited by G. A. Studebaker and F. H. Bess (Monographs in Contemporary Audiology, Upper Darby, PA).
3.Bustamante, D. K. , and Braida, L. D. (1987). “Multiband compression limiting for hearing-impaired listeners,” J. Rehabil. Res. Dev. 24, 149–160.
4.Byrne, D. et al. (1994). “An international comparison of long-term average speech spectra,” J. Acoust. Soc. Am. 96, 2108–2120.
5.Carhart, R. C. , and Tillman, T. W. (1970). “Interaction of competing speech signals with hearing losses,” Arch. Otolaryngol. 91, 273–279.
6.Cox, R. M. , and Alexander, G. C. (1995). “The abbreviated profile of hearing aid benefit,” Ear Hear. 16, 176–186.
7.Dillon, H. (1996). “Compression? Yes, but for low or high frequencies, for low or high intensities, and with what response times?,” Ear Hear. 17, 287–307.
8.Duquesnoy, A. J. (1983). “Effect of a single interfering noise or speech source on the binaural sentence intelligibility of aged persons,” J. Acoust. Soc. Am. 74, 739–743.
9.Eisenberg, L. S. , Dirks, D. D. , and Bell, T. S. (1995). “Speech recognition in amplitude-modulated noise of listeners with normal and listeners with impaired hearing,” J. Speech Hear. Res. 38, 222–233.
10.Finney, D. J. (1971). Probit Analysis (Cambridge University Press, Cambridge).
11.Goedegebure, A., Hulshof, M., Mass, A. J. J., and Verschuure, J. (1996). “The effects of syllabic compression on speech intelligibility in hearing impaired,” in Psychoacoustics, Speech and Hearing Aids, edited by B. Kollmeier (World Scientific, Singapore).
12.Hickson, L. M. H. (1994). “Compression amplification in hearing aids,” Am. J. Audiol. 3, 51–65.
13.Hohmann, V. , and Kollmeier, B. (1995). “The effect of multichannel dynamic compression on speech intelligibility,” J. Acoust. Soc. Am. 97, 1191–1195.
14.Hood, J. D. (1972). “Fundamentals of identification of sensorineural hearing loss,” Sound 6, 21–26.
15.Houtgast, T. , Steeneken, H. J. M. , and Plomp, R. (1980). “Predicting speech intelligibility in rooms from the modulation transfer function. I. General room acoustics,” Acustica 46, 60–72.
16.Hygge, S. , Rönnberg, J. , Larsby, B. , and Arlinger, S. (1992). “Normal-hearing and hearing-impaired subjects’ ability to just follow conversation in competing speech, reversed speech, and noise backgrounds,” J. Speech Hear. Res. 35, 208–215.
17.Kollmeier, B., and Hohmann, V. (1995). “Loudness estimation and compensation employing a categorical scale,” in Advances in Hearing Research, edited by G. A. Manley, G. M. Klump, C. Köppl, H. Fastl, and H. Oeckinghaus (World Scientific, Singapore).
18.Lippmann, R. P. , Braida, L. D. , and Durlach, N. I. (1981). “Study of multi-channel amplitude compression and linear amplification for persons with sensorineural hearing loss,” J. Acoust. Soc. Am. 69, 524–534.
19.MacLeod, A. , and Summerfield, Q. (1990). “A procedure for measuring auditory and audio-visual speech-reception thresholds for sentences in noise: rationale, evaluation, and recommendations for use,” Br. J. Audiol. 24, 29–43.
20.Moore, B. C. J. (1993). “Signal processing to compensate for reduced dynamic range,” in Recent Developments in Hearing Instrument Technology, edited by J. Beilin and G. R. Jensen (Stougaard Jensen, Copenhagen).
21.Moore, B. C. J. (1998). Cochlear Hearing Loss (Whurr, London).
22.Moore, B. C. J. , Alcántara, J. I. , and Glasberg, B. R. (1998). “Development and evaluation of a procedure for fitting multi-channel compression hearing aids,” Br. J. Audiol. 32, 177–195.
23.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.
24.Moore, B. C. J. , and Glasberg, B. R. (1988). “A comparison of four methods of implementing automatic gain control (AGC) in hearing aids,” Br. J. Audiol. 22, 93–104.
25.Moore, B. C. J. , and Glasberg, B. R. (1997). “A model of loudness perception applied to cochlear hearing loss,” Aud. Neurosci. 3, 289–311.
26.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.
27.Moore, B. C. J. , Glasberg, B. R. , and Stone, M. A. (1991). “Optimization of a slow-acting automatic gain control system for use in hearing aids,” Br. J. Audiol. 25, 171–182.
28.Moore, B. C. J. , Glasberg, B. R. , and Vickers, D. A. (1995). “Simulation of the effects of loudness recruitment on the intelligibility of speech in noise,” Br. J. Audiol. 29, 131–143.
29.Moore, B. C. J. , Johnson, J. S. , Clark, T. M. , and Pluvinage, V. (1992a). “Evaluation of a dual-channel full dynamic range compression system for people with sensorineural hearing loss,” Ear Hear. 13, 349–370.
30.Moore, B. C. J. , Lynch, C. , and Stone, M. A. (1992b). “Effects of the fitting parameters of a two-channel compression system on the intelligibility of speech in quiet and in noise,” Br. J. Audiol. 26, 369–379.
31.Moore, B. C. J. , Peters, R. W. , and Stone, M. A. (1999b). “Benefits of linear amplification and multi-channel compression for speech comprehension in backgrounds with spectral and temporal dips,” J. Acoust. Soc. Am. 105, 400–411.
32.Moore, B. C. J. , Wojtczak, M. , and Vickers, D. A. (1996). “Effect of loudness recruitment on the perception of amplitude modulation,” J. Acoust. Soc. Am. 100, 481–489.
33.Pearsons, K. S., Bennett, R. L., and Fidell, S. (1976). Speech Levels in Various Environments. Report No. 3281 (Bolt, Beranek and Newman, Cambridge, MA).
34.Peters, R. W. , Moore, B. C. J. , and Baer, T. (1998). “Speech reception thresholds in noise with and without spectral and temporal dips for hearing-impaired and normally hearing people,” J. Acoust. Soc. Am. 103, 577–587.
35.Plomp, R. (1983). “The role of modulation in hearing,” in Hearing—Physiological Bases and Psychophysics, edited by R. Klinke and R. Hartmann (Springer, Berlin).
36.Plomp, R. (1988). “The negative effect of amplitude compression in multichannel hearing aids in the light of the modulation-transfer function,” J. Acoust. Soc. Am. 83, 2322–2327.
37.Plomp, R. (1994). “Noise, amplification, and compression: Considerations of three main issues in hearing aid design,” Ear Hear. 15, 2–12.
38.Steinberg, J. C. , and Gardner, M. B. (1937). “The dependency of hearing impairment on sound intensity,” J. Acoust. Soc. Am. 9, 11–23.
39.Stone, M. A. , and Moore, B. C. J. (1992). “Syllabic compression: Effective compression ratios for signals modulated at different rates,” Br. J. Audiol. 26, 351–361.
40.Stone, M. A. , Moore, B. C. J. , Wojtczak, M. , and Gudgin, E. (1997). “Effects of fast-acting high-frequency compression on the intelligibility of speech in steady and fluctuating background sounds,” Br. J. Audiol. 31, 257–273.
41.Takahashi, G. A. , and Bacon, S. P. (1992). “Modulation detection, modulation masking, and speech understanding in noise in the elderly,” J. Speech Hear. Res. 35, 1410–1421.
42.Verschuure, J., and Dreschler, W. A. (1996). “Dynamic compression in hearing aids,” in Psychoacoustics, Speech and Hearing Aids, edited by B. Kollmeier (World Scientific, Singapore).
43.Verschuure, J. , Maas, A. J. J. , Stikvoort, E. , de Jong, R. M. , Goedegebure, A. , and Dreschler, W. A. (1996). “Compression and its effect on the speech signal,” Ear Hear. 17, 162–175.
44.Villchur, E. (1973). “Signal processing to improve speech intelligibility in perceptive deafness,” J. Acoust. Soc. Am. 53, 1646–1657.
45.Yund, E. W. , and Buckles, K. M. (1995). “Enhanced speech perception at low signal-to-noise ratios with multichannel compression hearing aids,” J. Acoust. Soc. Am. 97, 1224–1240.
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