1 |
H. Kruger, T. Lotter, G. Enzner, and P. Vary, "A PC based Platform for Multichannel Realtime Audio Processing," in Proc. of Intl. Workshop on Acoustic Echo and Noise Control (IWAENC), pp. 2529-2532, Kyoto, Japan, Sept. 2003.
|
2 |
M. Buchholz, "A real-time hearing-aid research platform (HARP): Realization, calibration, and evaluation," Acustica united with Acustica, vol. 99, pp. 477-492, 2013.
DOI
|
3 |
U. Rass and G. H. Steeger, "A high performance pocketsize system for evaluations in acoustic signal processing," EURASIP J. of Appl. Sig. Proc., vol. 3, pp. 163-168, 2001.
|
4 |
H. Ali, A. P. Lobo, P. C. Loizou, "Design and Evaluation of a Personal Digital Assistant-based Research Platform for Cochlear Implants," IEEE Trans. Boimedical Engineering, vol. 60, no. 11, Nov. 2013.
|
5 |
Speedgoat GmbH. http://www.speedgoat.ch.
|
6 |
CanHear EU project. http://www.icanhear.eu/
|
7 |
M. A. Stone and B. C. Moore, "Tolerable hearing aid delays. I. Estimation of limits imposed by the auditory path alone using simulated hearing losses," Ear and Hearing, vol. 20, 1999.
|
8 |
M. A. Stone and B. C. Moore, "Tolerable hearing aid delays. III. Effects on speech production and perception of acrossfrequency variation in delay," Ear and Hearing, vol. 24, 2003.
|
9 |
G. W. McNally, "Dynamic range control of digital audio signals," J. Audio. Eng. Soc. vol. 32, pp. 316-327, 1984.
|
10 |
D. Giannoulis, M. Massberg, and J.D. Reiss, "Digital dynamic range compressor design - A tutorial and analysis," J. Audio. Eng. Soc. vol. 60, pp. 399-408, 2012.
|
11 |
H. W. Lollmann and P. Vary, "Uniform and warped low delay filter-banks for speech enhancement," Speech Communication, vol. 49, pp. 574-587, 2007.
DOI
|
12 |
H. W. Lollmann and P. Vary, "Low delay filter-banks for speech and audio processing," Speech and Audio Processing in Adverse Environments, E. Hansler and G. Schmidt, Eds., chapter 2, pp. 13-61, Springer, Berlin, Germany, 2008.
|
13 |
H. Lollmann and P. Vary, "Low delay noise reduction and dereverberation for hearing aids," EURASIP J. Appl. Signal Process., vol. 1 pp. 1-9, 2009.
|
14 |
R. W. Bauml and W. Sorgel, "Uniform polyphase filter banks for use in hearing aids: design and constraints," Proc. the 16th European Signal Processing Conference (EUSIPCO '08), Lausanne, Switzerland, August 2008.
|
15 |
T. van Waterschoot and M. Moonen, "Fifty years of acoustic feedback control: state of the art and future challenges.," Proc. IEEE. vol. 99, pp. 288-327, 2011.
DOI
|
16 |
J. Scheuing and B. Yang, "Frequency shifting for acoustic feedback reduction," European DSP Education and Research Symposium (EDERS) 2006, Munchen, April 2006.
|
17 |
M. Guo, S. H. Jensen, and J. Jensen, "Novel acoustic feedback cancellation approaches in hearing aid applications using probe noise and probe noise enhancement," IEEE Trans. Audio, Speech and Lang. Process., vol. 20 pp. 2549- 2563, 2012.
DOI
|
18 |
C. Boukis, D. P. Mandic, and A. G. Constantinides, "Towards bias minimization in acoustic feedback cancellation systems," Journal of the Acoustical Society of America, vol. 121, pp. 1529-1537, 2007.
DOI
|
19 |
K. Ngo, T. van Waterschoot, M. G. Christensen, M. Moonen, and S. H. Jensen, "Improved prediction error filters for adaptive feedback cancellation in hearing aids," Signal Process., vol. 93 pp. 3062-3075, 2013.
DOI
|
20 |
G. Ma, F. Gran, F. Jacobsen, and F. Agerkvist, "Adaptive Feedback Cancellation with Band-Limited LPC Vocoder in Digital Hearing Aids," IEEE Trans. Audio, Speech, Lang. Process., vol. 19, pp. 677-687, 2011.
DOI
|
21 |
ITU-T Recommendation P.862, Perceptual Evaluation of Speech Quality (PESQ), and Objective Method for End-to- End Speech Quality Assessment of Narrowband Telephone Networks and Speech Coders, Feb. 2001.
|
22 |
M. Guldenschuh and R. Holdrich, "Prediction filter design for active noise cancellation headphones," IET Signal Process., vol. 7, pp. 497-504, 2013.
DOI
|
23 |
박영철, 백용현, "최신 디지털 보청기 기술동향, "정보처리학회지, 제 21권 제 5호, 2014. 9
|
24 |
J. S. Garofolo, L. F. Lamel, W. M. Fisher, J. G. Fiscus, D. S. Pallett, N. L. Dahlgren, and V. Zue, TIMIT Acoustic-Phonetic Continuous Speech Corpus, Philadelphia: Linguistic Data Consortium, 1993.
|
25 |
C. Taal, R. Hendriks, R. Heusdens, and J. Jensen, "An algorithm for intelligibility prediction of time-frequency weighted noisy speech," IEEE Trans. Audio, Speech, Lang. Process., vol. 19, no. 7, pp. 2125-2136, 2011.
DOI
|
26 |
P. Loizou, Speech Enhancement: Theory and Practice, CRC, 2007.
|