Chronological Bibliography of Jont Allen

J. B. Allen
AT&T Lab - Research
Florham Park NJ

References

[1]

J. B. Allen and J. E. Mazo. A decision-free equalization scheme for minimum phase channels. IEEE Trans. on Communications, COM-22, October 1974.

[2]

J. B. Allen. On the aging of steel guitar strings. Catgut Acoustical Society Newsletter, 1976.

[3]

J. B. Allen. Short-term spectral analysis, synthesis, modification by discrete Fourier transform. IEEE Trans. on Speech, Audio, 25:235-238, 1977.

[4]

J. B. Allen. Two-dimensional cochlear fluid model: New results. Journal of the Acoustical Society of America, 61:110-119, 1977.

[5]

J. B. Allen. Cochlear micromechanics - A mechanism for transforming mechanical to neural tuning within the cochlea. Journal of the Acoustical Society of America, 62:930-939, 1977.

[6]

J. B. Allen, D. A. Berkley, and J. Blauert. A multimicrophone signal-processing technique to remove room reverberation from speech signals. Journal of the Acoustical Society of America, 62:912-915, October 1977.

[7]

J. B. Allen and L. R. Rabiner. A unified approach to short-time Fourier analysis, synthesis. Proc. IEEE, 65(11):1558-1564, November 1977.

[8]

A. H. Koenig, J. B. Allen, D. A. Berkley, and T. H. Curtis. Determination of masking-level differences in a reverberant environment. Journal of the Acoustical Society of America, 61:1374-1376, May 1977.

[9]

L. R. Rabiner, R. E. Crochiere, and J. B. Allen. Comparisons of system identification methods in the presence of high noise level, band limited inputs. In Proc. IEEE Int. Conf. Acous., Speech,, Sig. Processing, pages 183-187, Tulsa, OK, March 1978.

[10]

L. R. Rabiner, R. E. Crochiere, and J. B. Allen. FIR system modeling, identification in the presence of noise and with band limited inputs. IEEE Trans. Acous., Speech,, Sig. Processing, ASSP-26(4):319-333, August 1978.

[11]

S. T. Neely and J. B. Allen. Invertability of a room impulse response. Journal of the Acoustical Society of America, 66:165-169, 1979.

[12]

J. B. Allen. FASTFILT - an FFT-based filtering program (Chapter 3). In Digital signal processing programs, pages 1-9. IEEE Press, 1979.

[13]

J. B. Allen. Cochlear models - 1978. In M. Hoke and E. deBoer, editors, Models of the auditory system, related signal processing techniques, volume 9, pages 1-16. Sand. Audiol., 1979.

[14]

J. B. Allen and D. A. Berkley. Image method for efficiently simulating small-room acoustics. Journal of the Acoustical Society of America, 65:943-950, 1979.

[15]

J. B. Allen and L. R. Rabiner. Unbiased spectral estimation, system identification using short-time spectral analysis methods. Bell Syst. Tech. Jour., 58(8):1743-1763, October 1979.

[16]

J. B. Allen and L. R. Rabiner. Unbiased spectral estimation, system identification by DFT. In Proc. Joint Automatic Control Conf., pages 166-172, June 1979.

[17]

J. B. Allen and M. M. Sondhi. Cochlear macromechanics: Time-domain solutions. Journal of the Acoustical Society of America, 66:120-132, 1979.

[18]

L. R. Rabiner and J. B. Allen. Short-time fourier analysis techniques for FIR system identification, power spectrum estimation. IEEE Trans. Acous., Speech,, Sig. Processing, ASSP-27(2):182-192, April 1979.

[19]

J. O. Smith and J. B. Allen. Variable bandwidth adaptive delta modulation. Bell Syst. Tech. Jour., pages 719-737, Jan-Jun 1980.

[20]

J. B. Allen. Cochlear micromechanics: A physical model of transduction. Journal of the Acoustical Society of America, 68(6):1660-1670, 1980.

[21]

L. R. Rabiner and J. B. Allen. On the implementation of a short-time analysis method for system identification. IEEE Trans. Acous., Speech,, Sig. Processing, ASSP-28(1):69-78, February 1980.

[22]

J. B. Allen. Cochlear modeling - 1980. Proc. IEEE Int. Conf. Acous., Speech,, Sig. Processing, pages 768-769, 1981.

[23]

J. B. Allen. Applications of the short-time Fourier transform to speech processing, spectral analysis. In Proc. ASSP Workshop on Spectral Estimation, pages 6.3.1-6.3.5, 1981.

[24]

J. B. Allen. Cochlear modeling - 1980. In Mark H. Holmes and Lester A. Rubenfeld, editors, Lecture notes in biomathematics: Mathematical modeling of the Hearing Process, volume 43, pages 1-8, New York, 1981. Springer-Verlag.

[25]

R. Yarlagadda and J. B. Allen. Aliasing errors in short-time analysis. Signal Processing, 4:79-84, 1982.

[26]

J. B. Allen. A hair cell model of neural response. In E. deBoer and M. A. Viergever, editors, Mechanics of hearing. Delft Univ. Press, Delft, The Netherlands, 1983.

[27]

J. B. Allen. Magnitude and phase-frequency response to single tones in the auditory nerve. Journal of the Acoustical Society of America, 73(6):2071-2092, 1983.

[28]

J. B. Allen and P. F. Fahey. Nonlinear behavior at threshold determined in the auditory canal, on the auditory nerve. In R. Klinke and R. Hartman, editors, Hearing: Physiological bases, psychophysics, and behavioral studies, pages 128-134. Springer-Verlag, Bad Nauheim, Germany, 1983.

[29]

P. F. Fahey and J. B. Allen. Nonlinear phenomena as observed in the ear canal, and at the auditory nerve. Journal of the Acoustical Society of America, 77(2):599-612, February 1985.

[30]

P. F. Fahey and J. B. Allen. Characterization of cubic intermodulation distortion products in the cat external auditory meatus. In M. Hoke and E. DeBoer, editors, Models of the Auditory System and Related Signal Processing Techniques, pages 1-16. Scandinavian Audiology, Supplementum 9, 1985.

[31]

J. B. Allen. Cochlear modeling. IEEE ASSP Magazine, 2(1), 1985.

[32]

I. W. Sandberg and J. B. Allen. Almost periodic response determination for models of the basilar membrane. AT&T Tech. Jour., 64(8):1775-1786, October 1985.

[33]

J. B. Allen, J. L. Hall, A. Hubbard, S. T. Neely, and A. Tubis. Peripheral auditory mechanisms. Springer Verlag, Heidelberg, New York, 1986.

[34]

J. B. Allen. Measurement of eardrum acoustic impedance. In J. B. Allen, J. L. Hall, A. Hubbard, S. T. Neely, and A. Tubis, editors, Peripheral Auditory Mechanisms, pages 44-51, New York, 1986. Springer Verlag.

[35]

P. F. Fahey and J. B. Allen. Characterizations of cubic intermodulation distortion products in the cat external auditory meatus. In J. B. Allen, J. L. Hall, A. Hubbard, S. T. Neely, and A. Tubis, editors, Peripheral auditory mechanisms, pages 314-321. Springer Verlag, 1986.

[36]

I. W. Sandberg and J. B. Allen. Steady state determination for models of the basilar membrane. In J. B. Allen, J. L. Hall, A. Hubbard, S. T. Neely, and A. Tubis, editors, Peripheral auditory mechanisms, pages 338-345. Springer Verlag, 1986.

[37]

J. B. Allen. Cochlear signal processing. In A. F. Jahn and J. Santos-Sacchi, editors, Physiology of the ear, pages 243-270. Raven Press, 1988.

[38]

J. B. Allen. Is the basilar membrane tuning the same as neural tuning-where do we stand? In J. P. Wilson and D. T. Kemp, editors, Cochlear mechanisms - Structure, function,, models, volume Nato ASI Series. Plenum Press, 1988.

[39]

P. Fahey and J. B. Allen. Power law features of acoustic distortion product emissions. In H. Diufhuis, J. W. Horst, and H. P. Wit, editors, Basic issues in hearing, pages 124-134. Academic Press, London, 1988.

[40]

J. B. Allen, J. L. Hall, and P. S. Jeng. Loudness growth in 1/2-octave bands (LGOB)-A procedure for the assessment of loudness. J. Acoust. Soc. Am, 88(2):745-753, August 1990.

[41]

J. B. Allen. Modeling the noise damaged cochlea. In P. Dallos, C. D. Geisler, J. W. Matthews, M. A. Ruggero, and C. R. Steele, editors, The Mechanics and Biophysics of Hearing, pages 324-332, New York, 1991. Springer-Verlag.

[42]

S. Puria and J. B. Allen. A parametric study of cochlear input impedance. J. Acoust. Soc. Am., 1(89):287-309, January 1991.

[43]

J. B. Allen and S. T. Neely. Micromechanical models of the cochlea. Physics Today, 45(7):40-47, July 1992.

[44]

J. B. Allen and P. F. Fahey. Using acoustic distortion products to measure the cochlear amplifier gain on the basilar membrane. Journal of the Acoustical Society of America, 92(1):178-188, July 1992.

[45]

J. B. Allen. New methods for the measurment, evaluation of room acoustics. ICA, 14(F2-10), 1992.

[46]

J. B. Allen and B. L. Lonsbury-Martin. Otoacoustic emissions. Journal of the Acoustical Society of America, 93(1):568-569, January 1993.

[47]

J. B. Allen and P. F. Fahey. A second cochlear-frequency map that correlates distortion product, neural tuning measurements. Journal of the Acoustical Society of America, 94(2, Pt. 1):809-816, August 1993.

[48]

J. B. Allen and P. F. Fahey. Evidence for a second cochlear map. In H. Dufhuis, J. W. Horst, P. van Dijk, and S. M. van Netten, editors, Biophysics of hair cell sensory systems, pages 296-303. World Scientific, Singapore, New Jersey, London, Hong Kong, 1993.

[49]

J. B. Allen. Response to deBoer regarding BM tuning. In H. Dufhuis, J. W. Horst, P. van Dijk, and S. M. van Netten, editors, Biophysics of hair cell sensory systems, page 304. World Scientific, Singapore, New Jersey, London, Hong Kong, 1993.

[50]

D. A. Berkley and J. B. Allen. Normal listeners in typical rooms: the physical, psychophysical correlates of reverberation. In G. Studebaker and I. Hochberg, editors, Acoustical Factors Affecting Hearing Aid Performance, pages 3-14. Allyn, Bacon, Boston, second edition, 1993.

[51]

S. E. Voss and J. B. Allen. Measurement of acoustic impedance and reflectance in the human ear canal. J. Acoust. Soc. Am., 95(1):372-384, January 1994.

[52]

J. B. Allen. How do humans process and recognize speech? IEEE Trans. on Speech and Audio Proc., 2(4):567-577, October 1994.

[53]

M.R. Sydorenko and J. B. Allen. The relationship between the difference limen (DL) in intensity and the masked threshold of sub-critical bandwidth signals. Journal of the Acoustical Society of America, 95(5):2942, May 1994.

[54]

P. A. Z. Garbes and J. B. Allen. Deriving human neural tuning curves from a mechanical model of the cochlea. Journal of the Acoustical Society of America, 95, 1994.

[55]

Harvey Fletcher. Speech and Hearing in Communication. In Jont B. Allen, editor, The ASA edition of Speech and Hearing in Communication. Acoustical Society of America, New York, 1995.

[56]

Jont B. Allen. Harvey Fletcher 1884-1981. In Jont B. Allen, editor, The ASA edition of Speech, Hearing in Communication, pages A1-A34. Acoustical Society of America, Woodbury, New York, 1995.

[57]

J. B. Allen, G. Shaw, and B. P. Kimberley. Characterization of the nonlinear ear canal impedance at low sound levels. ARO, 18(757):190, February 1995.

[58]

M. Sydorenko and J. B. Allen. The relationship between the just noticable difference (JND) in intensity and the masked threshold of sub-critical bandwidth signals. In Midwinter research meeting. ARO, 1995.

[59]

J. B. Allen. DeRecruitment by multiband compression in hearing aids. In W. Jesteadt and et al., editors, Modeling Sensorineural Hearing Loss, pages 99-112. Lawrence Erlbaum, Inc., Hillsdale, NJ, 1996.

[60]

J. B. Allen. How do humans process and recognize speech. In R.P. Ramachandran and R.J. Mammone, editors, Modern Methods of speech processing, pages 251-275. Kluwerk books, Boston, 1996.

[61]

J. B. Allen. DeRecruitment by multiband compression in hearing aids. In B. Kollmeier, editor, Psychoacoustics, speech, and hearing aids, pages 141-152. World Scientific Press, Singapore, 1996.

[62]

J. B. Allen. Harvey Fletcher's role in the creation of communication acoustics. Journal of the Acoustical Society of America, 99(4):1825-1839, April 1996.

[63]

J. B. Allen. OHCs shift the excitation pattern via BM tension. In E.R. Lewis, G.R. Long, R.F. Lyon, P.M. Narins, C.R. Steel, and E. Hecht-Poinar, editors, Diversity in auditory mechanics, pages 167-175. World Scientific Press, Singapore, 1997.

[64]

S. T. Neely and J. B. Allen. Relation between the rate of growth of loudness and the intensity DL. In W. Jesteadt and et al., editors, Modeling Sensorineural Hearing Loss, pages 213-222. Lawrence Erlbaum, Inc., Hillsdale, NJ, 1996.

[65]

P. F. Fahey and J. B. Allen. Measurement of distortion product phase in the ear canal of cat. Journal of the Acoustical Society of America, 102(5):2880-2891, November 1997.

[66]

S. Puria and J. B. Allen. Cat middle-ear measurements and model: Evidence of acoustic delay in the tympanic membrane. ARO, 20:ABST:193, February 1997.

[67]

D. Sen and J. B. Allen. A new auditory masking model for speech and audio coders. In 1997 IEEE workshop on speech coding for telecommunications proceedings, pages 53-54. IEEE, 1997.

[68]

J. B. Allen and D. Sen. A time domain model of cochlear transduction incorporation OHC non-linear compression. ARO, 20(Abs 248):62, February 1997.

[69]

J. B. Allen and S. T. Neely. Modeling the relation between the intensity JND and loudness for pure tones and wide-band noise. Journal of the Acoustical Society of America, 102(6):3628-3646, December 1997.

[70]

Jont B. Allen. A short history of telephone psychophysics. Audio Engineering Society, Reprint 4636:1-37, September 1997.

[71]

B.P. Kimberley, D.K. Brown, and J. B. Allen. Distortion product emissions and sensorineural hearing loss. In Martin S. Robinette and Theodore J. Glattke, editors, Otoacoustic emissions, Clinical Applications, pages 181-204, New York, Stuttgart, 1997. Thieme.

[72]

S. Puria and Jont B. Allen. Measurements and model of the cat middle ear: Evidence of tympanic membrane acoustic delay. Journal of the Acoustical Society of America, 104(6):3463-3481, December 1998.

[73]

S. T. Neely and J. B. Allen. Predicting the intensity JND from the loudness of tones and noise. In Psychophysical and Physiological advances in hearing, pages 458-464, 19B Compton Terrace, London N1 2UN, England, 1998. Whurr Publishers LTD. ISH Meeting, England.

[74]

J.J. Johnston, J. Herre, S. Quackenbush, J. Allen, M. Dietz, G. Davidson, and T. Boltze. A tutorial on perceptual audio coding. In Workshop on Perceptual Audion Coding Techniques, San Francisco, Ca, 1998. 105th AES Conf.

[75]

J. B. Allen. Recruitment compensation as a hearing aid signal processing strategy. In IEEE, editor, ISCAS 1998, pages Talk TAA11-1, 4 pages, Piscataway, NJ, 1998. Naval Postgraduate school, Monterey CA.

[76]

J.B. Allen. A bio-mechanical model of the ear to predict auditory masking. Journal of the Acoustical Society of America, 1999. December 98: submitted for release.

[77]

Jont B. Allen. Discrete fourier transform normalization - a proposal. IEEE Trans. on Speech, Audio, 1999. December: Not submitted for release, reviewed by rich.

[78]

J. B. Allen. Psychoacoustics. In John G. Webster, editor, Wiley Encyclopedia of Electrical and Electronics Engineering, volume 17, pages 422-437. John Wiley & Sons, Inc, New York, NY, 1999.

[79]

J. B. Allen and D. Sen. Otoacoustic emissions as probes of cochlear micromechanics. ARO, 22(ABST:209):53, February 1999.

[80]

J.B. Allen. Derecruitment by multiband compression in hearing aids. In C.I. Berlin, editor, The Efferent Auditory System, chapter 4, pages 73-86. Singular, 401 West A St., Suite 325, San Diego, CA 92101, 1999. Includes a CDROM video talk by Jont Allen in MP3 format.

[81]

J. B. Allen. An analysis of the basilar membrane response to low frequency tones. ARO, 22(ABST:342):87, February 1999.

[82]

D. Sen and J. B. Allen. Reproducing upward spread of masking and two-tone suppression using a nonlinear model of the cochlea. ARO, 22(ABST:480):121, February 1999.

[83]

J.B. Allen and Deep Sen. Is tectorial membrane filtering required to explain two tone suppression and the upward spread of masking? In Hiroshi Wada and Tomonori Takasaka, editors, Recent developments in Auditory Mechanics, chapter 29A02. World Scientific Publishing Co., PO Box 128, Farrer Road, Sinapore 912805, 1999.

[84]

J. Allen. Synthesis of pure speech from a reverberant signal. U. S. Patent #3,786,188, 15 Jan. 1974.

[85]

J. Allen. Method and apparatus for cancelling room reverberation and noise pickup. U. S. Patent #4,066,842, 3 Jan. 1978.

[86]

J. Allen. Data over voice transmission arrangement. U. S. Patent #4,442,540, 10 April 1984.

[87]

J. Allen. Noise and bit rate reduction arrangements. U. S. Patent #4,417,102, 22 November 1983.

[88]

J. Allen and O. Gitza. Analysis arrangement based on a model of human neural responses. U. S. Patent #4,905,285, 27 Feb. 1990.

[89]

J. Allen and J. Songrady. Method for customer selection of telephone sound enhancement. U.S. Patent #5,539,806, July 1996.

[90]

Allen, Dorward, Johnston, and Sydorenko. Tonality for perceptual audio compression based on loudness uncertainty. Patent #5,737,389, April 1998.

[91]

J. Allen and D. Youtkus. Background noise compensation in a telephone set. U. S. Patent #5,524,148, 4 June 1996.

[92]

M. Killion, F. Waldhauer, J. Wittkowski, R. Goode, and J. Allen. Hearing aid having plural microphones and a microphone switching system. Patent #5,524,056, June 1996.

[93]

J. Allen and D. Youtkus. Background noise compensation in a telephone network. U. S. Patent #5,485,515, 1 Jan. 1996.

[94]

J. Allen. Method and system for ensuring royalty payments for data delivered over a network. U. S. Patent Filed, 23 July 1996.

[95]

J. Allen. A technique for determining a compression ratio for use in processing audio signals within a telecommunications system. 5737389, April 7 1998.