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C00015 00003	Kruskal, J. B.  Multidimensional scaling by optimizing goodness of fit 
C00025 00004	Schroeder,  M.R.,  Natural  Sounding   Artificial   Reverberation, J.
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American Standard Acostical Terminology. S1.1-1960. 
        American Standards Association, Inc.,  New York (1960). 

Atal, B. S. ,and  Schroeder, M.R., Adaptive  Predictive Coding of  Speech
        Signals, Bell Systems Technical Journal, vol 49, 1973-1986 (1970)

Atal, B. S.,  Hanauer, S.L., Speech Analysis  and Synthesis by  Linear
        Prediction of   the Speech  Wave, J.  Acoust.  Soc.  Am., 50,
        637-655, February (1971).

Backhaus, H.  Uber die Bedeutung der Ausgleichsvorgange in der Austrik.   
        Zeit. Tech. Physik  13, 31-46 (1932). 

Beauchamp, J. W.  A computer system for time-variant harmonic analysis 
        and synthesis of musical tones. in Music by Computers, 
        H. von Foerster &  J. W. Beauchamp, ed.  Wiley, New York (1969). 

Boll, Steven Frank, A Priori  Digital Speech Analysis,  PhD Thesis,
        University of Utah report UTEC-CSc-73-123, March (1973).

Boxer, R.,   Thaler, S.,  A  Simplified   Method  of  Solving  Linear
        and Nonlinear Systems, Proc. IRE, vol 44, 89-101, Jan.(1956).

Boxer, R., A Note  on Numerical Transform Calculus, Proc.   IRE,  vol
        45, #10, 1401-1406, Oct. (1957).

Carroll, J. D., and Chang, J. J.  Analysis of individual differences in 
        multidimensional scaling via an N-way generalization of "Eckart- 
        Young" decomposition.    Psychometrika 35, 283-319 (1970). 

Carroll, J. D., and Wish, M.  Models and methods for three-way
        multidimensional scaling.  in  Contemporary Developments in 
        Mathematical Psychology.  R. C. Atkinson, et. al., eds.
        W. H. Freeman, San Fransisco (1973).

Chowning, J.M.,  The  Simulation of   Moving Sound Sources,  J. Audio
        Eng. Soc., 2-6, (l971).

Chowning, J. M.  The synthesis of complex audio spectra by means of 
        frequency modulation.  J. Audio Eng. Soc. 21, 526-534 (1973). 

Clark, M., Robertson, P., and Luce, D. A.  A preliminary experiment on 
        the perceptual basis for musical instrument families. 
        J. Audio Eng. Soc. 12, 199-203 (1964). 

Clark, M., and Milner, P.  Dependencies of timbre on the tonal loudness 
        produced by musical instruments. 
        J. Audio Eng. Soc.  12, 28-31 (1964). 

Freedman, M. D.  Analysis of musical instrument tones. 
       JASA 41, 793-806 (1967). 

Freedman, M. D., A Method For Analysing Musical Tones, J   Audio  Eng.
        Soc., Vol 16, #4, p419, Oct. (1968).

Freedman, M. D., A   Technique  for  Analysis  of   Musical Instrument
        Tones, PhD dissertation, University of Illinois, Urbana. (1965).

Freedman, M. D.  A method for analysing musical tones.  
        J. Audio Eng. Soc. 16, 419-425 (Oct. 1968). 

Freedman, S. J., and Fischer, H. G.   The role of the pinna in auditory
	localization.   in The Neuropsychology of spatially-oriented 
	behavior.  S. J. Freedman, ed.  Dorsey Press,
	Homewood, Ill. 135-152 (1968).

Gold, B., and  Rader, C. M.  Digital  Processing  of Signals.
        McGraw-Hill Book Company, New York, (1969).

Johnson, S. C.  Hierarchical clustering schemes.  
	Psychometrika  32, 241-254 (1967).

Knudsen, V. O.  Architectural acoustics.  
	Scientific American 209:30, 78-92 (1963).
Kruskal, J. B.  Multidimensional scaling by optimizing goodness of fit 
        to a nonmetric hypothesis. Psychometrica 29, 1-27 (1964a). 

Kruskal, J. B.  Nonmetric multidimensional scaling: a numerical method. 
        Psychometrica 29, 115-129 (1964b). 

Liberman, A. M., Cooper, F. S., Shankweiler, D. P.,and  
        Studdert-Kennedy, M.  Perception of the speech code.  
        Psych. Reveiw 74, 431-461 (1967). 

Luce, D. A.  Physical correlates of nonpercussive nusical instrument 
        tones.   PhD thesis.  MIT (1963). 

Luce, D. A., and Clark, M.  Duration of attack transients of 
        nonpercussive orchestral instruments.  
        J. Audio Eng. Soc. 13, 194-199 (1965). 

Markel, J.D., Digital  Inverse   Filtering  - A New Tool  for Formant
        Trajectory   Estimation,   IEEE   Trans.    on    Audio   and
        Electroacoustics, Vol AU-20, #2, pp129-137, June (1972).

Mathews, M. V.  The Technology of Computer Music. 
        MIT Press, Mass. (1969). 

Mathews, M. V., and Kohout, J.  Electronic simulation of violin 
        resonances.    JASA 53, 1620-1626 (1973). 

Mills, A. W.  On the minimum auditory angle. JASA 30, 237-246 (1958).

Mills, A. W.  Auditory Localization.  in Foundations of Modern Auditory
	Theory, Volume II.  J. V. Tobias, ed.  Academic Press, 301-348
	(1972).

Miller, N. J., Filtering of Singing Voice Signal from Noise by
        Synthesis,   PhD  Thesis,   University of   Utah,   Dept.  Of
        Computer Science, technical report UTEC-CSc-74-013, May,
	(1973).

Moorer, J. A. The heterodyne method of analysis of transient waveforms. 
        Artificial Intelligence Lab, Stanford University (1973). 

Oppenheim,  A.V.,  Schafer,  R.W., Homomorphic   Analysis  of Speech,
        IEEE  Trans. on  Audio and  Electroacoustics, vol  AU-16, #2,
        pp221-226, (1968).

Oppenheim,   A.V.,   Speech   Analysis-Synthesis   System   Based  on
        Homomorphic Filtering,  J. Acoust.  Soc. Am.,  45, pp458-465,
        February (1969).

Plomp, R.  Timbre as a multidimensional attribute of complex tones. 
        in Frequency Analysis and Periodicity Detection in Hearing.  
        R. Plomp and  G. F. Smoorenburg, eds.
        A. W. Sijthoff, Leiden (1970). 

Plomp, R. and Steeneken, H. J. M.  Effects of phase on the timbre of 
        complex tones.   JASA 46, 409-421 (1969). 

Plomp, R. and Steeneken, H. J. M.  Pitch vs. timbre.  
        Seventh Int. Congr. on Acoustics, Budapest (1971). 

Pols, L. C. W.  Perceptual space of vowel-like sounds and its
	correlation with frequency spectrum.  
        in Frequency Analysis and Periodicity Detection in Hearing.  
        R. Plomp and  G. F. Smoorenburg, eds.
        A. W. Sijthoff, Leiden (1970). 

Rader, Charles M., Gold, B., Digital Filter  Design Techniques
        in the Frequency Domain, Proc.  IEEE, vol 55, #2,
        149-171, Feb. (1967).

Risset, J. C.  Computer study of trumpet tones.  Bell Telephone Labs, 
        Murray Hill, New Jersey (1966). 

Risset, J. C., and Mathews, M. V.  Analysis of Musical-Instrument Tones.
	Physics Today, 22, no. 2, 23-30 (1969).
Schroeder,  M.R.,  Natural  Sounding   Artificial   Reverberation, J.
        Audio Eng. Soc. 10, 219 (1962).

Schroeder, M.R.,   Logan, B.F., Colerless   Artificial Reverberation,
        J. Audio Eng. Soc. 9 #3, 192, July (1961).

Schroeder, M.R., Improved Quasi-sterophony and   colerless artificial
        reverberation, J. Acous. Soc. Am., 33, 1061 (1961).

Schroeder, M.R.,   Noll, A.M., Recent  Studies in Speech  Research at
        Bell  Telephone    Laboratories,  Proc.    5th  International
        Congr. Acoustics, Liege, (1965).
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Shepard, R. N.  Analysis of proximities: Multidimensional scaling with
        an unknown distance function. I.
        Psychometrika  27, 125-140 (1962a).

Shepard, R. N.  Analysis of proximities: Multidimensional scaling with
        an unknown distance function. II.
        Psychometrika  27, 125-140 (1962b).

Shepard, R. N.  Psychological representation of speech sounds.
        in  Human Communication: A Unified View.  E. E. David and P. B. 
        Denes, eds.  McGraw-Hill, New York. 67-113 (1972).

Strong, W., and Clark, M.  Synthesis of wind-instrument tones. 
        JASA 41, 39-52 (1967a).