Next: About this document ...
Up: Stanford University Department of
Previous: Acknowledgments
- Abe and Smith 2004a
-
Abe, M., and J. O. Smith. 2004a.
AM/FM Rate Estimation and Bias Correction for Time-Varying
Sinusoidal Modeling.
Tech. rept.
STAN-M-118. Stanford University, Department of Music.
- Abe and Smith 2004b
-
Abe, M., and J. O. Smith. 2004b.
CQIFFT: Correcting Bias in a Sinusoidal Parameter Estimator
based on Quadratic Interpolation of FFT Magnitude Peaks.
Tech. rept.
STAN-M-117. Stanford University, Department of Music.
- Abe and Smith 2004c
-
Abe, M., and J. O. Smith. 2004c.
Design Criteria for the Quadratically Interpolated FFT Method
(I): Bias due to Interpolation.
Tech. rept.
STAN-M-114. Stanford University, Department of Music.
- Abe and Smith 2004d
-
Abe, M., and J. O. Smith. 2004d.
Design Criteria for the Quadratically Interpolated FFT Method
(II): Bias due to Interfering Components.
Tech. rept.
STAN-M-115. Stanford University, Department of Music.
- Abe and Smith 2004e
-
Abe, M., and J. O. Smith. 2004e.
Design Criteria for the Quadratically Interpolated FFT Method
(III): Bias due to Amplitude and Frequency Modulation.
Tech. rept.
STAN-M-116. Stanford University, Department of Music.
- Bilbao 2001
-
Bilbao, S. 2001 (May).
Wave and Scattering Methods for the Numerical Integration of
Partial Differential Equation.
Ph.D. thesis, Department of Electrical Engineering, Stanford
University. Available as Stanford University Department of Music Technical
Report
STAN-M-108
($28.00).
- Borish 1984
-
Borish, J. 1984.
Electronic Simulation of Auditorium Acoustics.
Ph.D. thesis, Elec. Eng. Dept., Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-18
($13.00).
- Bosi 1990
-
Bosi, M. 1990 (Aug.).
A Real-Time System for Spatial Distribution of Sound.
Tech. rept.
STAN-M-66. Stanford University Department of Music. ($4.00).
- Carter 1993
-
Carter, N. P. 1993 (Dec.).
A Generalized Approach to Automatic Recognition of Music
Scores.
Tech. rept.
STAN-M-87. Stanford University Department of Music. ($7.00).
- Chafe 1985
-
Chafe, C. 1985 (July).
Bowed String Synthesis and Its Control From a Physical Model.
Tech. rept.
STAN-M-32. Stanford University Department of Music. (Replaced by
STAN-M-48).
- Chafe 1989
-
Chafe, C. 1989.
``Simulating Performance on a Bowed Instrument.''.
In: Pierce, J., and M. V. Mathews (eds), Current
Directions in Computer Music.
MIT Press. Also available as Stanford University Department of Music
Technical Report
STAN-M-48, May 1988 ($4.00).
- Chafe 1990a
-
Chafe, C. 1990a (Sept.).
Pulsed Noise and Microtransients in Physical Models of Musical
Instruments.
Tech. rept.
STAN-M-65. Stanford University Department of Music. ($3.00).
- Chafe 1990b
-
Chafe, C. 1990b.
``Pulsed Noise in Self-Sustained Oscillations of Musical
Instruments.''
In: Proceedings of the International Conference on Acoustics, Speech, and Signal
Processing, Albuquerque.
New York: IEEE Press. Also available as Stanford University
Department of Music Technical Report
STAN-M-61, January 1990 ($3.00).
- Chafe and Jaffe 1986
-
Chafe, C., and D. Jaffe. 1986.
``Source Separation and Note Identification in Polyphonic Music.''
In: Proceedings of the International Conference on Acoustics, Speech, and Signal
Processing, Tokyo.
New York: IEEE Press. Also available as Stanford University
Department of Music Technical Report
STAN-M-34
($3.00).
- Chafe et al. 1985
-
Chafe, C., D. Jaffe, K. Kashima, B. Mont-Reynaud, and J. Smith. 1985.
``Techniques for Note Identification in Polyphonic Music.''
In: Proceedings of the 1985 International Computer Music Conference, Burnaby,
B.C., Canada.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-29, April 1986 ($3.00).
- Chaigne 2004
-
Chaigne, A. 2004.
Coupled Structural-Acoustic Systems. Application to Stringed
Instruments.
Tech. rept.
STAN-M-119. Stanford University, Department of Music.
- Chomyszyn 1995
-
Chomyszyn, J. 1995 (Aug.).
Distance of Sound in Reverberant Fields.
Ph.D. thesis, Department of Music, Stanford University. Available as
CCRMA Technical Report
STAN-M-94
($12.00).
- Chowning 1990
-
Chowning, J. M. 1990 (Mar.).
Music From Machines: Perceptual Fusion and Auditory Perspective
- for Ligeti.
Tech. rept.
STAN-M-64. Stanford University Department of Music. ($4.00).
- Chowning and Mont-Reynaud 1986
-
Chowning, J. M., and B. Mont-Reynaud. 1986 (May).
Intelligent Analysis of Composite Acoustic Signals, Final
Report.
Tech. rept.
STAN-M-36. Stanford University Department of Music. ($4.00).
- Chowning and Sheeline 1982
-
Chowning, J. M., and C. Sheeline. 1982 (Nov.).
Auditory Distance Perception Under Natural Sounding Conditions,
Final Report.
Tech. rept.
STAN-M-12. Stanford University Department of Music. ($5.00).
- Chowning et al. 1974
-
Chowning, J. M., J. M. Grey, L. Rush, and J. A. Moorer. 1974.
Computer Simulation of Music Instrument Tones in Reverberant
Environments.
Tech. rept.
STAN-M-1. Stanford University Department of Music.
- Chowning et al. 1978
-
Chowning, J. M., J. M. Grey, L. Rush, J. A. Moorer, and L. Smith. 1978 (May).
Simulation of Music Instrument Tones in Reverberant
Environments, Final Report.
Tech. rept.
STAN-M-8. Stanford University Department of Music. ($3.00).
- Chowning et al. 1982
-
Chowning, J. M., J. M. Grey, J. A. Moorer, and L. Rush. 1982 (Aug.).
Instrumental Timbre and Related Acoustical Phenomena in the
Perception of Music, Final Report.
Tech. rept.
STAN-M-11. Stanford University Department of Music. ($4.00).
- Chowning et al. 1984
-
Chowning, J. M., L. Rush, B. Mont-Reynaud, C. Chafe, A. Schloss, and J. Smith.
1984 (Jan.).
Intelligent Systems for the Analysis of Digitized Acoustic
Signals, Final Report.
Tech. rept.
STAN-M-15. Stanford University Department of Music. ($6.00).
- Cohen 1980
-
Cohen, E. A. 1980.
The Influence of Nonharmonic Partials on Tone Perception.
Ph.D. thesis, Stanford University. Was available as Stanford
University Department of Music Technical Report
STAN-M-10, though now out of print..
- Cook 1988a
-
Cook, P. R. 1988a (May).
Implementation of Single Reed Instruments with Arbitrary Bore
Shapes Using Digital Waveguide Filters.
Tech. rept.
STAN-M-50. Stanford University Department of Music. ($5.00).
- Cook 1988b
-
Cook, P. R. 1988b (May).
Reverberation Cancellation in Musical Signals Using Adaptive
Filters.
Tech. rept.
STAN-M-51. Stanford University Department of Music. Originally published
June 1987, ($5.00).
- Cook 1989
-
Cook, P. R. 1989.
``Synthesis of the Singing Voice Using a Physically Parameterized
Model of the Human Vocal Tract.''
In: Proceedings of the 1989 International Computer Music Conference, Columbus,
Ohio.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-57
($3.00).
- Cook 1990
-
Cook, P. R. 1990 (Dec.).
Identification of Control Parameters in an Articulatory Vocal
Tract Model, with Applications to the Synthesis of Singing.
Ph.D. thesis, Dept. of Elec. Eng., Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-68
($16.00).
- Cook 1991a
-
Cook, P. R. 1991a.
``LECTOR: An Ecclesiastical Latin Control Language for the
SPASM/Singer Instrument.''
In: Proceedings of the 1991 International Computer Music Conference, Montreal,
Canada.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-76
($3.00).
- Cook 1991b
-
Cook, P. R. 1991b (Aug.).
``Noise and Aperiodicity in the Glottal Source: A Study of Singer
Voices.''
In: Twelfth International Congress of Phonetic Sciences.
Also available as Stanford University Department of Music Technical Report
STAN-M-75
($3.00).
- Cook and Morrill 1989
-
Cook, P. R., and D. Morrill. 1989.
``Hardware, Software, and Compositional Tools for a Real Time
Improvised Solo Trumpet Work.''
In: Proceedings of the 1989 International Computer Music Conference, Columbus,
Ohio.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-56
($3.00).
- Diener 1988a
-
Diener, G. 1988a (May).
Designing Digital Instruments with Hierarchical Waveguide
Networks.
Tech. rept.
STAN-M-49. Stanford University Department of Music. ($4.00).
- Diener 1988b
-
Diener, G. 1988b (May).
TTREES: An Active Data Structure for Computer Music.
Tech. rept.
STAN-M-53. Stanford University Department of Music. ($4.00).
- Diener 1989
-
Diener, G. 1989.
``NUTATION: Structural Organization Versus Graphical Generality in a
Common Music Notation Program.''
In: Proceedings of the 1989 International Computer Music Conference, Columbus,
Ohio.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-59, September 1989 ($3.00).
- Diener 1990
-
Diener, G. 1990 (Dec.).
Modeling Music Notation: A Three-Dimensional Approach.
Ph.D. thesis, Dept. of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-69
($13.00).
- Dyer 1991
-
Dyer, L. 1991 (Dec.).
An Object-Oriented Real-Time Simulation of Music Performance
Using Interactive Control.
Ph.D. thesis, California Institute of Technology. Available as
Stanford University Department of Music Technical Report
STAN-M-78
($16.00).
- Gillespie 1996
-
Gillespie, B. 1996 (Jan.).
Haptic Displays of Systems with Changing Kinematic Constraints:
The Virtual Piano Action.
Ph.D. thesis, Dept. of Mech. Eng. Stanford University. Available
as Stanford University Department of Music Technical Report
STAN-M-92
($12.00).
- Gillespie and O'Modhrain 1995
-
Gillespie, B., and S. O'Modhrain. 1995 (Oct.).
The Moose: A Haptic User Interface for Blind Persons with
Application to the Digital Sound Studio.
Tech. rept.
STAN-M-95. Stanford University Department of Music. ($5.00).
- Gordon 1984
-
Gordon, J. W. 1984.
Perception of Attack Transients in Musical Tones.
Ph.D. thesis, Dept. of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-17
($9.00).
- Gordon 1987
-
Gordon, J. W. 1987.
The Role of Psychoacoustics in Computer Music.
Tech. rept.
STAN-M-38. Stanford University Department of Music. ($4.00).
- Gordon and Strawn 1985
-
Gordon, J. W., and J. Strawn. 1985.
``An Introduction to the Phase Vocoder.''.
In: Strawn, J. (ed), Digital Audio Signal Processing: An
Anthology.
Los Altos, CA: William Kaufmann. Also available as Stanford
University Department of Music Technical Report
STAN-M-55, February 1987 ($6.00).
- Grey 1975
-
Grey, J. M. 1975.
An Exploration of Musical Timbre.
Ph.D. thesis, Dept. of Psychology, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-2
($10.00).
- Hirschman 1991
-
Hirschman, S. 1991 (July).
Digital Waveguide Modeling and Simulation of Reed Woodwind
Instruments.
Ph.D. thesis, Elec. Eng. Dept., Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-72
($12.00).
- Holland 1994
-
Holland, S. 1994 (Sept.).
Learning about Harmony with Harmony Space: an Overview.
Tech. rept.
STAN-M-88. Stanford University Department of Music. ($4.00).
- STAN-M-101 1997
-
STAN-M-101. 1997 (Sept.).
CCRMA Papers Presented at the 1997 International Computer Music
Conference, Thessaloniki, Greece. Stanford University Department of Music
Technical Report, ($6.00).
- STAN-M-16 n.d.
-
STAN-M-16. Listed as Gordon - psychoacoustics, June 1984, though
unable to locate..
- STAN-M-25 n.d.
-
STAN-M-25. Listed as Mont-Reynaud - AI paper, January 1985, though
unable to locate..
- STAN-M-46 n.d.
-
STAN-M-46. Listed as STC Proposal - unable to locate.
- STAN-M-73 1991
-
STAN-M-73. 1991 (Oct.).
CCRMA Papers on Physical Modeling from the 1991 International
Computer Music Conference, Montreal, Canada. Stanford University Department
of Music Technical Report, ($6.00).
- STAN-M-80 1992
-
STAN-M-80. 1992 (Oct.).
Physical Modeling and Signal Processing: CCRMA Papers Presented
at the 1992 International Computer Music Conference, San Jose, CA. Papers by
Cook, Gillespie, Smith, Tanaka, and Van Duyne. Stanford University Department
of Music Technical Report, ($6.00).
- STAN-M-81 1993
-
STAN-M-81. 1993 (Dec.).
CCRMA Papers Presented at the 1993 International Computer Music
Conference, Tokyo, Japan. Papers by Chafe, Cook, Morrill, Smith, and Van
Duyne. Stanford University Department of Music Technical Report, ($5.00).
- STAN-M-89 1994
-
STAN-M-89. 1994 (Sept.).
CCRMA Papers Presented at the 1994 International Computer Music
Conference, Århus, Denmark. Papers by Julius O. Smith, Davide Rochesso,
Scott Van Duyne, David Berners, Gary P. Scavone, Perry R. Cook, John R.
Pierce, Brent Gillespie, Fernando Lopez-Lezcano, Jan Chomyszyn, Enrique
Moreno, Davis A. Jaffe and W. Andrew Schloss. Stanford University Department
of Music Technical Report, ($6.00).
- STAN-M-91 1995
-
STAN-M-91. 1995 (Sept.).
CCRMA Papers Presented at the 1995 International Computer Music
Conference, Banff, Canada. Papers by Marcia L. Bauman, David Berners, Chris
Chafe, Perry R. Cook, David A. Jaffe, Tobias Kunze, Fernando Lopez-Lezcano,
Gary P. Scavone, Julius O. Smith, Tim Stilson, Heinrich Taube, Steven D.
Trautmann and Scott A. Van Duyne. Stanford University Department of Music
Technical Report, ($6.00).
- STAN-M-99 1996
-
STAN-M-99. 1996 (Aug.).
CCRMA Papers Presented at the 1996 International Computer Music
Conference, Hong Kong. Stanford University Department of Music Technical
Report, ($7.00).
- STAN-M-9 1979
-
STAN-M-9. 1979.
Final Report, An Interactive Graphical Environment.
Tech. rept.
STAN-M-9. Stanford University Department of Music. NSF MCS 77-23743 - unable
to locate..
- Igoudin and Smith 1996
-
Igoudin, A., and J. O. Smith (eds). 1996 (May).
CCRMA Report, May 1996.
Stanford University Department of Music Technical Report
STAN-M-98. ($6.00).
- Igoudin 1997
-
Igoudin, A. L. 1997 (June).
Impact of MIDI on Electroacoustic Art Music.
Ph.D. thesis, Dept. of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-102
($14.00).
- Jaffe 1983
-
Jaffe, D. A. 1983.
``Ensemble Timing in Computer Music.''
In: Proceedings of the 1983 International Computer Music Conference, Eastman
School of Music, Rochester, NY.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-23
($3.00).
- Jaffe 1987
-
Jaffe, D. A. 1987.
``Spectrum Analysis Tutorial - Parts I and II.''
Computer Music Journal, 11(2 and 3):9-24. Also available
as Stanford University Department of Music Technical Report
STAN-M-33, Revised 1987 ($6.00).
- Keisler 1988
-
Keisler, D. 1988 (Apr.).
History and Principles of Microtonal Keyboard Design.
Tech. rept.
STAN-M-45. Stanford University Department of Music. ($5.00).
- Keisler 1991
-
Keisler, D. 1991.
Psychoacoustic Factors in Musical Intonation: Beats, Interval
Tuning, and Inharmonicity.
Ph.D. thesis, Dept. of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-70
($16.00).
- Lakatos 1991a
-
Lakatos, S. 1991a (June).
Recognition of Complex Auditory-Spatial Patterns.
Tech. rept.
STAN-M-71. Stanford University Department of Music. ($3.00).
- Lakatos 1991b
-
Lakatos, S. 1991b (Nov.).
Temporal Constraints on Apparent Motion in Auditory Space.
Tech. rept.
STAN-M-74. Stanford University Department of Music. ($3.00).
- Leistikow and
Scavone 2000
-
Leistikow, R., and G. P. Scavone (eds). 2000 (Apr.).
CCRMA Overview, April 2000.
Stanford University Department of Music Technical Report
STAN-M-106. ($6.00).
- Levitin 1992
-
Levitin, D. J. 1992 (June).
Absolute Memory for Musical Pitch: More Than The Melody Lingers
On.
Tech. rept.
STAN-M-79. Stanford University Department of Music. ($5.00).
- Lo 1987
-
Lo, D. Y.-O. 1987 (Aug.).
Towards a Theory of Timbre.
Ph.D. thesis, Dept. of Hearing and Speech, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-42
($18.00).
- Lu 2002
-
Lu, H.-L. 2002 (July).
Toward a High-Quality Singing Synthesizer with Vocal Texture
Control.
Ph.D. thesis, Department of Electrical Engineering, Stanford
University. Available as Stanford University Department of Music Technical
Report
STAN-M-111
($25.00).
- Mathews 1988
-
Mathews, M. V. 1988 (May).
Pickups for the Vibrations of Violin and Guitar Strings Using
Piezoelectric Bimorphic Bender Elements.
Tech. rept.
STAN-M-54. Stanford University Department of Music. ($3.00).
- Mathews and Barr 1988
-
Mathews, M. V., and D. Barr. 1988 (May).
The Conductor Program and Mechanical Baton.
Tech. rept.
STAN-M-47. Stanford University Department of Music. ($3.00).
- Mathews and Pierce 1987a
-
Mathews, M. V., and J. R. Pierce. 1987a (July).
The Acquisition of Musical Percepts with a New Scale.
Tech. rept.
STAN-M-40. Stanford University Department of Music. ($3.00).
- Mathews and
Pierce 1987b
-
Mathews, M. V., and J. R. Pierce. 1987b.
``The Computer as a Musical Instrument.''
Scientific American, 256(2):90-97. Also available as Stanford
University Department of Music Technical Report
STAN-M-37
($3.00).
- McAdams 1984
-
McAdams, S. 1984 (May).
Spectral Fusion, Spectral Parsing and the Formation of Auditory
Images.
Ph.D. thesis, Dept. of Hearing and Speech, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-22
($23.00).
- Mellinger 1991
-
Mellinger, D. K. 1991 (Dec.).
Event Formation and Separation in Musical Sound.
Ph.D. thesis, Dept. of Computer Science, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-77
($23.00).
- Mont-Reynaud 1986
-
Mont-Reynaud, B. 1986.
The Bounded-Q approach to time-varying spectral analysis.
Tech. rept.
STAN-M-28. Stanford University Department of Music. Never published.
- Mont-Reynaud and
Goldstein 1985
-
Mont-Reynaud, B., and M. Goldstein. 1985 (July).
On Finding Rhythmic and Melodic Patterns in Musical Lines.
Tech. rept.
STAN-M-30. Stanford University Department of Music. Out of print.
- Moore 1977
-
Moore, F. R. 1977.
Real Time Interactive Computer Music Synthesis.
Ph.D. thesis, Dept. of Elec. Eng., Stanford University. Available
as Stanford University Department of Music Technical Report
STAN-M-7
($11.00).
- Moorer 1975a
-
Moorer, J. A. 1975a.
On the Loudness of Complex, Time-Variant Tones.
Tech. rept.
STAN-M-4. Stanford University Department of Music. ($4.00).
- Moorer 1975b
-
Moorer, J. A. 1975b.
On the Segmentation and Analysis of Continuous Musical Sound by
Digital Computer.
Ph.D. thesis, Dept. of Computer Science, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-3
($11.00).
- Moorer 1976
-
Moorer, J. A. 1976.
``The Synthesis of Complex Audio Spectra by Means of Discrete
Summation Formulae.''
Journal of the Audio Engineering Society, 24:717-727. Also available as
Stanford University Department of Music Technical Report
STAN-M-5
($3.00).
- Moreno 1995
-
Moreno, E. I. 1995 (Dec.).
Embedding Equal Pitch Spaces and The Question of Expanded
Chromas: An Experimental Approach.
Ph.D. thesis, Dept. of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-93
($12.00).
- Nichols 2001
-
Nichols, C. (ed). 2001 (July).
CCRMA Overview, July 2001.
Stanford University Department of Music Technical Report
STAN-M-107. ($6.00).
- Oppenheim 1989
-
Oppenheim, D. V. 1989.
``DMIX: An Environment for Composition.''
In: Proceedings of the 1989 International Computer Music Conference, Columbus,
Ohio.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-60
($3.00) [Replaced by
STAN-M-83].
- Oppenheim 1992
-
Oppenheim, D. V. 1992.
``Compositional Tools for Adding Expression to Music.''
In: Proceedings of the 1992 International Computer Music Conference, San Jose,
CA.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-82, October 1993 ($3.00).
- Oppenheim 1993a
-
Oppenheim, D. V. 1993a.
``DMIX - A Multi Faceted Environment for Composing and Performing
Computer Music: its Philosophy, Design, and Implementation.''
In: Fourth Biennial Arts and Technology Symposium. Also
available as Stanford University Department of Music Technical Report
STAN-M-83, October 1993 ($3.00) [Supersedes
STAN-M-60].
- Oppenheim 1993b
-
Oppenheim, D. V. 1993b.
``Slappability: A New Metaphor for Human Computer Interaction.''.
In: Music Education: An Artificial Intelligence
Perspective.
London: Springer Verlag. Also available as Stanford University
Department of Music Technical Report
STAN-M-85, October 1993 ($3.00).
- Oppenheim 1993c
-
Oppenheim, D. V. 1993c (Oct.).
Towards a Better Software-Design for Supporing Creative Musical
Activity (CMA).
Tech. rept.
STAN-M-84. Stanford University Department of Music. ($3.00).
- Pierce and Schubert 1987
-
Pierce, J. R., and E. D. Schubert. 1987 (July).
High Level Factors and the Musical Saliency of Auditory
Phenomena.
Tech. rept.
STAN-M-41. Stanford University Department of Music. ($3.00).
- Scavone 1996
-
Scavone, G. P. (ed). 1996 (Jan.).
CCRMA Publications, 1970 - 1995.
Stanford University Department of Music Technical Report
STAN-M-103. ($6.00).
- Scavone 1997
-
Scavone, G. P. 1997 (Mar.).
An Acoustic Analysis of Single-Reed Woodwind Instruments with an
Emphasis on Design and Performance Issues and Digital Waveguide Modeling
Techniques.
Ph.D. thesis, Department of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-100
($22.00) or from
ftp://ccrma-ftp.stanford.edu/pub/Publications/Theses/GaryScavoneThesis/.
- Scavone 1998
-
Scavone, G. P. (ed). 1998 (Jan.).
CCRMA Overview, January 1998.
Stanford University Department of Music Technical Report
STAN-M-104. ($6.00).
- Scavone 1999
-
Scavone, G. P. (ed). 1999 (Feb.).
CCRMA Overview, February 1999.
Stanford University Department of Music Technical Report
STAN-M-105. ($6.00).
- Scavone 2002
-
Scavone, G. P. (ed). 2002 (Apr.).
CCRMA Overview, April 2002.
Stanford University Department of Music Technical Report
STAN-M-109. ($6.00).
- Scavone 2003
-
Scavone, G. P. (ed). 2003 (Apr.).
CCRMA Overview, April 2003.
Stanford University Department of Music Technical Report
STAN-M-112. ($6.00).
- Schloss 1985
-
Schloss, A. W. 1985 (May).
On the Automatic Transcription of Percussive Music - From
Acoustic Signal to High-Level Analysis.
Ph.D. thesis, Department of Hearing and Speech, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-27
($10.00).
- Schottstaedt 1984a
-
Schottstaedt, B. 1984a (May).
Automatic Species Counterpoint.
Tech. rept.
STAN-M-19. Stanford University Department of Music. ($7.00).
- Schottstaedt 1984b
-
Schottstaedt, B. 1984b (Dec.).
PLA - A Tutorial and Reference Manual.
Tech. rept.
STAN-M-24. Stanford University Department of Music. ($9.00).
- Schumacher and Chafe 1990
-
Schumacher, R. T., and C. Chafe. 1990.
``Characterization of Aperiodicity in Nearly Periodic Signals.''
In: Proceedings of the International Conference on Acoustics, Speech, and Signal
Processing, Albuquerque.
New York: IEEE Press. Also available as Stanford University
Department of Music Technical Report
STAN-M-62, December 1989 ($3.00).
- Serra 1988
-
Serra, X. 1988 (May).
An Environment for the Analysis, Transformation and Resynthesis
of Music Sounds.
Tech. rept.
STAN-M-52. Stanford University Department of Music. ($4.00).
- Serra 1989
-
Serra, X. 1989.
A System for Sound Analysis/Transformation/Synthesis Based on a
Deterministic Plus Stochastic Decomposition.
Ph.D. thesis, Department of Music, Stanford University. Available as
Stanford University Department of Music Technical Report
STAN-M-58
($15.00).
- Serra and Wood 1988
-
Serra, X., and P. Wood (eds). 1988 (Mar.).
OVERVIEW, Center for Computer Research in Music and Acoustics
(Recent Work).
Stanford University Department of Music Technical Report
STAN-M-44. (out of print).
- Sheeline 1982
-
Sheeline, C. 1982.
An Investigation of the Effects of Direct and Reverberant Signal
Interactions on Auditory Distance Perception.
Ph.D. thesis, Department of Hearing and Speech, Stanford University.
Available as Stanford University Department of Music Technical Report
STAN-M-13
($14.00).
- Smith 1983
-
Smith, J. O. 1983 (June).
Techniques for Digital Filter Design and System Identification
with Application to the Violin.
Ph.D. thesis, Elec. Eng. Dept., Stanford University. Also available
as Stanford University Department of Music Technical Report
STAN-M-14
($18.00).
- Smith 1984
-
Smith, J. O. 1984.
``An Allpass Approach to Digital Phasing and Flanging.''
In: Proceedings of the 1984 International Computer Music Conference, Paris.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-21
($3.00).
- Smith 1985a
-
Smith, J. O. 1985a.
``Introduction to Digital Filter Theory.''.
In: Strawn, J. (ed), Digital Audio Signal Processing: An
Anthology.
Los Altos, California: William Kaufmann, Inc. Also available as
Stanford University Department of Music Technical Report
STAN-M-20, April 1985 ($5.00).
- Smith 1985b
-
Smith, J. O. 1985b.
``A New Approach to Digital Reverberation Using Closed Waveguide
Networks.''
Pages 47-53 of: Proceedings of the 1985 International Computer Music
Conference, Burnaby, B.C., Canada.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-31
($3.00).
- Smith 1986
-
Smith, J. O. 1986 (May).
Elimination of Limit Cycles and Overflow Oscillations in
Time-Varying Lattice and Ladder Digital Filters.
Tech. rept.
STAN-M-35. Stanford University Department of Music. Short version published
in Proc. IEEE Conf. on Circuits and Systems, San Jose, May 1986.
Full version also available in
STAN-M-39.
- Smith 1987
-
Smith, J. O. 1987.
Music Applications of Digital Waveguides.
Tech. rept.
STAN-M-39. Stanford University Department of Music. (A compendium containing
four related papers and presentation overheads on digital waveguide
reverberation, synthesis, and filtering - $8.00).
- Smith 1990
-
Smith, J. O. 1990.
``Efficient Yet Accurate Models for Strings and Air Columns Using
Sparse Lumping of Distributed Losses and Dispersion.''
In: Proceedings of the Colloquium on Physical Modeling.
Grenoble, France: ACROE. Essentially superceded by Physical
Modeling Using Digital Waveguides, 1992. Also available as Stanford
University Department of Music Technical Report
STAN-M-67, December 1990 ($4.00).
- Smith and Serra 1987
-
Smith, J. O., and X. Serra. 1987.
``PARSHL: A Program for the Analysis/Synthesis of Inharmonic Sounds
Based on a Sinusoidal Representation.''
In: Proceedings of the 1987 International Computer Music Conference,
Champaign-Urbana, Illinois.
International Computer Music Association. Also available as Stanford
Music Department Technical Report
STAN-M-43. HTML, PDF and Compressed PS available
here.
- STAN-M-6 n.d.
-
STAN-M-6. STAN-M-6 never published.
- Strawn 1985
-
Strawn, J. 1985 (June).
Modeling Musical Transitions.
Ph.D. thesis, Department of Music, Stanford University. Available as
CCRMA Technical Report
STAN-M-26
($18.00).
- Taube 1989
-
Taube, H. 1989.
``Common Music: A Music Composition Language in Common Lisp and
CLOS.''
In: Proceedings of the 1989 International Computer Music Conference, Columbus,
Ohio.
International Computer Music Association. Also available as Stanford
University Department of Music Technical Report
STAN-M-63
($3.00) and in Proc. of EUROPAL 90, Cambridge, England,
March 1990.
- Trautmann 1995
-
Trautmann, S. D. 1995 (Dec.).
Some Aspects of Applying Psychoacoustic Principles to Soundfield
Reconstruction.
Ph.D. thesis, Department of Music, Stanford University. Available as
CCRMA Technical Report
STAN-M-96
($13.00).
- Wang 1994
-
Wang, A. L.-C. 1994.
Instantaneous and Frequency-Warped Signal Processing Techniques
for Auditory Source Separation.
Ph.D. thesis, Department of Elec. Eng., Stanford University.
Available as CCRMA Technical Report
STAN-M-86
($18.00).
- Wang and Smith 1994
-
Wang, A. L.-C., and J. O. Smith. 1994 (Nov.).
On Fast FIR Filters Implemented as Tail-Canceling IIR
filters.
Tech. rept.
STAN-M-90. Stanford University Department of Music. ($3.00).
- Wood and Duyne 1994
-
Wood, P., and S. V. Duyne (eds). 1994 (Sept.).
Overview, September 1994.
Stanford University Department of Music Technical Report
STAN-M-97. ($6.00).
Center for Computer Research in Music and Acoustics (CCRMA), Stanford University