Publications
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"A dynamic spatial locator ugen for CLM",
Sound and Music Computing Conference, Berlin, Germany, 07/2008.
Abstract
"Doppler Simulation and the Leslie",
Proc. COST-G6 Conf. Digital Audio Effects (DAFx-02), Hamburg, Germany, vol. 20, no. 2, New York, CCRMA, Stanford University, pp. 13–20, September 26, 2002.
"Don’t Forget the Laptop: Using Native Input Capabilities for Expressive Musical Control",
A NIME Reader: Fifteen Years of New Interfaces for Musical Expression: Springer, 2017.
Abstract
"DMIX: An Environment for Composition",
International Computer Music Conference, Columbus, Ohio, USA, CCRMA, 05/1989.
"DMIX- A Multi Faceted Environment for Composing and Performing Computer Music: Its Design, Philosophy, and Implementation",
Fourth Biennial Arts and Technology Symposium, Stanford, CA, CCRMA, 10/1993.
"Distortion and Pitch Processing Using a Modal Reverberator Architecture",
International Conference on Digital Audio Effects (DAFx-15), Trondheim, Norway, November/2015.
Abstract
Distance of Sound in Reverberant Fields,
, vol. Ph.D., no. STAN-M-94: Department of Music, Stanford University, 08/1995.
"Discrete Time Emulation of the Leslie Speaker",
127th Audio Engineering Society Convention, New York, NY, USA, 10/2009.
Abstract
"Digitizing the Ibanez Weeping Demon Wah Pedal",
International Conference on Digital Audio Effects (DAFx-15), Trondheim, Norway, November/2015.
Abstract
"Digital Waveguide Modeling and Simulation of Reed Woodwind Instruments",
Electrical Engineering, vol. Ph.D., no. STAN-M-72, Stanford, CA, Stanford University, 07/1991.
"Designing Smule's iPhone Ocarina",
New Interfaces for Musical Expression, Pittsburgh, 2009.
Abstract
Designing Digital Instruments with Hierarchical Waveguide Networks,
, Stanford, California, Stanford University, 05/1988.
"Design Principles for Lumped Model Discretisation Using Möbius Transforms",
International Conference on Digital Audio Effects (DAFx-15), Trondheim, Norway, November/2015.
Abstract
Design Criteria for the Quadratically Interpolated FFT Method (III): Bias due to Amplitude and Frequency Modulation,
, no. STAN-M-116: Stanford University, Department of Music, 2004.
Design Criteria for the Quadratically Interpolated FFT Method (II): Bias due to Interfering Components,
, no. STAN-M-115: Stanford University, Department of Music, 2004.
Design Criteria for the Quadratically Interpolated FFT Method (I): Bias due to Interpolation,
, no. STAN-M-114: Stanford University, Department of Music, 2004.
"Design Criteria for Simple Sinusoidal Parameter Estimation based on Quadratic Interpolation of FFT Magnitude Peaks",
Audio Engineering Society Convention, San Francisco, New York, Audio Engineering Society, 2004.
"The Dagstuhl Core",
Knowledge representation for intelligent music processing, no. 09051, Dagstuhl, Germany, Schloss Dagstuhl - Leibniz-Zentrum fuer Informatik, Germany, 2009.
Abstract
