Publications
Filters: Author is Julius O. Smith [Clear All Filters]
"Efficient Time-Varying Loudness Estimation via the Hopping Goertzel DFT",
Proceedings of the IEEE International Midwest Symposium on Circuits and Systems (MWSCAS-2007), 2007.
"Simulation of Recruiting Hearing Impairment Using a Tree-Structured Allpass-Complementary ERB-Band Filter Bank",
IEEE Workshop on Appl. Signal Processing to Audio and Acoustics, Demo Session, New Paltz, NY, pp. [TD1-8], oct, 2007.
"Finite difference schemes and digital waveguide networks for the wave equation: stability, passivity, and numerical dispersion",
IEEE Trans. Speech and Audio Processing, vol. 11, no. 3, pp. 255–266, may, 2001.
"Energy-conserving Finite Difference Schemes for Nonlinear Strings",
Acustica–-Acta Acustica, vol. 91(2), pp. 299–311, 2005.
"Energy-conserving Finite Difference Schemes for Nonlinear Strings",
EURASIP Journal on Applied Signal Processing, vol. 4, 2004.
"CCRMA Papers Presented at the 1997 International Computer Music Conference Thessaloniki, Greece",
International Computer Music Conference Thessaloniki, Greece, no. STAN-M-101, Stanford, CA, CCRMA, 08/1997.
"Some Physical Audio Effects",
Proc. Conf. Digital Audio Effects (DAFx-06), Montreal, Canada, Sept., 2006.
Impulse Response Measurement Toolbox,
, 2008.
"Inducing Unusual Dynamics in Acoustic Musical Instruments",
Proc. IEEE International Conference on Control Applications, Singapore, Oct. 1–3, pp. 1336–1341, 2007.
"A physically motivated room reverberation enhancement system that is stable in any (dissipative) room: An application of sound portholes",
NOISE-CON 2010 in conjunction ith the 159th Meeting of the Acoustical Society of America, Baltimore, MD, 04/2010.
Abstract
"A Tangible Virtual String",
Proc. 2008 Conf. on New Instruments for Musical Expression (NIME-08), Geneva, Italy, 2008.
"Active Damping of a Vibrating String",
Proc. 6th International Symposium on Active Noise and Vibration Control, Adelaide, Australia, Sept. 18–20, 2006.
"Feedback Control of Acoustic Musical Instruments",
STAN-M, no. 120, Stanford, CA, Stanford University, 06/2008.
"An electroacoustic sound transmission system that is stable in any (dissipative) acoustic environment: An application of sound portholes",
NOISE-CON 2010 in conjunction ith the 159th Meeting of the Acoustical Society of America, Baltimore, MD, 04/2010.
Abstract
"CCRMA Papers Presented at the 1995 International Computer Music Conference, Banff, Canada",
International Computer Music Conference, no. STAN-M-91, Banff, Canada, 09/1995.
"Waveguide Mesh Reverberator with Internal Decay and Diffusion Structures",
Proceedings of the 123rd Convention of the Audio Engineering Society, New York, preprint 7194, 2007.
"A Simple, Accurate Wall Loss Filter for Acoustic Tubes",
Proc. Conf. Digital Audio Effects (DAFx-03), Queen Mary, University of London, Sept., 2003.
"Restoring a Clipped Signal",
Proc. Int. Conf. Acoustics, Speech, and Signal Processing, Toronto, New York, IEEE Press, 1991.
"A Configurable Microphone Array with Acoustically Transparent Omnidirectional Elements",
127th Audio Engineering Society Convention, New York City, New York, Audio Engineering Society, 09/2009.
Abstract
"Robust Design of Very High-Order Allpass Dispersion Filters",
Proc. Conf. Digital Audio Effects (DAFx-06), Montreal, Canada, Sept., 2006.
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.
AM/FM Rate Estimation and Bias Correction for Time-Varying Sinusoidal Modeling,
, no. STAN-M-118: 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 (III): Bias due to Amplitude and Frequency Modulation,
, no. STAN-M-116: Stanford University, Department of Music, 2004.
CQIFFT: Correcting Bias in a Sinusoidal Parameter Estimator based on Quadratic Interpolation of FFT Magnitude Peaks,
, no. STAN-M-117: Stanford University, Department of Music, 2004.