Filters: Author is Gunter Niemeyer [Clear All Filters]
"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
"Feedback Control of Acoustic Musical Instruments",
STAN-M, no. 120, Stanford, CA, Stanford University, 06/2008.
"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
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Winter Quarter 2021
1A Music, Mind, & Human Behavior
101 Introduction to Creating Electronic Sound
220B Compositional Algorithms, Psychoacoustics, and Computational Music
222 Sound in Space
250C Interaction - Intermedia - Immersion
251 Psychophysics and Music Cognition
253 Symbolic Musical Information
285 Intermedia Lab
320B Introduction to Audio Signal Processing Part II: Digital Filters
422 Perceptual Audio Coding
451A Basics in Auditory and Music Neuroscience