Title :
Optimized Polynomial Spline Basis Function Design for Quasi-Bandlimited Classical Waveform Synthesis
Author :
Pekonen, Jussi ; Nam, Juhan ; Smith, Julius O. ; Välimäki, Vesa
Author_Institution :
Dept. of Signal Process. & Acoust., Aalto Univ., Espoo, Finland
fDate :
3/1/2012 12:00:00 AM
Abstract :
Classical geometric waveforms used in virtual analog synthesis suffer from aliasing distortion when simple sampling is used. An efficient antialiasing technique is based on expressing the waveforms as a filtered sum of time-shifted approximately bandlimited polynomial-spline basis functions. It is shown that by optimizing the coefficients of the basis function so that the aliasing distortion is perceptually minimized, the alias-free bandwidth of classical waveforms can be expanded. With the best of the case examples given here, the generated impulse-train and sawtooth waveform are alias-free up to fundamental frequencies over 10 kHz when the sampling rate is 44.1 kHz.
Keywords :
signal sampling; splines (mathematics); alias-free bandwidth; aliasing distortion; antialiasing technique; classical geometric waveforms; frequency 44.1 kHz; generated impulse-train waveform; optimized polynomial spline basis function design; quasibandlimited classical waveform synthesis; sawtooth waveform; time-shifted approximately bandlimited polynomial-spline basis functions; virtual analog synthesis; Approximation algorithms; Interpolation; Optimization; Oscillators; Polynomials; Splines (mathematics); Acoustic signal processing; antialiasing; audio oscillators; interpolation; music; signal synthesis;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2012.2183123
