Title :
Frequency warped Burg´s method for AR-modeling
Author :
Roth, Kari ; Kauppinen, Ismo ; Esquef, Paulo A A ; Valimaki, Vesa
Author_Institution :
Dept. of Phys., Turku Univ., Finland
Abstract :
Auto-regressive modeling of measured data is commonly used in numerous signal processing applications. When aiming for high accuracy, Burg´s method has been found to give a suitable model. It has been shown that when the signal energy is non-uniformly distributed in a frequency range, the use of a modified frequency scale is advantageous. This is often the case with audio signals. We introduce a frequency warped version of Burg´s method for calculating the auto-regressive filter parameters. A bilinear frequency mapping can be embedded in Burg´s method by replacing the unit-delays of the lattice structure used in Burg´s method with first-order allpass filters. The benefits of the frequency-warped Burg´s method are demonstrated by comparing its signal modeling performance against those of the conventional Burg´s method and the warped Yule-Walker method.
Keywords :
all-pass filters; audio signal processing; autoregressive processes; filtering theory; lattice filters; AR-modeling; audio signal processing; auto-regressive filter parameters; auto-regressive modeling; bilinear frequency mapping; first-order allpass filters; frequency range; frequency warped Burg method; lattice filter; lattice structure; signal energy distribution; unit-delays; warped Yule-Walker method; Acoustic applications; Acoustic signal processing; Equations; Finite impulse response filter; Frequency estimation; Lattices; Optical signal processing; Signal analysis; Signal processing algorithms; Signal resolution;
Conference_Titel :
Applications of Signal Processing to Audio and Acoustics, 2003 IEEE Workshop on.
Print_ISBN :
0-7803-7850-4
DOI :
10.1109/ASPAA.2003.1285795
