Title :
A novel method for designing allpass digital filters
Author :
Rajamani, Kannan ; Lai, Yhean-Sen
Author_Institution :
Lucent Technol., AT&T Bell Labs., Holmdel, NJ, USA
Abstract :
A novel method for designing recursive allpass digital filters is presented. This method uses cepstral coefficients to design the allpass filter. For a stable allpass filter, the denominator polynomial must be of minimum phase. For a minimum phase polynomial the magnitude function and the group delay function are related through the cepstral coefficients. Hence, given the group delay function, the cepstral coefficients corresponding to the denominator polynomial part are first determined. From the cepstral coefficients the minimum phase denominator polynomial coefficients are determined through a nonlinear recursive difference equation.
Keywords :
all-pass filters; cepstral analysis; delays; difference equations; network synthesis; nonlinear equations; polynomials; recursive filters; allpass digital filters design; cepstral coefficients; denominator polynomial; group delay function; magnitude function; minimum phase denominator polynomial coefficients; nonlinear recursive difference equation; recursive allpass digital filters; stable allpass filter; Cepstral analysis; Delay lines; Delay systems; Design methodology; Difference equations; Digital filters; Fourier transforms; Frequency; Nonlinear filters; Polynomials;
Journal_Title :
Signal Processing Letters, IEEE
