Title :
Equiripple minimum phase FIR filter design from linear phase systems using root moments
Author :
Stathaki, Tania ; Fotinopoulos, Ioannis
Author_Institution :
Imperial Coll. of Sci., Technol. & Med., London, UK
fDate :
6/1/2001 12:00:00 AM
Abstract :
In this brief we propose to design a minimum phase finite-impulse response (FIR) digital filter transfer function from a given equiripple linear phase FIR transfer function which has identical amplitude. The brief deals with two important issues. The first issue is that we are concentrating on very high degree polynomials for which factorization procedures for root extraction are unreliable. A novel approach is taken, that involves the use of a set of parameters called root moments of a polynomial, derivable directly from the polynomial coefficients that immensely facilitate the factorization of polynomials of very large order. The second issue is that the polynomials we deal with have roots on the unit circle. In the paper we propose a method to overcome this problem. The results of the proposed design scheme are very encouraging as far as robustness and computational complexity are concerned
Keywords :
FIR filters; computational complexity; equiripple filters; linear phase filters; transfer functions; computational complexity; digital filter transfer function; equiripple minimum phase FIR filter design; factorization procedures; linear phase systems; robustness; root moments; very high degree polynomials; Algorithm design and analysis; Delay effects; Design methodology; Digital filters; Fast Fourier transforms; Finite impulse response filter; Nonlinear filters; Passband; Polynomials; Transfer functions;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
