Title :
A generalized Remez method for the design of FIR digital filters
Author :
Shpak, Dale J. ; Antoniou, Andreas
Author_Institution :
Dept. of Eng., R. Roads Mil. Coll., Victoria, BC, Canada
fDate :
2/1/1990 12:00:00 AM
Abstract :
A generalized Remez method for the design of finite impulse response (FIR) filters is proposed. The method is based on a new problem formulation which largely eliminates certain difficulties brought about by an undetermined approximating polynomial. The new method can be used to design maximal-ripple (MR), extra-ripple (ER), and weighted-Chebyshev filters satisfying prescribed specifications, and, with the addition of some simple techniques, filters can be designed that are free from transition region anomalies. The method incorporates a new initialization strategy and a selective search technique to reduce the amount of computation needed to carry out a design. Extensive experimental results show that the new method is robust and at least as efficient as existing methods for the design of weighted-Chebyshev filters. For MR as well as ER filters, the new method is both robust and very efficient
Keywords :
Chebyshev approximation; digital filters; FIR digital filters; extra-ripple; finite impulse response; generalized Remez method; initialization strategy; maximal-ripple; problem formulation; robust; selective search technique; transition region anomalies; undetermined approximating polynomial; weighted-Chebyshev filters; Chebyshev approximation; Computer errors; Design methodology; Digital filters; Erbium; Finite impulse response filter; Frequency; Helium; Polynomials; Robustness;
Journal_Title :
Circuits and Systems, IEEE Transactions on
