Design of 2-D linear phase IIR filters by using all-pass building blocks

Author

Safiri, H. ; Ahmadi, M.

Author_Institution

Dept. of Electr. Eng., Windsor Univ., Ont., Canada

fYear

1995

fDate

17-19 May 1995

Firstpage

383

Lastpage

386

Abstract

Complementary filters are driven by using two 1-D all-pass functions. A structure of this kind employs a low sensitivity property. This structure is also computationally efficient. An extension of the 1-D structure to the 2-D structure is presented. It consists of the cascade sum of two 2-D all-pass building blocks with appropriate delay elements. Filters with the various cut-off boundaries can be designed by changing the parameters of the proposed structure. These parameters can be adapted from the table given. The coefficients of the all-pass blocks are obtained via an iterative nonlinear optimization technique. The objective function of the optimization program consists of the magnitude and the group delay error functions, resulting in a fairly linear phase filter in the passband with a specified magnitude shape

Keywords

IIR filters; all-pass filters; cascade networks; circuit optimisation; delay circuits; delays; filtering theory; iterative methods; two-dimensional digital filters; 1-D all-pass functions; 2-D linear phase IIR filters; all-pass building blocks; coefficients; complementary filters; cut-off boundaries; delay elements; group delay error functions; iterative nonlinear optimization; low sensitivity; magnitude error functions; magnitude shape; objective function; optimization program; passband; Circuits and systems; Delay; Digital filters; Frequency; IIR filters; Low pass filters; Neural networks; Nonlinear equations; Optimization methods; Polynomials;

fLanguage

English

Publisher

ieee

Conference_Titel

Communications, Computers, and Signal Processing, 1995. Proceedings., IEEE Pacific Rim Conference on

Conference_Location

Victoria, BC

Print_ISBN

0-7803-2553-2

Type

conf

DOI

10.1109/PACRIM.1995.519549

Filename

519549