Title :
Minimum norm design of two-dimensional weighted Chebyshev FIR filters
Author :
Nordebo, S. ; Claesson, I.
Author_Institution :
Dept. of Signal Processing, Karlskrona Univ., Sweden
fDate :
3/1/1997 12:00:00 AM
Abstract :
The weighted Chebyshev design of two-dimensional FIR filters is in general not unique since the Haar condition is not generally satisfied. However, for a design on a discrete frequency domain, the Haar condition might be fulfilled. The question of uniqueness is, however, rather extensive to investigate. It is therefore desirable to define some simple additional constraints to the Chebyshev design in order to obtain a unique solution. The weighted Chebyshev solution of minimum Euclidean filter weight norm is always unique, and represents a sensible additional constraint since it implies minimum white noise amplification. This unique Chebyshev solution can always be obtained by using an efficient quadratic programming formulation with a strictly convex objective function and linear constraints. An example where a conventional Chebyshev solution is nonunique is discussed
Keywords :
Chebyshev filters; FIR filters; filtering theory; frequency response; quadratic programming; two-dimensional digital filters; 2D FIR filters; Chebyshev design constraints; Haar condition; discrete frequency domain; linear constraints; minimum Euclidean filter weight norm; minimum norm design; quadratic programming formulation; strictly convex objective function; two-dimensional FIR filters; weighted Chebyshev FIR filters; Chebyshev approximation; Circuits; Finite impulse response filter; Frequency domain analysis; Frequency response; Quadratic programming; Quantization; Signal processing; Two dimensional displays; White noise;
Journal_Title :
Circuits and Systems II: Analog and Digital Signal Processing, IEEE Transactions on
