Constrained least squares design of 2-D FIR filters

Authors:
M. Lang;I.W. Selesnick;C.S. Burrus
Affiliations:
Dept. of Electr. & Comput. Eng., Rice Univ., Houston, TX;-;-
Venue:
IEEE Transactions on Signal Processing
Year:
1996

Citing 0
Cited 3

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Abstract

We consider the design of 2-D linear phase finite impulse response (FIR) filters according to the least squares (LS) error criterion subject to equality and/or inequality constraints. Since we use a frequency domain formulation, these constraints can be used to explicitly prescribe (frequency-dependent) error tolerances, the maximum, minimum, or fixed values of the frequency response at certain points and/or regions. Our method combines Lagrange multiplier and Kuhn-Tucker theory to solve a much wider class of problems than do standard methods. It allows arbitrary compromises between the LS and the equiripple design