Title :
Frequency sampling method for designing 2-D FIR real-coefficient digital filters using Hermite interpolation
Author :
Angelidis, E. ; Diamessis, J.
Author_Institution :
Res. Center of the Hellenic Navy, Minist. of Defence, Holargos, Greece
fDate :
12/1/1994 12:00:00 AM
Abstract :
A novel frequency-sampling method for designing 2-D real-coefficient FIR filters, given the values and slope estimates of the desired frequency response at each of the node points of a rectangular grid, is presented. Based on a new class of bivariate Hermite-type polynomials suitable for interpolating at complex conjugate points, and using Kronecker products, the original 2-D filter design problem is reduced to the solution of two 1-D systems of linear equations. Additional advantages of the method are the securing of the existence and uniqueness of the solution of the design problem, computational efficiency, the use of simple and recursive 1-D algorithms; the guarantee of real accurate results; and the inherent parallelism. The method is also applied to design 2-D symmetric FIR filters and can be extended to m-D design problems
Keywords :
FIR filters; circuit CAD; filtering theory; frequency response; interpolation; polynomials; two-dimensional digital filters; 2-D symmetric FIR filters; Hermite interpolation; Kronecker products; MATLAB; bivariate Hermite-type polynomials; complex conjugate points; computational efficiency; filter design; frequency response; frequency sampling method; linear equations; parallelism; real-coefficient digital filters; recursive 1-D algorithms; slope estimates;
Journal_Title :
Vision, Image and Signal Processing, IEE Proceedings -
DOI :
10.1049/ip-vis:19941422
