Title :
Optimal design and parallel implementation of FIR filters with variable magnitude and fractional-delay responses
Author_Institution :
Dept. of Inf. Sci., Toho Univ., Chiba, Japan
fDate :
6/24/1905 12:00:00 AM
Abstract :
This paper proposes a weighted least-squares (WLS) method for designing variable one-dimensional (1-D) FIR digital filters with simultaneously variable magnitude and variable non-integer phase-delay responses. First, the coefficients of a variable FIR filter are represented as the two-dimensional (2-D) polynomials of a pair of spectral parameters; one is for tuning the magnitude response, and the other is for varying its non-integer phase-delay response. Then the optimal coefficients of the 2-D polynomials are found by minimizing the total weighted squared error of the variable frequency response. Finally, it is shown that the resulting variable FIR filter can be implemented in a parallel form, which is suitable for high-speed signal processing.
Keywords :
FIR filters; digital filters; filtering theory; frequency response; least squares approximations; optimisation; parallel processing; polynomials; 2D polynomials; high-speed signal processing; one-dimensional digital filters; optimal coefficients; parallel implementation; spectral parameters; total weighted squared error minimization; variable 1D FIR digital filters; variable frequency response; variable magnitude response; variable noninteger phase delay response; weighted least-squares method; Delay; Design methodology; Digital filters; Electronic mail; Finite impulse response filter; Frequency response; Information science; Polynomials; Signal processing; Tuning;
Conference_Titel :
Circuits and Systems, 2002. ISCAS 2002. IEEE International Symposium on
Print_ISBN :
0-7803-7448-7
DOI :
10.1109/ISCAS.2002.1009862
