论文信息 - Interpolated finite impulse response filters

Interpolated finite impulse response filters

A new approach to implement computationally efficient finite impulse response (FIR) digital filters is presented. The filter structure is a cascade of two sections. The first section generates a sparse set of impulse response samples and the other section generates the remaining samples by using interpolation. The method can be used to implement most practical FIR filters with significant savings in the number of arithmetic operations. Typically 1/2 to 1/8 of the number of multipliers and adders of conventional FIR filters are required in the implementation. The saving is achieved both in the linear phase and the non-linear phase cases. In addition, the new implementation gives smaller coefficient sensitivities and better roundoff noise properties than conventional implementations.

S. Mitra | Y. Neuvo | Dong Cheng-Yu

[1] L. Rabiner,et al. A computer program for designing optimum FIR linear phase digital filters , 1973 .

[2] Jacques Lucien Daguet,et al. Interpolation, extrapolation, and reduction of computation speed in digital filters , 1974 .

[3] L. Rabiner,et al. Optimum FIR Digital Filter Implementations for Decimation, Interpolation, and Narrow-Band Filtering , 1975 .

[4] C. K. Yuen,et al. Theory and Application of Digital Signal Processing , 1978, IEEE Transactions on Systems, Man, and Cybernetics.

[5] C. K. Yuen,et al. Digital Filters , 1979, IEEE Transactions on Systems, Man, and Cybernetics.

[6] David C. Farden,et al. Thinning the impulse response of FIR digital filters , 1981, ICASSP.

[7] T. Parks,et al. Thinning digital filters: A piecewise-exponential approximation approach , 1983 .

[8] A. N. Willson,et al. A new approach to FIR digital filters with fewer multipliers and reduced sensitivity , 1983 .