Quasi-equiripple approximation of minimum phase FIR filters by updating desired response

M Okuda,S Takahashi,M Ikehara,I.R Khan

doi:10.1049/ip-vis:20040139

Quasi-equiripple approximation of minimum phase FIR filters by updating desired response

M Okuda, S Takahashi + Show 2 more

https://doi.org/10.1049/ip-vis:20040139

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Journal: IEE Proceedings - Vision, Image, and Signal Processing	Publication Date: Jan 1, 2004
Citations: 4

Affiliation: The University of Kitakyushu, Keio University

#Minimum Phase FIR Filters #Minimum Phase FIR #Minimum Filters #Approximation Of Filters #Desired Response #Numerical Method For Approximation #Magnitude Error #Least Squares #Computational Complexity #Conventional Methods

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The authors present a new numerical method for the Chebyshev approximation of minimum phase FIR digital filters. This method is based on solving a least squares (LS) problem iteratively. At each iteration, the desired response is transformed so as to have an equiripple magnitude error. This method makes it possible to design minimum phase FIR filters whose magnitude error is quasi-equiripple. Using this method, a quasi-equiripple solution is obtained very quickly. Since the proposed methods do not require any time-consuming optimisation procedure, they require less computational complexity than conventional methods. Finally, some examples to illustrate the advantage of the proposed methods are shown.

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Quasi-equiripple approximation of minimum phase FIR filters by updating desired response