M.J. Dehghani (phone: + 91 44 257 8361, email: [email protected]), R. Aravind (email: [email protected]), and K.M.M. Prabhu (email: [email protected]) are with Electrical Engineering Department, IIT Madras, Chennai-600 036, India.

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Abstract

In this paper, we propose a method for designing a class of M-channel, causal, stable, perfect reconstruction, infinite impulse response (IIR), and parallel uniform discrete Fourier transform (DFT) filter banks. It is based on a previously proposed structure by Martinez et al. [1] for IIR digital filter design for sampling rate reduction. The proposed filter bank has a modular structure and is therefore very well suited for VLSI implementation. Moreover, the current structure is more efficient in terms of computational complexity than the most general IIR DFT filter bank, and this results in a reduced computational complexity by more than 50% in both the critically sampled and oversampled cases. In the polyphase oversampled DFT filter bank case, we get flexible stop-band attenuation, which is also taken care of in the proposed algorithm.

References

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Volume25, Issue5

October 2003

Pages 345-355

Design of M-Channel IIR Uniform DFT Filter Banks Using Recursive Digital Filters

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Design of M-Channel IIR Uniform DFT Filter Banks Using Recursive Digital Filters

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