Efficient linear-phase directional filters with selectable centre frequencies

We consider complex-valued digital directional filters that extract two freely selectable user signals from an FDM signal, which comprises up to four independent user spectra uniformly allocated along the frequency axis from zero frequency up to the sampling rate. Two different approaches, both appl...

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Bibliographic Details
Published inThe 2010 International Conference on Green Circuits and Systems pp. 293 - 298
Main Authors Göckler, H G, Alfsmann, D
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.06.2010
Subjects
Band pass filters
Digital filters
Digital signal processing
Filter bank
Finite impulse response filter
Frequency division multiplexing
IIR filters
Radio spectrum management
Sampling methods
Signal processing
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Summary:We consider complex-valued digital directional filters that extract two freely selectable user signals from an FDM signal, which comprises up to four independent user spectra uniformly allocated along the frequency axis from zero frequency up to the sampling rate. Two different approaches, both applying linear-phase FIR halfband filters, are investigated and compared with each other in terms of computational efficiency. The first approach is based on a complex-modulated frequency demultiplexer filter bank (FDMUX); it requires the least number of delay elements. The second approach combines two complex offset halfband filters (COHBF) that allow for the exploitation of coefficient symmetry; hence, the computation required is minimal. Finally, the dual directional filter effectuating frequency multiplexing is derived by transposition of the FDMUX and COHBF approaches.
ISBN:9781424468768
1424468760
DOI:10.1109/ICGCS.2010.5543049