Title :
Parallelisation of Digital Signal Processing in Uniform and Reconfigurable Filter Banks for Satellite Communications
Author :
Göckler, Heinz G. ; Groth, Alexandra ; Abdulazim, Mohammed N.
Author_Institution :
Digital Signal Process. Group, Ruhr-Univ. Bochum
Abstract :
Modern satellite communication calls for novel and flexible concepts for de- and remultiplexing of wide-band FDM-signals in conjunction with beam switching on-board a satellite. For this application, two highly efficient approaches to uniform and yet reconfigurable digital filter banks are known: i) the complex-modulated polyphase filter bank, and ii) the tree-structured filter bank. Channelising and remultiplexing of (ultra-)wide-band FDM-signals require high end sample rates that, often, range beyond technological limit (e.g. > l GHz). A remedy is to process the signals at a lower rate in a parallel manner. While the polyphase approach i) applying one-step sample rate alteration (down/up-sampling) inherently operates in parallel, the hierarchical approach ii) being based on stepwise sample rate alteration calls for the parallelisation of, at least, the high rate stages. In this contribution, the systematic sample-by-sample processing procedure for parallelisation of multirate systems by Groth is recalled. It is applied to the parallelisation of a novel class of tree-structured filter banks: The various steps towards parallelisation of the high rate front end of the FDM-demultiplexer part of the filter bank are described in detail
Keywords :
digital filters; frequency division multiplexing; satellite communication; beam switching; channelising; complex-modulated polyphase filter bank; digital signal processing; parallelization; reconfigurable filter banks; remultiplexing; satellite communications; tree structured filter bank; ultrawideband FDM signals; uniform filter banks; wide band FDM signals; Artificial satellites; Bandwidth; Digital filters; Digital signal processing; Filter bank; Frequency division multiplexing; Sampling methods; Satellite communication; Signal processing; Wideband;
Conference_Titel :
Circuits and Systems, 2006. APCCAS 2006. IEEE Asia Pacific Conference on
Conference_Location :
Singapore
Print_ISBN :
1-4244-0387-1
DOI :
10.1109/APCCAS.2006.342271