Title :
Fast convolution filter banks for satellite payloads with on-board processing
Author :
Boucheret, Marie-Laure ; Mortensen, Ivar ; Favaro, Henri
Author_Institution :
Ecole Nat. Superieure des Telecommun., Toulouse, France
fDate :
2/1/1999 12:00:00 AM
Abstract :
Filter banks able to demultiplex channels of different sizes are necessary on board the satellite when a single bit-rate channel is assigned to each user. In this paper, the method referred to as the fast convolution filter bank is analyzed for regenerative payloads. The size of the input fast Fourier transform (FFT) depends on the narrowest channel, while the inverse fast Fourier transform (IFFT) number of points is relative to the decimation ratio associated with each channel. In order to reduce the complexity, most of the frequency coefficients are forced to zero, leading to a violation of the overlap-and-save (OS) condition. It is shown that the resulting error can be modeled as a cyclostationary process, and an optimization method based on minimization of the associated mean-square error (MSE) is proposed. Fast convolution is then compared with multistage implementation in terms of flexibility, reconfigurability, and complexity
Keywords :
channel bank filters; computational complexity; convolution; demultiplexing; digital filters; discrete Fourier transforms; least mean squares methods; satellite communication; FFT; IFFT; MSE; complexity; cyclostationary process; decimation ratio; demultiplexing; fast Fourier transform; fast convolution filter banks; frequency coefficients; inverse fast Fourier transform; mean-square error; multistage implementation; on-board processing; optimization method; overlap-and-save condition; regenerative payloads; satellite payloads; single bit-rate channel; Bandwidth; Bit rate; Channel bank filters; Convolution; Demultiplexing; Fast Fourier transforms; Filter bank; Frequency; Payloads; Satellites;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
