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On the frequency domain LMS adaptive line enhancer

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3 Author(s)
Kosaroglu, M. ; Burc Electron. Corp., Ankara, Turkey ; Tanik, Y. ; Tugay, M.A.

The theory for a computationally efficient, frequency domain adaptive line enhancer (ALE) structure, which uses the N-point DFT (discrete Fourier transform) for N-point input data blocks, is extended. It is shown that unless the input block covers an integer number of cycles, the SNR (signal/noise ratio) gain of this structure is lower than that of a time-domain ALE with the same number of taps. Analytical results for an ALE with a sinusoidal input indicate that independent weight updating in the discrete frequency domain is far from being optimum, unless the frequencies coincide, which is extremely improbable. The optimum solution is shown to be a matrix transformation on the input. The authors also propose a suboptimum structure that improves the performance over the independent-weight-updating scheme

Published in:
Acoustics, Speech, and Signal Processing, 1989. ICASSP-89., 1989 International Conference on

Date of Conference: 23-26 May 1989

Page(s):
1055 - 1058 vol.2
Meeting Date :
23 May 1989-26 May 1989
ISSN :
1520-6149
INSPEC Accession Number:
3472108
Conference Location :
Glasgow
Digital Object Identifier :
10.1109/ICASSP.1989.266613
Product Type:
Conference Publications

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