A wave theory of long LMS adaptive filters

H.J. Butterweck

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1 Citaat (Scopus)


Long LMS filters of the tapped-delay line type are in widespread use, particularly in acoustic applications. For the limiting case of an infinite line length the behaviour of such filters is shown to be governed by remarkably simple laws. This is true for the steady state, where for small stepsizes the weight-error correlations become independent of the input signal, but also for the transient behaviour, where the spatial Fourier transform of the weight-error distribution decays exponentially. Moreover, a necessary and (probably) sufficient stability bound for the stepsize is derived. The 'wave theory' developed for the infinite line length also predicts the behaviour of rather short filters with sufficient accuracy, particularly for a moderately coloured input signal. No independence assumption is required and no assumption concerning the spectral distribution of the additive noise. Under steady-state conditions, the weight-error correlation between two line taps is solely determined by the noise autocorrelation, with the time delay replaced by the tap distance.
Originele taal-2Engels
TitelProc. Eusipco '2000, European Signal Processing Conference
RedacteurenM. Gabbouj, P. Kuosmanen
StatusGepubliceerd - 31 mrt 2015
Evenement10th European Signal Processing Conference (EUSIPCO 2000) - Tampere, Finland
Duur: 5 sep 20008 sep 2000
Congresnummer: 10


Congres10th European Signal Processing Conference (EUSIPCO 2000)
Verkorte titelEUSIPCO 2000
AnderEusipco '2000, European Signal Processing Conference, Tampere, Finland


Citeer dit

Butterweck, H. J. (2015). A wave theory of long LMS adaptive filters. In M. Gabbouj, & P. Kuosmanen (editors), Proc. Eusipco '2000, European Signal Processing Conference (blz. 2461-2464). [7075816]