Title :
Dynamics of multichannel feedforward adaptive systems
Author :
Minkoff, John ; Novak, Stephanie ; Zaff, David
Author_Institution :
Lucent Technol., Bell Labs., Whippany, NJ, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
The role played by reference-signal compensation in the convergence of multichannel feedforward adaptive systems is addressed. Convergence conditions are established, and effects of compensation errors are analyzed. We also explore, by means of altering the reference-signal compensation filtering from the conventional choice, ways to force systems to converge to arbitrary solutions of possible interest other than the standard Wiener solution. This could be useful, for example, if one wished to cancel noise at a very large number of measurement points, which, conventionally, would require a correspondingly complex, possibly prohibitively large, controller. The scheme developed enables very efficient usage of error signals, such that systems with large numbers of disturbance-cancellation points need employ only a relatively small number of error signals in the actual control-system implementation
Keywords :
adaptive filters; compensation; convergence; error analysis; feedforward; interference suppression; noise; compensation errors; control-system implementation; convergence conditions; disturbance-cancellation points; error signals; multichannel feedforward adaptive system; noise cancellation; reference-signal compensation; reference-signal compensation filtering; Actuators; Adaptive systems; Error analysis; Error correction; Filtering; Inverse problems; Noise cancellation; Signal processing; Transfer functions; Wiener filter;
Journal_Title :
Signal Processing, IEEE Transactions on
