Title :
Finite-alphabet information and multivariate blind deconvolution and identification of linear systems
Author_Institution :
Dept. of Math. Sci., IBM T.J.Watson Res. Center, Yorktown Heights, NY, USA
fDate :
1/1/2003 12:00:00 AM
Abstract :
This article addresses the problem of estimating a multivariate linear system from its output when the input is an unobservable sequence of random vectors with finite-alphabet distribution. By explicitly utilizing the finite-alphabet property, an estimation method is proposed under the traditional inverse filtering paradigm as a generalization of a univariate method that has been studied previously. Identifiability of multivariate systems by the proposed method is proved mathematically under very mild conditions that can be satisfied even if the input is nonstationary and has both cross-channel and serial statistical dependencies. Statistical super-efficiency in estimating both parametric and nonparametric systems is also established for an alphabet-based cost function.
Keywords :
MIMO systems; channel estimation; deconvolution; equalisers; filtering theory; identification; intersymbol interference; linear systems; multi-access systems; multiuser channels; source separation; MIMO system; alphabet-based cost function; channel estimation; cross-channel dependency; digital signal separation; equalization; estimation method; finite-alphabet distribution; finite-alphabet information; finite-alphabet property; intersymbol interference; inverse filtering paradigm; multichannel blind deconvolution; multiuser communication systems; multivariate blind deconvolution; multivariate blind identification; multivariate linear system; nonparametric systems; nonstationary input; parametric systems; random vectors; serial statistical dependency; statistical super-efficiency; unobservable sequence; Deconvolution; Delay; Fading; Ground penetrating radar; Information theory; Linear systems; Media Access Protocol; Notice of Violation; Packet radio networks; Telecommunication standards;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2002.806138
