Title :
Blind noise and channel estimation
Author :
Frikel, M. ; Utschick, Wolfgang ; Nossek, J.
Author_Institution :
Inst. for Network Theory & Signal Process., Tech. Univ. Munchen, Germany
Abstract :
In the classical methods for blind channel identification (subspace method, TXK, XBM) (Moulines et al, 1995; Tong et al, 1994; Xavier et al, 1997), the additive noise is assumed to be spatially white or known to within a multiplicative scalar. When the noise is non-white (colored or correlated) but has a known covariance matrix, we can still handle the problem through prewhitening. However, there are no techniques presently available to deal with completely unknown noise fields. It is well known that when the noise covariance matrix is unknown, the channel parameters may be grossly inaccurate. In this paper, we assume the noise is spatially correlated, and we apply this assumption for blind channel identification. We estimate the noise covariance matrix without any assumption except its structure which is assumed to be a band-Toeplitz matrix. The performance evaluation of the developed method and its comparison to the modified subspace approach (MSS) (Abed-Meraim et al, 1997) are presented
Keywords :
Toeplitz matrices; correlation methods; covariance matrices; interference (signal); parameter estimation; telecommunication channels; white noise; additive noise; band-Toeplitz matrix; blind channel estimation; blind channel identification; blind noise estimation; channel parameters; colored noise; covariance matrix; modified subspace approach; prewhitening; spatially correlated noise; spatially white noise; subspace method; Additive noise; Channel estimation; Colored noise; Covariance matrix; Interference; Noise measurement; Rotation measurement; Signal processing; Solid state circuits; White noise;
Conference_Titel :
Statistical Signal and Array Processing, 2000. Proceedings of the Tenth IEEE Workshop on
Conference_Location :
Pocono Manor, PA
Print_ISBN :
0-7803-5988-7
DOI :
10.1109/SSAP.2000.870099
