Title :
An interference suppression scheme with joint channel-data estimation
Author :
Diggavi, Suhas N. ; Ng, Boon Chong ; Paulraj, Arogyasawmi
Author_Institution :
AT&T Shannon Labs., Florham Park, NJ, USA
fDate :
11/1/1999 12:00:00 AM
Abstract :
This paper describes an adaptive space-time receiver with joint channel-data estimation (JCDE) to combat time-varying (TV) multipath channels in the presence of undesired cochannel interference (CCI). The receiver uses a colored Gaussian metric for sequence detection in order to suppress the CCI. The proposed scheme also uses the knowledge of the transmit filter for improved channel estimation to enhance performance. The algorithm is derived as a quasi-Newton scheme on a chosen cost criterion and is also locally convergent. The performance of this class of interference cancellers is examined through the pairwise error probability (PEP). Through these expressions we gain insight into the properties of the canceller. The effect of channel dynamics and identification mismatch on the PEP is also examined. To reduce implementational complexity, a hybrid delayed-decision feedback and JCDE scheme is also proposed. The performance is illustrated using numerical results in realistic transmission environments
Keywords :
Gaussian processes; Newton method; adaptive systems; cellular radio; cochannel interference; convergence of numerical methods; covariance matrices; delays; error statistics; feedback; interference suppression; multipath channels; parameter estimation; radio receivers; signal detection; time-varying channels; CCI suppression; adaptive space-time receiver; algorithm; cellular systems; channel dynamics; cochannel interference; colored Gaussian metric; hybrid delayed-decision feedback sequence estimation; identification mismatch; implementational complexity reduction; interference cancellers; interference suppression; joint channel-data estimation; noise covariance matrices; pairwise error probability; quasi-Newton scheme; sequence detection; time-varying multipath channels; transmission environments; transmit filter; Channel estimation; Costs; Filters; Interchannel interference; Interference cancellation; Interference suppression; Multipath channels; Pairwise error probability; Radiofrequency interference; TV receivers;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
