论文信息 - A NOVEL RECEIVER AND A RELATED PERFORMANCE BOUND FOR COMBINED EQUALIZATION AND DECODING OF TCM- DATA IN TDMA-BASED CELLULAR MOBILE-RADIO SYSTEMS

A NOVEL RECEIVER AND A RELATED PERFORMANCE BOUND FOR COMBINED EQUALIZATION AND DECODING OF TCM- DATA IN TDMA-BASED CELLULAR MOBILE-RADIO SYSTEMS

This contribution describes a new fast adaptive coherent receiver for the detection of Trellis-Coded-Modulated (TCM) signals transmitted over Time-Division-Multiple-Access (TDMA) based cellular mobile radio links affected by fast-fading multipaths and cochannel interference. The equalization and decoding tasks are jointly accomplished by a Symbol-by-Symbol (SbS)-MAP [8,Sect.6.6] combined equalizer-decoder which outputs both hard-decisions and soft-statistics in form of suitably defined A Posteriori Probabilities (APPs). These APPs (and not the usual harddecided data) feed an “ad hoc” developed nonlinear Kalman-like channel estimator, which accomplishes fast convergence through a full exploitation of the redundancy introduced by the TCM-code. A related analytical performance bound is also presented together with a criterion for the design of good TCM codes. I. THE TCM-CODED TDMA CELLULAR RADIO LINK TCM signaling is very attractive for data transmissions on TDMA land mobile cellular radio systems [2,Chap.1]. However, TDMA systems with net bit rates over 100 Kb/s and linking high speed mobile units (like, for example, the European GSM) are affected by multipath phenomena introducing severe randomly time-varying ISI into the received signal [2,Sect.8.7]. So, powerful adaptive coherent equalization and decoding strategies are generally requested to mitigate these impairments. Now, referring to the link between a MobileStation (MS) and a Base-Station (BS) sketched in Fig.1, the baud-rate sampled (complex) signal {y(k)} received at the output of the equivalent low-pass randomly time-variant ISI channel can be modeled as follows [8,Sect.6.3]: y k h( k l c k l i k H k c k i k k L l Lc

Enzo Baccarelli | Stefano Galli | Antonio Fasano

[1] Evangelos Eleftheriou,et al. Decoding of trellis-encoded signals in the presence of intersymbol interference and noise , 1989, IEEE Trans. Commun..

[2] Enzo Baccarelli,et al. Combined channel estimation and data detection using soft statistics for frequency-selective fast-fading digital links , 1998, IEEE Trans. Commun..

[3] Enzo Baccarelli,et al. New results about analysis and design of TCM for ISI channels and combined equalization/decoding , 1998, IEEE Trans. Commun..

[4] Enzo Baccarelli,et al. TCMs matched to ISI channels: New results for combined symbol-by-symbol equalization and decoding , 1997, Proceedings of ICC'97 - International Conference on Communications.

[5] Enzo Baccarelli,et al. Novel analytical performance bounds for symbol-by-symbol decoding of digital-data impaired by ISI and AWGN , 1997, IEEE Trans. Inf. Theory.

[6] John G. Proakis,et al. Digital Communications , 1983 .

[7] Tadashi Fujino,et al. Adaptive Maximum-Likelihood Sequence Estimation by Means of Combined Equalization and Decoding in Fading Environments , 1995, IEEE J. Sel. Areas Commun..

[8] Enzo Baccarelli,et al. Performance bound and trellis-code design criterion for discrete memoryless channels and finite-delay symbol-by-symbol decoding , 1997, IEEE Trans. Commun..

[9] John G. Proakis. Adaptive Equalization for TDMA Digital Mobile , 1991 .