Fast converging equalizer for a demodulator

Pulse or digital communications – Equalizers – Automatic

Reexamination Certificate

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C375S350000

Reexamination Certificate

active

06735248

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to equalizers for digital receivers, and more particularly, to a transversal equalizer trained with a least mean squares (LMS) algorithm for use in a demodulator for digital radio receivers operating in severe noise/interference environment with multi-path propagation conditions.
2. Description of Related Art
Propagation conditions in mobile communications are often described as a multi-path fading channel model. In this model, the signal arriving at a receiver is a combination of rays, each of the rays is a replica of the original signal at the output of the transmitter but has a different strength and a different epoch. The relative delay between the first ray and the last ray can be several symbol (or information bit) intervals. For example, the delay can be up to 5 symbol intervals in Global Systems for Mobile communications (GSM).
In order to compensate for a largely dispersive multi-path fading channel, demodulators having a Viterbi equalizer (which utilizes Maximum Likelihood Sequence Estimation) are widely used (e.g., U.S. Pat. No. 5,091,918 granted to Wales, U.S. Pat. No. 5,285,480 granted to Chennakeshu et al. and U.S. Pat. No. 5,581,581 granted to Sato).
The Viterbi equalizer uses a propagation channel estimator to generate all possible signal sequences which could result from being transmitted through the estimated propagation channel. Due to the channel memory length, the number of such signal sequences is limited. These generated signal sequences are then compared with a received signal sequence. The generated signal sequence which is closest in code distance to the received signal is selected. The data sequence associated with the selected signal sequence is the recovered data sequence.
Propagation channel estimation is performed by detecting a known data sequence called midamble which is embedded in the middle of a signal burst. Good estimation of the propagation channel is crucial for the performance of the Viterbi equalizer. When the propagation channel becomes very noisy and/or there are strong interfering signals (both cases are common in the mobile communication environment), the performance of the Viterbi equalizer can be significantly compromised since good estimation of the propagation channel is not available. Furthermore, the Viterbi equalizer is complicated to implement.
It is known that a transversal equalizer is much easier to implement than the Viterbi equalizer, and that a transversal equalizer can handle a large offset if trained with the LMS algorithm. However, if the coefficients of the transversal equalizer are not properly initialized, the equalizer needs to be trained longer for convergence, i.e., its coefficients will take longer to converge to proper values. For this reason, the LMS algorithm is in general considered to be slow in converging.
Accordingly, there is a need for a system for configuring and initializing a transversal equalizer such that it can perform as well as or better than a Viterbi equalizer in severe noise and/or interference environment with multi-path propagation conditions.
SUMMARY OF THE INVENTION
The present invention is a method and a system for configuring and initializing an equalizer. The equalizer equalizes a signal received over a propagation channel. The received signal includes symbols, a synchronizing signal and is formed by one or more rays including a dominant ray. The method comprising the following: (a) generating a multi-path intensity profile of the propagation channel from the received signal; (b) determining an arrival time of the dominant ray and a propagation channel response corresponding to the arrival time based on the multi-path intensity profile; (c) decimating the received signal synchronously with the arrival time of the dominant ray to provide signal samples to the equalizer; (d) configuring the equalizer based on the multi-path intensity profile to deactivate some of the coefficients of the equalizer; and (e) initializing active coefficients of the equalizer based on the propagation channel response.


REFERENCES:
patent: 5091918 (1992-02-01), Wales
patent: 5285480 (1994-02-01), Chennakeshu et al.
patent: 5425059 (1995-06-01), Tsujimoto
patent: 5581581 (1996-12-01), Sato
patent: 6289038 (2001-09-01), Park
patent: 6421380 (2002-07-01), Gu et al.
John G. Proakis, Digital Communications, Jan. 26, 1983, McGraw Hill, United States.
E. Eleftherious & D.Falconer, Adaptive Equalization Techniques for HF Cahnnels, 2/87, IEEE Journal on Selected Areas in Communications, vol. SAC-5, No. 2.
R. D'Avella, L. Moreno, M. Sant'Agostino, an Adaptive MLSE Receiver for TDMA Digital Mobile Radio, 1/89, IEEE Journal on Selected Areas in Communications, vol. 7, No. 1.
Modified Viterbi Equaliser for Mobile Radio Channels Having Large Multipath Delays, Sep. 14, 1989, Electronics Letters, vol. 25, No. 19.
J. Proakis, Adaptive Equalization for TDMA Digital Mobile Radio, 5/91, IEEE Journal on Selected Areas in Communications, vol. 40, No. 2.
G. D'Aria, R. Piermarini, V. Zingarelli, Fast Adative Equalizers for Narrow-Band TDMA Mobile Radio, 5/91, IEEE Journal on Selected Areas in Communications, vol. 40, No. 2.
E. Delre, G. Benelli, G. Castellini, R. Fantacci, L. Pierucci, L. Pogliani, Design of a Digital MLSE Receiver for Mobile Radio Communications, 12/91, IEEE Global Telecommunications Conference, Phoenix, Arizona.
G. Benelli, A. Fioravanti, A. Garzelli, P. Matteini, Some Digital Receivers for the GSM Pan-European Cellular Communication System, 6/94, IEEE Proc.-Commun., vol. 141, No. 3.
G. Benelli, A Garzelli, F. Salvi, Simplified Viterbi Processors for the GSM Pan-European Cellular Communication System, 11/94, IEEE Transactions on Vehicular Technology, vol. 43, No. 4.
European Telecommunications Standards Institute, Digital Cellular Telecommunications System (Phase 2+); Radio Transmission and Reception, 7/96, France.

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