Timing estimation for GSM bursts based on past history

Pulse or digital communications – Receivers – Particular pulse demodulator or detector

Reexamination Certificate

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Details

C375S366000, C375S368000, C375S355000, C370S509000, C370S511000

Reexamination Certificate

active

06724837

ABSTRACT:

CROSS-REFERENCE TO RELATED APPLICATION
This application claims priority of European Patent Application No. 98308514.3, which was filed on Oct. 19, 1998.
FIELD OF THE INVENTION
The present invention relates to the tracking of a training sequence in a transmitted radio signal, and particularly but not exclusively to the tracking of training sequences in data bursts in GSM systems. The invention is particularly advantageous when applied in highly noisy environments in which there is a low signal-to-noise ratio.
BACKGROUND TO THE INVENTION
In any radio communications system intersymbol interference (ISI) is caused in the radio path by reflections from objects far away from the receive antenna. The symbols become spread out in time and adjacent symbols interfere with each other. The receiver of the radio communications system must then determine the information that was intended to be sent.
In a GSM system, data is transmitted in bursts, which are placed within timeslots. A training sequence of a known pattern and with good autocorrelation properties is placed in the middle of the data burst. The training sequence is placed in the middle of the burst in order to provide correct channel estimation for the first and the second half of the burst. The position of the received burst in time varies from burst to burst, due to changes in the propagation channel and movement of the mobile station.
In a GSM system a channel equalizer is provided in the receiver. The purpose of the equalizer, placed in the path of the received signal, is to reduce the ISI and multi-path effects as much as possible to maximise the probability of correct decisions. The channel equalizer uses the training sequence in the burst to equalize the multi-path effects. In order to perform the equalization effectively, the receiver must first identify the exact position of the training sequence.
The training sequence is used by the equalizer to create a channel model, which changes all the time but which during one burst can be regarded as constant for a slowly varying channel in time. If two similar interfering signals arrive at the receiver at almost the same time, and if their training sequences are the same, there is no way to distinguish the contribution of each to the received signal. For this reason, different training sequences are allocated to channels using the same frequencies in cells that are close enough so that they do not interfere. When two training sequences differ, and are as little correlated as possible, the receiver can much more readily determine the contribution of each to the received signal.
The receiver knows the training sequence which the transmitter of the radio communications system transmits, and stores such training sequence. By correlating the stored training sequence with the training sequence received from the transmitter, the channel impulse response can be measured. The equalizer creates a model of the transmission channel and calculates the most probable receiver sequence.
Conceptually, the equalizer takes the different time-dispersed components, weighs them according to the channel characteristics, and sums them after inserting the appropriate delay between components, so that a replica of the transmitted signal is restored.
The problem in cellular radio becomes more complex due to the dynamic nature of the channel. As the mobile moves through multipath surroundings, the equalizer must continually adapt to the changed channel characteristics. The equalizer knows the transmitted training sequence, and also knows what it has actually received. Thus, the equalizer can make an estimate of the channel transfer function. Thus an adaptive equalizer continuously updates the transfer function estimate, making sure that the decision error does not increase too much during the channel transmission.
In conventional systems, timing estimation is obtained by correlating a data burst with a training sequence stored in the base station. The base station knows the training sequence used by the mobile station. Correlations are performed at various bit positions of the received signal. The bit position that provides the highest correlation value is determined to be the first bit of the training sequence. The received data burst can then be effectively equalized to compensate for the channel.
However, this known technique suffers significantly from the effects of multipath delays in very noisy environments in which there is a low signal-to-noise ratio. Performing the correlation before the equalization leads to errors in timing estimation, and hence bit errors at the output of the equalizer.
It is therefore an object of the present invention to provide an improved technique for estimating the timing position of received data bursts, which operates reliably even in noisy environments.
SUMMARY OF THE INVENTION
According to the present invention, in one aspect there is provided a method of estimating the timing position of data bursts received in a data stream, each data burst including a number of bits comprising a training sequence in a fixed location, the method comprising the steps of: for each of the first N received data bursts: determining a plurality of estimated timing locations of the training sequence; correlating the training sequence for each estimated timing location; determining the timing location associated with the highest correlation value; determining the average timing location of the highest correlation values for each of the first N data bursts; and for the next M data bursts: estimating the timing location of each data burst based on the average timing location for the first N data bursts.
There is thus provided a technique for estimating the timing position of data bursts which offers significant performance improvements in noisy environments.
Preferably the method further comprises the steps of: for each of the first N data bursts, equalizing the data burst based on the timing location associated with the highest correlation value; and for the next M bursts, equalizing each data burst based on the average timing location determined for the first N data bursts.
Preferably the method further comprises the step of determining the average timing location includes allocating a weighting to each timing location associated with the highest correlation values.
The weighting is preferably allocated to each timing location in dependence on the level of the associated correlation value.
In a further aspect the invention provides a receiver for synchronizing data bursts received in a data stream, each data burst including a number of bits comprising a training sequence in a fixed location, the receiver including circuitry for estimating the timing position of the data bursts received in the data stream, wherein for each of the first N received data bursts, the receiver estimates a plurality of timing locations of the training sequence, correlates the training sequence for each estimated timing location, determines the timing location associated with the highest correlation value, and determines the average timing location of the highest correlation values for each of the first N data bursts; and for the next M data bursts the receiver estimates the timing location of each data burst based on the average timing location for the first N data bursts.


REFERENCES:
patent: 4669091 (1987-05-01), Nossen
patent: 5648991 (1997-07-01), Mamekata et al.
patent: 5740206 (1998-04-01), Lomp et al.
patent: 5838672 (1998-11-01), Ranta
patent: 5999561 (1999-12-01), Naden et al.
patent: 6341226 (2002-01-01), Yamamoto et al.
patent: WO 94/18752 (1994-08-01), None

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