FR2700088A1 - Transcoder synchronisation for radio telephones - Google Patents

Abstract

A base station sends signals to a mobile station with a transcoder (TRAU). The signal is made up of digital word frames. The transcoder carries out an initial alignment stage (I) calculating the delay time (T1 to Tn) in steps (A1...An) by memorising the sum and modulo values of a predetermined transmission frame indicated by the base station.During the static alignment stage (5) the transcoder synchronises to the incoming digital signal, allowing the transmit/received messages to be passed. When a second caller calls, the process of synchronisation is repeated.

Description

METHOD FOR TIME SYNCHRONIZATION OF A SPEECH TRANSCODER AND
BASE TRANSMISSION / RECEIVING STATION IMPLEMENTING THIS PROCESS
The present invention relates to a time synchronization method of a speech transcoder.

 It also relates to a base transceiver station implementing this method.

In digital radiotelephony systems, the communication infrastructure generally consists of BSS base station subsystems each comprising, with reference to FIG. 1, a base station controller BSC, several transmission / reception stations of BTS base (only one of which is shown here) and a speech transcoder and TRAU rate adapter, which will be referred to below as the TRAU transcoder. This transcoder is connected via a high speed communication line (for example, 64 Kbits / second) to a mobile switching center MSC. Each base station
BTS is connected to the base station controller BSC via a communication line 3, for example of the ABIS type at a bit rate of 16 Kbits / second, and manages radio communications with MS mobiles within a cell. exchanged over the air 2 between base stations
BTS and MS mobiles in the form of predetermined configuration speech frames, conforming for example to the GSM recommendation. The transcoder must necessarily be synchronized with the base transceiver station concerned by the communication, in order to minimize the time for transferring speech from the fixed subscriber to the mobile subscriber.

 In current systems, the base transceiver station calculates within a CCU channel coding / decoding unit the delay time between the instant of reception of the frames received from the TRAU transcoder and an ideal instant of reception. . This delay time, calculated on each speech frame, is transmitted to the TRAU transcoder which accordingly adjusts the times of transmission of the frames coming from the transcoder, with respect to a periodic transmission sequence of predetermined period, for example 20 ms.

 This solution has the drawback, however, of requiring each time a new call or change of transcoder a setting cycle which increases the duration during which the speech is almost unintelligible.

 The object of the present invention is to remedy these drawbacks by proposing a method of temporal synchronization of a speech transcoder in a radiocommunication system, in particular a digital radiotelephony system, which allows acceleration of the synchronization of the transcoder.

 According to the invention, the method of time synchronization of a speech transcoder with respect to a base transceiver station processing the speech in the form of speech frames, comprising an initial alignment phase comprising several steps of calculation of delay time to be applied by the transcoder and a static alignment phase, is characterized in that, when a communication channel associated with said base transceiver station is activated, the latter sends to the transcoder a initial alignment request comprising an item of information indicative of an initial delay time to be applied by the transcoder, and in that an item of information calculated from the delay times requested by said base transceiver station is stored for said initial alignment phase, this stored value being used during the next call to generate information indicative of the initial delay time requested.

Thus, with the method according to the invention, there is the saving of a systematic sequence of taring the delay time at the start of each communication and thus the time necessary for the temporal alignment of the transcoder is minimized.
TRAU. In fact, by memorizing a value representative of the delay times applied during the previous call, there is a good starting base for the initial alignment of the frames sent to the base transmitting / receiving station which will therefore supply this memorized value to the transcoder at the start of each call.

 According to a preferred version of the method according to the invention, the stored reference information is the sum, modulo said predetermined period, of the delay times requested by said base transceiver station during the initial phase.

 The information stored is then an image of the cumulative delay time requested from the transcoder during a call.

 In a preferred embodiment of the method according to the invention, the initial alignment request sent by the base transceiver station further includes alignment option information to indicate to the transcoder whether the requested alignment is absolute, namely with respect to the frame transmitted by said base or relative transmit / receive station, namely with respect to the frame transmitted by said transcoder.

 This mode takes into account the so-called "handover" situation in which the transcoder is already activated when a call is initiated and therefore an activated channel. It is therefore necessary to indicate to the transcoder whether the request for initial alignment is to be applied relative to the frame transmitted by the base transmitting / receiving station (absolute alignment) or whether it is to be applied relative to the frame sent by the transcoder rate adaptation unit (relative alignment). The relative alignment option corresponds to the case of the previous synchronization methods and thus allows upward compatibility. This relative alignment option is also applied in the static alignment phases.

 According to another aspect of the invention, the base transceiver station comprising means for remotely controlling transcoder means connected to said base transceiver station by interface means, and means for channel coding / decoding, implementing the method according to the invention, is characterized in that it further comprises means for calculating and for storing, after a call, reference information calculated from time delay requested by said base transceiver station during an initial alignment phase, said channel coding / decoding means being arranged to supply, at each new channel activation, to said transcoder means information representative of a requested initial delay time which is generated from said reference information stored during the previous call.

 Other features and advantages of the invention will appear in the description below.

In the appended drawings given by way of nonlimiting examples:
- Figure 1 is a block diagram of a subsystem
basic of a mobile communication system, in
which the method according to the invention can be implemented
artwork ;
- Figure 2 shows the organization of exchanges of
frames between a transcoder and a unit of
channel coding / decoding during a communication;
- Figure 3 illustrates a first mode of
said absolute synchronization implemented with the
method according to the invention; and
- Figure 4 illustrates a second synchronization mode
said relative implemented with the method according to
the invention.

 We will now describe a particular example of implementation of the method according to the invention, with reference to FIGS. 2 to 4. It is assumed that the TRAU transcoder, placed at a distance from the basic transmission / reception stations BTS, is controlled by the CCU channel coding / decoding unit physically located within the basic transmitting / receiving station BTS.

 When the BSC controller receives a call request from the mobile switching center MSC, for example from a fixed subscriber, the latter sends a channel activation message to the BTS base station concerned by the call. On reception, the base station BTS allocates appropriate radio resources and a channel coding / decoding unit CCU. This CCU coding / decoding unit then begins to transmit frames containing in particular information on the type of frame and the type of channel. Upon receipt of the first frame, the TRAU transcoder sets its operating mode accordingly and begins to transmit frames corresponding to the information received.

 The temporal alignment of the frames sent to the base transmitting / receiving station BTS varies in practice from one call to another because the transcoder TRAU does not have any information on the times of radio transmission of the broadcasting station. base BTS and starts to transmit frames at an arbitrary time, and moreover because the physical paths taken within the communication network and the infrastructure can be different.

 At the start of a communication, the TRAU transcoder normally enters a first initialization and calibration sequence I, with reference to FIG. 2, during which the base station BTS will calculate the appropriate delay time that the transcoder must comply to obtain optimal time alignment and synchronization of the transcoder with respect to the BTS base station. By "delay time" in the method according to the invention means the delay between the instant of reception by the TRAU transcoder of a frame transmitted by the BTS station and the instant of transmission of a frame by the TRAU transcoder, knowing that the times of transmission of .frames by the base station BTS are periodic, of period equal for example to 20 ms. At the end of this first initial alignment sequence I, which can last several periods elementary transmission / reception of frames and ends when the result of two successive calculations no longer varies significantly, we enter a second so-called static sequence S during which the unit modifies the delay time applied only on the order of the BTS station, in particular when a predetermined significant offset is observed.

 The timing diagram of FIG. 2 illustrates the first cycles of frame transmission between the transcoder TRAU and the channel coding / decoding unit CCU of the base station BTS. The BSC controller first transmits a message to indicate to the BTS base station a request for CA channel activation. The TRAU transcoder then executes a procedure 6 for channel allocation and connection. On receipt of this activation request CA, the base station BTS performs a radio channel allocation procedure and of a channel coding / decoding unit CCU. The base station then transmits in a first frame an initial alignment request containing information Xi representative of an initial delay time Ti to be applied by the unit TRAU.

 In response to the reception of the first frame transmitted by the base transceiver station BTS and containing the information Xi representative of the initial delay time requested, the transcoder TRAU transmits a delayed frame of duration equal to Ta + Ti, Ta representing a processing time (not shown) internal to the TRAU transcoder. It should be noted that with the method according to the invention, the requested initial delay time is directly applied by the transcoder.

The frame transmitted by the TRAU transcoder is processed (calculation sequence A1) in the BTS station to generate the future delay time (X1, T1) to be transmitted to the TRAU transcoder.

In the example described, the calculated information X1 is transmitted only in the following frame and the transcoder TRAU applies the corrected delay time only after having indicated it to the basic transmitting / receiving station BTS by sending acknowledgment or recognition information R1. The correction process which has just been described is repeated in the initial alignment phase (calculation sequences: Al, A2, An; information transmitted:
X1, X2, Xn; applied delay times: T1, Tn) until convergence is obtained.

The representative information Xi is generated from reference information M stored at the end of the previous call and which has been calculated from the information Xi, X1, X2, Xn representative of the delay times determined during of calculation sequences (A1, A2,
An) and requested during the initial alignment phase I of the previous call. Thus, in an effective embodiment, the information transmitted X1, X2, Xn can represent an integer to be multiplied by a predetermined delay AT, for example 250 As to provide the delay times Ti, T1, Tn to be applied by the transcoder TRAU with respect to the instants of reception of the frames transmitted by the base station BTS. At the start-up of the base station BTS, the initial information Xi is positioned at an arbitrary value, for example zero and an alignment phase initial I is undertaken.

As a practical example, the stored reference information M may be the sum of the delay times requested, modulo the predetermined period T of transmission of the frames by the base station BTS. It then represents an image of the cumulative value of the delay times requested during the initial alignment phase of the previous call and can in practice be calculated from representative information X1, X2, Xn transmitted during the phase initial alignment. The CCU unit of the base station BTS performs a first calculation A1 of the alignment or delay time to be applied to the transcoder in the form of a quantity X1 which represents for example the multiple to be applied to the elementary duration of 250 gs to obtain the alignment or delay time. A succession of calculations
A1, A2, An of delay time is then undertaken until two successive adjustments become less than 500 gs (convergence). We then enter the static alignment phase S. I1 it should be noted that as soon as a significant misalignment is detected by the base transmit / receive station BTS, we again enter an initial alignment phase I. Furthermore, during this initial alignment phase, the TRAU transcoder begins by indicating to the basic transmitting / receiving station BTS the delay time which will be applied before actually applying it. To minimize the risk of oscillation, the TRAU transcoder waits, after applying a delay, at least three frames before applying a new correction following a request from the base transmitting / receiving station. More generally, a time delay of a predetermined number of frames is applied before any further correction of the delay time applied by the transcoder TRAU. It should be noted that the delays corrected during the static alignment phase must not be taken into account in the calculation of the stored reference information because they correspond to clock shifts which must not be compensated for.

As a practical example, these times can take a value equal to plus or minus 250 gs. In the initial alignment phase I, it is possible that the transcoder
TRAU applies a delay in relative alignment mode, for example 250 gs. This delay cannot be taken into account by the basic transmitting / receiving station BTS for the calculation of the reference information for the next communication.

 When a channel dependent on the basic transmitting / receiving station BTS is activated, it is possible that the TRAU transcoder is already activated, as is the case in the so-called "handover" situation encountered during the passage of a mobile from one cell has another within the same basic BSS subsystem. In this case, it is necessary to indicate to the TRAU transcoder that the delay time requested is absolute, namely that it must be applied relative to the instant of reception of the frame sent by the transmitting / receiving station. basic BTS, with reference to FIG. 3. Another mode is provided in which the requested delay time is relative, namely that it must be applied relative to the last instant of transmission of a frame by the transcoder TRAU , with reference to Figure 4.

This second mode moreover corresponds to the situation encountered in the synchronization methods of the prior art. It is then advantageous to provide in the method according to the invention the possibility of indicating to the TRAU transcoder what type of delay time must be applied. A practical mode of implementation consists in assigning a free bit of a frame transmitted by the basic transceiver station BTS to this alignment option function. For example, if control information is transmitted in 21 bits C1-C21 within a frame TR, we can arbitrarily assign the bit C3 to this function and agree for example that a logical value 1 of this bit corresponds to an absolute delay while a logic value 0 corresponds to a relative delay. The choice of a least significant bit is justified by the concern to minimize the decision delay on the type of alignment. Thus, if we study, with reference to FIG. 3, the case of the transmission within a frame of a first initial alignment request containing the information Xi calculated from the stored information M and an information alignment option indicating an absolute alignment request, this transmission will result in the application of a delay time Ti = Xi.AT applies to the sending of a frame to the transmitting station / basic BTS reception.

 In the case of a relative alignment request, with reference to FIG. 4, the bit C3 takes the logical value 0 and the basic transmitting / receiving station BTS transmits an alignment request containing the bit C3 at the level logic 0 (relative alignment) and information Xi representative of a delay time to be applied and calculated during a calculation sequence A; in return, the unit TRAU transmits a frame containing information Ri of recognition of reception of a delay request, then transmits, after reception of a new frame coming from the basic transmitting / receiving station BTS and containing a alignment request Xi, a second frame by applying a delay equal to the sum of the predetermined period T and a delay equal to Xi.AT. It should be noted that when passing from an absolute alignment request to a relative alignment request, no time delay is effected before the application of a delay time correction.

 With the two options mentioned above, the method according to the invention therefore offers backward compatibility with current time synchronization systems.

 Of course, the present invention is not limited to the examples which have just been described and numerous modifications can be made to these examples without departing from the scope of the invention. Thus, the delay time increments can be modified as a function of the structure of the base transmit / receive stations implementing the method according to the invention. Furthermore, it is possible to envisage other methods of calculating reference information to be stored in order to take into account, for example, specific communication situations.

Claims (9)

 1. Method for time synchronization of a speech transcoder (TRAU) with respect to a base transceiver station (BTS) processing the speech in the form of speech frames, comprising an initial alignment phase (I ) comprising several stages (A1, A2, An) for calculating delay time (T1, T2, Tn) to be applied by said transcoder (TRAU) and a static alignment phase (S), characterized in that, when a communication channel associated with said base transceiver station (BTS) is activated, the latter sends to the transcoder (TRAU) an initial alignment request comprising information (Xi) indicative of an initial delay time (Ti) to be applied by said transcoder (TRAU), and in that a reference information item (M) is stored calculated from the delay times requested by said base transceiver station (BTS) during the initial alignment phase (I), said stored reference information (M) being used during the next call to generate said information (Xi) indicative of the initial delay time requested (Ti).  2. Method according to claim 1, characterized in that the stored reference information (M) is the sum modulo said predetermined period (T), of the delay times requested by said base transmit / receive station (BTS) during the initial alignment phase (I).  3. Method according to one of claims 1 or 2, characterized in that the initial alignment request transmitted by the base transmitting / receiving station (BTS) further comprises alignment option information to indicate if the alignment requested is absolute, namely with respect to the frame transmitted by said base transceiver station (BTS) or relative, namely with respect to the frame transmitted by said transcoder (TRAU).  4. Method according to any one of claims 1 to 3, characterized in that the characteristic information is transmitted to the transcoder (TRAU) in the form of a free bit (C3) within a frame transmitted by the station basic transmission / reception (BTS), to each logical value (0, 1) of said bit (C3) corresponding to a requested type of alignment possible, absolute or relative.  5. Method according to one of claims 3 or 4, characterized in that in response to the reception of alignment information, the transcoder (TRAU) sends to the base transmit / receive station (BTS) acknowledgment information in the case of an absolute alignment request.  6. Method according to any one of claims 1 to 5, characterized in that the transcoder (TRAU) delays its first frame transmission by a time equal to the sum of the initial delay time requested by the transmitting station / basic reception (BTS) and a predetermined internal delay.  7. Method according to any one of claims 1 to 6, characterized in that the transcoder (TRAU) indicates, before each effective application of a delay time (sorting, T2, Tn), at the base transceiver station (BTS), recognition information (R1) of said delay time, with the exception of the initial delay time (Ti).  8. Method according to any one of claims 1 to 7, characterized in that a time delay of a predetermined number of frames is applied before any new correction of the delay time applied by the transcoder (TRAU), except when passing from a request for absolute alignment to a request for relative alignment.  9. Base transceiver station (BTS) comprising means for remotely controlling transcoder means (TRAU) connected to said base transceiver station (BTS) by interface means, and means coding / decoding channel (CCU), implementing the method according to any one of claims 1 to 8, characterized in that it further comprises means for calculating and for storing after a call reference information (M) calculated from the delay times requested by said base transceiver station (BTS) during the initial alignment phase (I), said channel coding / decoding means being arranged to supplying, on each new channel activation, to said transcoder (TRAU) information representative of an initial delay time requested and generated from said reference information (M) stored during the previous call.