DE10001152A1 - Procedure for selecting existing fast retrain profiles - Google Patents

Abstract

The present invention relates to a method for adapting the data transmission rate of a data transmission between a subscriber (1a 1n) and a switching centre (2) to temporarily occurring changes in the line characteristics during data transmission. The line characteristics are detected while a connection is established for data transmission and the data transmission rate is adapted to the detected line characteristics. The invention also relates to a device for carrying out said method.

Description

The present invention relates to a method for adaptation solution of the data transmission rate of a data transmission between a subscriber and an exchange and an apparatus for performing this method.

Modern exchanges in the electronic dialing system di gital (EWSD) are already able to join the participant the analog or digital telephone services in the POTS (Plain Old Telephone Service) or ISDN system also high bit rate Data services in the xDSL (x Digital Subscriber Line) process to provide. So in ADSL (Asymmetric Digital Subscriber Line) procedure from the exchange to the Participants have a data transfer rate of up to 8 Mbit / s and Up to 640 kbit / s possible from the subscriber to the exchange Lich.

The interface between the subscriber and the operator The transmission center forms the line mo dul (also line card or SLMI, subscriber line module inter net), which is located in the exchange. On one The line module consists of several participants (e.g. eight parts subscribers) with their end devices (e.g. analog telephone and Com puter) connected.

On the output side, these line modules have a PCM Interface (pulse code modulation) for the transmission of Voice data into the voice network. They also have these lines modules on the output side via an interface (e.g. in the Frame relay, Ethernet or ATM system) for packet-oriented ten data transmission in a data transmission network with high Data transfer rates.  

Establishing a connection between the subscriber and the operator position is z. B. in the standards of International Telecom munication Union G.992.1 (G.dmt) or G.992.2 (G.Lite) placed. Among other things, these standards include a so-called fast Retrain procedure defined, in which a quick initialization sation phase between the subscriber's terminal and the Exchange is carried out. The final dates transfer rate at which the data transfer takes place, results from the correspondence of the during Initialization phase of measured signal / noise ratio (SNR, Signal to Noise Ratio) with the signal / noise ratio saved profile of the parameters for data transmission.

These parameters and therefore also the data that can be reached rates are thus optimal to the current transmission rate characteristics (characteristics of the line or the participant and system-side facilities) adapted. On the other In the case of mismatch, this also results in CRC errors (Cyclic Redundancy Check).

In the prior art, a frequent occurrence of CRC Errors for automatically triggering a fast retrain. The Fast retrain phase lasts about 1.5 seconds; in these times no data transmission is possible.

The disadvantage of this method, however, is that it is short early changes in line properties, some of them are easy to predict, also a fast retrain is carried out during which no data transmission is possible.

The object of the present invention is thus a method ren to adapt the data transmission parameters of a data transmission between a subscriber and an operator place and a device for performing this procedure rens to provide, in the case of a predictable change change in line properties, the time is reduced in that no data transmission is possible.  

This task is accomplished by a method according to the Claim 1 and an apparatus for performing this Ver driving solved according to the appended claim 7.

By changing the line properties as a result of be certain events are predictable, the data can over rate according to the present invention the changed line properties are adjusted. The Link down times, i.e. H. the times when because of the through Fast retrain no data transmission possible is reduced.

Advantageous refinements of the present invention are specified in subclaims 2 to 6 and 8 to 12.

The line properties change e.g. B. at an incoming another subscriber's phone call. Through the AC voltage (with values up to 150 V peak-to-peak) during the ringing phase (ring ON and ring OFF alternately) is generated, the line properties become like this affects that the maximum possible data transfer rate sinks.

According to the standards already mentioned, there is a new initial sation phase, d. H. a fast retrain is provided. According to the This invention is this event, the one before predictable change in the line properties, depending predictable, and the data transfer rate is ent speaking reduced. It becomes a data transfer rate selected for both the Ring-AN and the Ring OFF state is valid.

This data transfer rate can now be used throughout the remaining duration of the data transmission are retained, or the data transfer may end after the event are automatically increased again.  

Because the data transfer rates on one line differ which frequency ranges are different is the course the data transfer rate over the frequency range in so-called named profiles saved. According to the present invention If there is a predictable change in lei a data profile choose the one that corresponds to the relevant line properties ten is coming.

The present invention preferably comes in data transfer systems to use, which according to the xDSL process, d. H. e.g. B. work according to the ADSL or UDSL method.

The present invention will hereinafter be more preferred based on Embodiments with reference to the accompanying drawings explained in more detail, in which:

Fig. 1 shows the schematic structure of a switching center with the participants connected to it

Fig. 2a the distribution of the frequency spectrum in ADSL data transmission

Fig. 2b shows an example of a profile for the data transmission parameters, and

Fig. 3 shows the device according to the invention.

As is apparent from Fig. 1, the switching center (Central Office, CO) 2 includes the line modules 3 a,. , ., 3 n for connecting the subscribers or their end devices (customer premises equipment, CPE) 1 a,. , ., 1 n to the switching center 2 . These line modules 3 a,. , ., 3 n represent the participants 1 a,. , ., 1 n both conventional telephone services (POTS or ISDN) are available as well as high bit rate data services (such as ADSL, UDSL).

The participants 1 a,. , ., 1 n are different end devices, such as a phone 11 a,. , ., 11 n and a computer with an xDSL modem 12 a,. , ., 12 n to use the services offered. The services offered are at the subscriber 1 a,. , ., 1 n by a splitter 13 a,. , ., 13 n divided between the respective devices.

In the exchange 2 , the services offered by the line card 3 a. , ., 3 n divided over the respective transmission networks. So voice data z. B. in the PCM process over the voice network and hochbitra term data transmission takes place via its own interface, the z. B. is connected to the Internet (data network).

The xDSL data transmission is described below using the frequency spectrum of the ADSL system, as shown in FIG. 2a.

The frequency band is divided as follows: In the area Up to 30 kHz, the transmission of telephone services (analog or digital) instead. The frequency range from 30 kFz to 138 kFz is used for data transmission from the participant to the Ver center (data upstream) and the range of 138 kHz up to 1.1 MHz for data transmission from the exchange to the participant (data downstream).

The data transmission is again in individual Ab cuts, the so-called bins, divided over the frequency range. Each bin occupies a certain frequency range a bandwidth of 4.3125 kHz, the Da transmission using the quadrature amplitude modulation method (QAM) with an adjustable bit rate. The entire da The transmission rate is the sum of the data transfer rates of the individual bins.

Apart from the electrical parameters, the maximum transmission capacity of a transmission channel results from the signal / noise ratio. This means that the lower the signal / noise ratio, the lower the transmission capacity. This transmission capacity decreases, as can be seen in Fig. 2a, with increasing transmission frequency.

A profile stored for the fast retrain phase contains a certain data transmission rate for each bin (specified in bits per bin per Hz), as can be seen in FIG. 2b. In the case of a fast retrain, the channel or line properties of the transmission channel are determined, and a profile is selected in accordance with the maximum possible capacity of the transmission channel that comes closest to these determined line properties. The set data transfer rate is usually set lower than the maximum possible data transfer rate in order to obtain a security reserve during data transfer.

There are several sol for the selection of the data transmission capacity saved profiles to allow data transfer to adapt different line properties. This line However, properties can change during the duration of a ver Seriously change the binding for data transmission. Comes z. B. during this time a phone call from another subscriber, then the will decrease during the ringing phase (Ring-AN) maximum possible data transmission rate of the line or Transmission channel.

Accordingly, the data transfer rate during the clin gel pause (ring OFF) again larger. This changes the lei After a single measurement, the properties are exactly before predictable, since the duration of the ring ON or ring OFF phase is exact is specified.

According to the present invention, e.g. B. at an incoming menden call that he from the corresponding line module is known, selected a profile that the changed Lei corresponds to the properties. This will make the link down Times, d. H. the times when no data transmission is significantly reduced.  

As can be seen from Fig. 3, the device according to the invention for carrying out the method according to the invention is implemented on the line card 3 , which is located in the exchange.

During the establishment of the connection, the line properties are determined by the line card 3 by measuring the transmission line between the switching center and the subscriber with regard to the maximum possible data transmission rate.

After the maximum possible data transfer rate has been determined, a corresponding profile that comes closest to the measured line properties is selected and set. A large number of possible profiles are stored in the storage device 33 .

Is z during the connection. B. registered by the means 32 an incoming call, the data transmission rate is automatically adapted to the line properties by the means 31 , which changes due to the blade phase of the incoming call. In this case, a profile is selected which is stored in the memory device 33 and which comes closest to the measured line properties.

Likewise, the end of the specific event, ie the end of the ringing phase, is recognized by the means 32 . The clin gel phase is z. B. then to an end when the called subscriber answers or when the calling subscriber hangs up without a conversation.

At the end of the event, the currently set one can be used Profile can be maintained or it will be the previous one Profile set again.

Claims (12)

1. Method for adapting the data transfer rate of a data transfer between a participant 1 a. , , 1 n and a switching center 2 to temporarily occurring changes in the line properties during the duration of the data transmission, the line properties being determined during connection establishment for data transmission and the data transmission rate being adapted to the determined line properties, with an automatic adaptation of the data transmission rate to predictable changes in the line properties during the Duration of the data transmission, whereby the predictable changes in the line properties are caused by certain events. 2. The method according to claim 1, characterized, that the data transfer rate is adjusted by at the event is reduced. 3. The method according to claim 1 or 2, characterized, that the data transfer rate is adjusted by after is increased again after the end of the event. 4. The method according to claim 1, 2 or 3, characterized, that the ringing phase of an incoming call is an event is where the line characteristics are more predictable Change way.   5. The method according to any one of claims 1 to 4, characterized, that to adapt a preset profile with transfer Is used parameters that correspond to the changed Lei tion properties is adjusted. 6. The method according to any one of claims 1 to 5, characterized, that it is used in the ADSL or UDSL transmission method becomes. 7. Device for performing the method according to one of claims 1 to 6, with means ( 31 ) for automatically adapting the data transmission rate to predictable changes in line properties during the duration of the data transmission, the predictable changes in line properties being caused by certain events . 8. The device according to claim 7, characterized in that the means ( 31 ) for automatically adjusting the data transfer rate adjust the data transfer rate by reducing the data transfer rate at the event. 9. The device according to claim 7 or 8, characterized in that the means ( 31 ) for automatically adjusting the data transfer rate adjust the data transfer rate by increasing the data transfer rate after the end of the event. 10. Apparatus according to claim 7, 8 or 9, characterized by means ( 32 ) which recognize the ringing phase of an incoming call as an event which changes the line characteristics in a predictable manner. 11. The device according to any one of claims 7 to 10, characterized in that the means for automatically adjusting the data transmission rate for adjustment use a stored in a storage device ( 33 ) profile with transmission parameters, which is adapted to the changed line properties. 12. The device according to one of claims 7 to 11, characterized, that they are used in the ADSL or UDSL transmission method becomes.