DE19647630C2 - Method for digital information transmission between a transcoding unit and a base station in a mobile radio network - Google Patents

Description

The invention relates to a method for digital information onstransmission between a transcoding unit and a Base station in a cellular network and an arrangement for digital signal processing for such information transmission.

An example of a digital cellular network is the cellular right mobile radio system GSM (Global System for Mobile Communicati on). In this system, the multiple access method TDMA (Time Division Multiple Access) used, where Mobilsta tion by different time slots of a time multi plexsystems can be distinguished.

Fig. 1 shows a block diagram of such a cellular network zes, the coverage area is divided into several cells Z. In a cell Z, the telecommunication service from and to a mobile station MS is provided by a base station BTS. One or more base stations BTS are connected to a base station controller BSC. The base station controller BSC performs the local functions of call switching, monitoring and maintenance. The adaptation of the data of the mobile radio network to a telephone network is carried out by a transcoding unit TRAU.

The total of the base stations BTS, the base stations control BSC and the transcoding units TRAU is as Ba sisstation system called BSS. Multiple base station taxes BSC are connected to a switching center MSC, which are part of a public telephone network PSTN connected switch SSS. The distant PSTN can act as an ISDN network, as a further mobile radio  network or trained as any other telephone or data network be. Such a system is, for example, in one Siemens AG publication, DIN 900 Mobile Communication Sy stem, System Description, SYD, 1992.

When transferring voice to or from a Mobilsta tion, it is generally known to be analog on the transmission side To sample speech information and in a speech encoder implement digitally encoded voice information and this ge if necessary, to be transmitted with error protection. On the reception the digitally encoded speech information is then displayed again converted into analog voice information.

In the above-mentioned cellular network GSM, which is only for Presentation of the technical background of the invention serves without restricting the generality of their use, the transcoding unit TRAU carries out the adaptation of the data te, which are transmitted by the telephone network PSTN to the data rate defined and available in the mobile network.

For information transfer between the transcoding unit TRAU under a BTS base station, frames are used whose data symbols in a continuous flow of data from the transmission side to the reception side. Reception synchronization on one side is performed leads by ge according to a known sequence of data symbols is searched and when they are found, the beginning of the frame is recognized becomes.

From the GSM specification 08.60 version 5.0.0 from March 1996, Pages 11 to 15 and 26 a frame structure is known at the 16 bits with the value "0" result in a synchronization pattern ben. In addition to a number of check bits, 260 bits of user data are also available (D1 to D260). Since the data symbols of the digital User data can represent any "0" or "1" values, could include sequences of 16 or more within the payload successive "0" values occur. Since this becomes a  incorrect synchronization on the receiving side would, 15 user data data symbols are each by a fe First data symbol set to "1" separated. Thus a Data symbol sequence of 16 "0" values never occur. Becomes such a frame with 260 bit user data within 20 msec transmitted, this results in a transmission rate of 13 Kbps.

The invention has for its object a method and to provide an arrangement for digital signal processing, at which the data rate for information transmission increases can be edited. This task is followed by the procedure the features of claim 1 and the arrangement solved the feature of claim 7. Training the invention can be found in the subclaims.

The digital information transfer between a transco diereinheit and a base station in a cellular network follows in frame. Will be on the sending side when compiling of a frame checksum bits entered. On the reception side follows a checksum bit evaluation, whereby when determining of errors a synchronization to a subsequent frame he follows. By putting together a frame like this, can a synchronization based on the checksum bit evaluation errors are detected, whereupon the fastest possible again synchronization to either a following frame or to the previous synchronization pattern.

In contrast to the previously described solution no symbol values on the transmission side to prevent false syn chronizations are provided. Thus within ei free additional data symbols, which are used for the transfer of user data can be used. So that becomes a increased data rate during transmission between transcoders unit and base station possible.  

According to a development of the invention is called Synchronisa pattern within a sequence of successive dates transmit symbols, which are received on the receiving side to the Symmetrisati on is used. Regardless of the synchronization pattern can but also an identical sequence of data symbols in within the information to be transmitted successive data symbols within the frame be worn. The arrangement of data symbols for use transmission is therefore not subject to any restrictions thrown because the control of the synchronization by ge called checksum bit evaluation takes place. This enables one greater flexibility in the design of the frames.

According to a further embodiment of the invention, a Framework for a communication link 320 bits and is in transmitted within approx. 20 ms. Each frame contains 288 bit user data. There is a da in this frame structure 14.4 Kbit / s possible. This data rate is special advantageous for a transmission of facsimile messages and for modem transmissions.

According to further refinements of the invention, Syn chronization pattern a sequence of 16 "0" values and 6 tests sum bits used per frame. When using 16 "0" values as a synchronization pattern result in a simple che implementation, since known synchronization algorithms of the GSM cellular network can be used. The 6 checksum Menbits for the 288 bit user data allow with high security proof of synchronization errors. More advantageous the 6 checksum bits are divided into 2 blocks of three each because 144 bits of user data are split, which in turn leads to be Known algorithms for checksum bit evaluation can be opened.

In the following the invention will refer to drawings cal representations using exemplary embodiments he closer purifies.  

Show

Fig. 1 is a block diagram of a mobile radio network,

Fig. 2 is a block diagram of the information transmission between rule's transcoding unit and a base station and

Fig. 3 shows a frame for information transfer.

. When shown in Figure 1 and initially Mo described bilfunknetz is for example a GSM cellular radio system (or a DCS 1800 and PCS-1900 System), holders via the voice information and data from and to mobile radio part - mobile stations MS - transmitted can be.

The German patent P 44 16 407 can function way of speech coding and decoding, as well as speech transmission can be removed. The frames TRAU frame transpor the voice-coded language information a speech duration of 20 msec and on the other hand they contain Control signals about the state of the included Sprachda provide information so that the data on the relevant Speech processing functions in the transcoding unit TRAU can be passed on. Instead of the voice information NEN, the frames TRAU frames can also data z. B. for one Contain fax or other service realized by a modem ten.

In Fig. 2, the information transfer between Transko diereinheit TRAU and base station BTS is shown schematically on a base station controller BSC. Both the base station BTS and the transcoding unit TRAU contain arrangements for digital signal processing DSP, which can be designed as a digital signal processor or as an application-specific circuit. A controller SE carries out the compilation of frames TRAU frames and the receiving side evaluates the frames TRAU frames. The frames TRAU frames are buffered in a memory SP. The control device SE of the received device BTS or TRAU additionally carries out the synchronization with regard to the data stream which is formed by the continuous succession of frames TRAU frames.

The interface between the BTS base station and base station ons control BSC is used as Abis interface and the cut place between base station controller BSC and transcoder unit TRAU referred to as the Asub interface. The transfer supply is wired via a PCM24 or PCM30 Route. A PCM30 link has a transmission rate of 2 Mbit / s (30 channels with 64 Kbitsec each) as they are from a distance network PSTN of the transcoding unit TRAU is supplied. Furthermore, the transcoding unit TRAU can be a sub-multi have plexing function, allowing up to 4 traffic channels 16 Kbit / s can be administered on a 64 Kbit / s line can.

In the following, the transmission from the transcoding unit TRAU to the base station BTS will be considered as an example. The transcoding unit TRAU logically belongs to the base station system BSS and is controlled and monitored by the base station BS, by the base station controller BSC or by both. It can be arranged at the exchange MSC between the water and the base station controller BSC or at the base station controller BSC. Another possibility is to arrange the transcoding unit TRAU between the base station BTS and the base station controller BSC. For the further explanations, as shown in FIG. 2, it is assumed that it is located at the switching center MSC, namely between the latter and the base station controller BSC.

The transcoding unit TRAU does not contain a plurality of Transcoders shown, the conversion for each channel Information received from the PSTN telephone network functions in the TRAU frame for transmission to the base station Make BTS. For frames arriving from the BTS base station The TRAU transcoding unit provides the Emp start side, whereby an implementation of the framework TRAU frames in a corresponding protocol for transmission to Exchange MSC takes place.

Below is a protocol for the frames TRAU frames Transmission between the transcoding unit TRAU and the base station BTS described. This protocol provides an alternative that in the GSM specification 08.60 version 5.0.0 from March 1996, pages 11 to 15. The data rate here is each but 14.4 Kbit / s and is particularly suitable for higher-rate Fax and modem transmissions.

The transmission protocol shown in FIG. 3 defines the following frame TRAU frame for information transmission:

At the beginning, 16 data symbols with the value "0" are transmitted. These 16 data symbols serve as a synchronization pattern is evaluated at the receiving end and the facility for loading agree the beginning of the frame.

This is followed by a value set to "1" and 5 data symbols Control characters that indicate the frame type. These 5 con For example, troll bits are assigned "10100".

The control bits are followed by 3 empty symbols SP, which are for late re applications can be defined.

A data symbol DTX is used for discontinuous display Chen transmission, for which the transcoder A non-transparent transmission pertaining to TRAU such a discounted transfer is marked, or  the data rate marked for a transparent transmission is not. User data symbols D1 to D144 and 3 test follow sum bits CRC1 to CRC3. This is followed by further benefits data symbols D145 to D288 and a further 3 checksum bits CRC4 up to CRC6.

Polynomials are used for the checksum bits CRC1 to CRC6 det, as for a so-called enhanced full rate transmission tion are proposed according to the GSM specification.

Such a frame TRAU frame is used in the sending facility compiled and transferred. At the receiving Setup is based on the synchronization pattern a syn chronization carried out on the frame TRAU frame and the subsequent data symbols evaluated. The following stel len for checksum formation CRC1 to CRC6 are so evaluates that the receiving institution can determine whether correctly received the data symbols of the frame TRAU frame were.

If no errors are found, then a correct synchronization and error-free reception be. However, if an error is found, then depending on the number of errors on a faulty syn chronization closed. This incorrect synchronization can have occurred that within the user data symbols D1 to D288 the data symbols of the synchronization sters were included. Therefore, on finding one Error in the checksum bit evaluation a new synchro initiation. This resynchronization can be for an immediately following frame TRAU frame or only at error that has been detected several times. It is ever but also possible to move towards the original synchronization switch back.

Claims (8)

1. Method for digital information transmission between a transcoding unit (TRAU) and a base station (BTS) in a mobile radio network, in which

• 1. the information is transmitted in frames (TRAU frame),
• 2. Checksum bits (CRC1 to CRC6) are entered on the transmission side when compiling a frame (TRAU frame),
• 3. a checksum bit evaluation takes place at the receiving end, and
• 4. At the receiving end, synchronization with a subsequent frame (TRAU frame) takes place when errors are detected.

2. The method according to claim 1,
in which a sequence of successive data symbols is transmitted as a synchronization pattern in the frame (TRAU frame), and
an identical sequence of data symbols within the information to be transmitted is entered on the transmission side to successive data symbols within the frame (TRAU frame). 3. The method according to claim 1 or 2, in which for a communication link on average Frame (TRAU frame) with 320 bits per 20 ms is transmitted and each frame (TRAU frame) contains 288 bit user data. 4. The method according to claim 3, at the 16 "0" values as data symbols of the synchronization patterns and 6 checksum bits (CRC1 to CRC6) per frame (TRAU frame) can be used. 5. The method according to any one of the preceding claims, where the checksum bits (CRC1 to CRC6) are independent of Error correction bits are used for error correction within of the user data are used. 6. The method according to any one of claims 3 to 5,  in which the information transmission at a data rate of 14.4 kbit / s takes place. 7. Arrangement for digital signal processing for information transmission between a transcoding unit (TRAU) and a base station (BTS) of a mobile radio network, the information being transmitted in frames (TRAU frame),

• 1. with at least one memory (SP) for temporarily storing frames (TRAU frame), in which checksum bits (CRC1 to CRC6) have been entered on the transmission side,
• 2. with a control device (DSP) for receiving-side evaluation of checksum bits (CRC1 to CRC6) and for synchronizing the signal processing to a following frame (TRAU frame) if errors have occurred within the received checksum bits (CRC1 to CRC6).

8. Arrangement according to claim 7, that as a digital signal processor or application specific Circuit is formed.