DE19807186A1 - Device and method for sending and / or receiving data in an SDH or. PDH transmission system - Google Patents

Abstract

Disclosed is a device for transmitting data in an SDH or a PDH transmission system, comprising a device (2) for arranging data coming in through several data channels in flexible length minicells (7) and a device (3) for generating a single data on the basis of said the minicells (7). The inventive device is characterized by a device (6) that directly generates transmission for the SDH or the PDH transmission system on the basis of the data flow. The invention also includes a method for sending data in an SDH or a PDH transmission system, comprising the following steps: arranging the data coming in through several data channels in flexible length minicells; generating a single data flow on the basis of the minicells and directly generating transmission frames for the SDH or PDH transmission system on the basis of the data flow. The present invention further comprises a corresponding device and a corresponding method for receiving such data in an SDH or PDH transmission system. The invention enables the use of existing and pending AAL2 standards by avoiding transmission band width losses associated with the use of ATM cells.

Description

The present invention relates to a device and a Methods for sending and / or receiving data, such as. B. compressed voice data in an SDH or PDH transmission system.

When transferring data such. B. of compressed Voice data, in SDH or PDH transmission systems (SDH: Syn Chrone digital hierarchy, PDH: Plesiochronous digital hierarchy chie) are available on several different voice channels Coming data summarized in time division multiplex and over one single channel, such as B. transmit a 64 kbit / s channel. This results in a higher out by the compression factor use of the transmission path. So far, for together summarize the channels, such as B. in mobile communications, static multi plex method used. The prerequisite for this is that al data arriving on the different voice channels the same rate to be compressed and that rate does not change during operation. The data on the ver different data channels arrive regularly and are table, d. H. gemul according to a certain fixed scheme tiplexes.

This has the disadvantage that a flexible transmission under different data rates for the individual voice channels is possible. Furthermore, there is no static multiplexing Reduction of the channel width by suppressing speech pause possible.

ATM adaptation layer 2 (AAL 2) was defined in the ITU-T I.363.2 standard for the joint transmission of several voice channels over ATM transmission networks (ATM: Asynchronous transfer mode or Asyn chron transmission mode). The AAL2 specification describes a cell-oriented two-stage method which is explained with reference to FIGS . 4 and 5. In the first stage 1 a, 1 b,. . . 1 n supplied voice data in a device 2 in mini cells 7 of flexible length. Such mini cells 7 a, 7 b,. . . 7 n are shown by way of example in FIG. 5. Each mini cell has at its beginning a mini cell head 8 a, 8 b,. . . 8 n on. The part of the mini cells 7 a, 7 b, following the respective mini cell head. . . 7 n contains the respective voice data 9 a, 9 b,. . . 9 n of the respective voice channel 1 a, 1 b,. . . 1 n.

The mini cells 7 a, 7 b,. . . 7 n are combined in a device 3 to form a single data stream, ie arranged one behind the other, as shown in FIG. 5. The device 3 thus carries out statistical multiplexing of the mini cells 7 a, 7 b,. . . 7 n to combine them into a single data or mini-cell stream.

In the second stage of the method described in the AAL2 specification, the data stream is finally packaged in a device 4 in ATM data packets. In other words, data packets which correspond to the asynchronous transmission mode are generated in the device 4 from the data stream. Since an ATM header 10 and a start field 11 are added to each ATM data packet at the beginning. The start field 11 contains an offset field 12 as well as a sequence number 13 and a parity bit 14. The offset field 12 contains information about the position of the respective mini cells 7 in the ATM data packet. The following ATM data packet similarly contains an ATM Head 15 , a start field 16 and a mini cell 7 n. The space which is not required in this ATM data packet is filled up by filler data 17 .

The ATM data packets are implemented in a device 5 in frame structures, ie in transmission frames which correspond to the SDH or PDH transmission system in which the data are to be transmitted. The transmission can take place for example via radio or via fixed lines. The transmitted SDH or PDH transmission frames are received by a receiving device which has the corresponding inverse devices such as the transmitting device shown in FIG. 4. The disadvantage of this method described in the AAL2 specification is that before the voice data can be transmitted in the SDH or PDH transmission system, they first have to be inserted into ATM data packets, as a result of which the available or the possible Transmission bandwidth is reduced.

The object of the present invention is thus a pre direction for sending data in an SDH or PDH transmission system according to the preamble of the attached app Proverb 1, a method for sending data in an SDH or PDH transmission system according to appended claim 6, a device for receiving data in an SDH or PDH transmission system according to the preamble of the attached Claim 10 and a method for receiving data in egg nem SDH or PDH transmission system according to the attached An Proposition 15 to provide an increased transmission band wide when transferring data, e.g. B. of compressed Voice data, enable.

This object is achieved by a device and a ver drive to send data in an SDH or PDH transmission system with the features of the appended claim 1 or the features of the appended claim 6. The task is further solved by an apparatus and a method to receive data in an SDH transmission system with the features of the appended claim 10 and the appended claim 15.

The device and method for sending data in egg nem SDH or PDH transmission system according to the present  Invention are particularly characterized in that instead or alternatively to generate the asynchronous transmission mode corresponding data packets (ATM data packets) single data stream existing directly to the mini cells in the frame structure of the SDH or PDH transmission system is formed.

The same applies to the device or the method for receiving data in an SDH or PDH transmission system according to the present invention instead of or alterna tiv for generating ATM data packets from the incoming, the SDH or PDH transmission system corresponding transmission frame directly generates a data stream from which like around which the mini cells are restored.

The present invention allows a much better re utilization of the transmission bandwidth in SDH or PDH Transmission systems, for example in the transmission of compressed voice data. Furthermore, the present allows Invention also the use of different compression rates and compression methods within a multiplex well dels and in particular the use of language breaks squeeze at which unnecessary transmission capacity during the pauses in speech, for example, by statistical multiple xen be filled with the voice data of other channels.

Advantageous refinements of the present invention are defined in the respective subclaims.

Advantageously, the device or Method of sending data according to the present invention for each transfer generated directly from the data stream frame position information regarding the location of the he most mini cell generated in the transmission frame. This posi tion data are advantageously at the beginning of each SDH or PDH transmission frame arranged. Wei it is also advantageous if in the device or  Method for sending data when generating the data stream statistical time division multiplexing of the data in the multiple data banks incoming data is carried out. The statistical Time division multiplexing makes it possible with different compresses sion rates arriving on the different voice channels multiplex and create a single data stream. If the device according to the invention for sending data can also transfer data according to the AAL2 specification NEN, are still a device for generating ATM data packets from the data stream and a device for Generate from the SDH or PDH transmission system to provide the transmission frame from the ATM data packets. In In this case, the device according to the invention can either in parallel or alternatively data corresponding to the AAL2 standard and according to the present invention gen. In particular, the present invention ensures also the compatibility of the device or the process rens for sending and receiving data with the AAL2 spec cation and / or to be determined with higher layers Standards. Thus, the present invention allows it to be used existing and still to be determined AAL2 standards under Um loss associated with the use of ATM cells transmission bandwidth.

In the device or the method for receiving data according to the present invention, the data stream is advantageous unfortunately based on in every SDH or PDH transfer position data contained in the frame with respect to the location of the generated the first mini cell in the transmission frame. Advantage The position data is unfortunately at the beginning of each arranged transmission frame. Distributing the in Wed. Data contained in the data stream is replaced by Demul tiplexing of the data stream according to that in the mini cell head contained information carried out. So that the fiction according device for receiving data also in an over support system can be used, which on the AAL2 Specification based, are advantageously still a  Means for recovering from the ATM transmission mode corresponding data packets from the SDH or PDH transmissions supply frame and a device for generating the data stream to provide from the ATM data packets. The reception can the data according to the AAL2 specification in parallel or alterna tiv for data reception according to the invention.

The present invention is further directed to a system for Transmission of data in an SDH or PDH transmission system directed, which is a device for sending data and a device for receiving data according to the present ing invention.

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

Fig. 1 is a block diagram of an apparatus for transmitting data in an SDH or PDH transmission system in accordance with the present invention,

Fig. 2 of the frame according to the invention supply a schematic representation of data generated when sending minicells and Übertra,

Fig. 3 is a block diagram of an apparatus for receiving data in an SDH or PDH transmission system in accordance with the present invention,

Fig. 4 is a block diagram of an apparatus for transmitting data in an SDH or PDH transmission system in accordance with the AAL2 specification, and

Fig. 5 is a schematic representation of mini cells and ATM cells generated according to the AAL2 specification.

Fig. 1 is a block diagram showing an embodiment of an apparatus for transmitting data in an SDH or PDH transmission system in accordance with the present invention. In several different voice channels 1 a, 1 b,. . . 1 n supplied voice data are stored in a device 2 in mini cells 7 a, 7 b,. . . 7 n arranged. The mini cells 7 a, 7 b,. . . 7 n have flexible lengths depending on the respective amount of voice data, as shown schematically in FIG. 2. The beginning of each mini cell 7 a, 7 b,. . . 7 n forms a mini cell head 8 a, 8 b,. . . 8 n of the respective speech data 9 a, 9 b,. . . 9 n corresponding length has followed.

The mini cells 7 a, 7 b,. . . 7 n are combined in a statistical multiplexer 3 to form a single data stream, where the mini cells formed are lined up as a function of their time of arrival, as shown in FIG. 2.

The transmission device shown in Fig. 1 also has a transmitter branch according to the AAL2 specification, in which a device 4 generates data packets from the data stream ATM or the asynchronous transmission mode, from which in turn 5 transmission frames are generated in a device that correspond to the SDH or PDH transmission system.

According to the invention, transmission frames corresponding to the SDH or PDH transmission system are generated directly from the data stream in a device 6 , depending on the application, or alternatively. FIG. 2 shows an example of the direct generation of a PDH frame 18 from the data stream. The device 6 inserts a start field 20 at the beginning of the PDH transmission frame 18 , ie after the start of the frame 19 , which contains an offset field 21 , a sequence number 22 and a parity bit 23 . The offset field 21 contains data which identify the position of the first mini cell 7 a in the PDH frame 18 . The start field 20 of the PDH frame 18 corresponds essentially to the start field 11 of the ATM data packets shown schematically in FIG. 5. At the end of the PDH frame 18 , fill data 24 are provided in order to fill up the space which is not required.

In Fig. 3 is a block diagram of an embodiment of an apparatus for receiving data in an SDH or PDH transmission system according to the present invention is Darge. The receiving device is also designed for alternative or parallel operation in a transmission system that complies with the AAL2 specification and comprises in its AAL2 reception branch a device 25 to which transmission frames arrive which correspond to the SDH or PDH transmission system. This data can be transmitted either for example via mobile radio or via fixed lines. The device 25 generates corresponding data packets from the frame ATM or the asynchronous transmission mode corresponding to the SDH or PDH transmission system. A device 26 generates a data stream consisting of mini cells from the ATM cells. A demultiplexer 28 distributes the mini cells contained in the data stream to the respective voice channels 30 a, 30 b. . . 30 n and a device 29 generates the corresponding speech signals from the information in the mini cells. The devices 25 , 26 , 28 and 29 thus correspond to the AAL2 specification.

According to the invention, a device 27 is provided in which the incoming transmission frames, which correspond to the SDH or PDH transmission system, are converted directly into a data stream. The device 27 thus operates independently of the requirements, alternatively or in parallel with the devices 25 and 26. The data stream generated directly in the device 27 is fed to the demultiplexer 28 in a manner similar to the data stream regenerated in the device 26 .

The present invention further comprises a transmission system which includes a device for transmitting data in accordance with the embodiment shown in FIG. 1 and a device for receiving data in accordance with the embodiment shown in FIG. 3. The SDH or PDH transmission system, according to which the data is transmitted, can be a mobile radio system, a system with fixed lines, etc.

Reference list

1

a,

1

b,. . .

1

n voice channels

2nd

Device for generating mini cells

3rd

Device for generating a data stream (statistical multiplexer)

4th

Device for generating ATM data packets

5

Device for generating SDH / PDH transmission frames

6

Device for directly generating SDH / PDH transmission frames from the data stream

7

a,

7

b,. . .

7

n mini cells

8th

a,

8th

b,. . .

8th

n mini cell heads

9

a,

9

b,. . .

9

n voice data

10th

Head of an ATM data packet

11

Starting field

12th

Offset field

13

Sequence number

14

Parity bit

15

Head of an ATM data packet

16

Starting field

17th

Fill data

18th

PDH transmission frame

19th

Beginning of the PDH transmission frame

20th

Starting field

21

Offset field

22

Sequence number

23

Parity bit

24th

Fill data

25th

Device for retrieving ATM data packets from SDH / PDH transmission frames

26

Means for recovering a data stream from ATM data packets

27

Device for the direct retrieval of a data stream from SDH / PDH transmission frames

28

Device for distributing data on data channels (demultiplexer)

29

Device for restoring the data from the mini cells

30th

a,

30th

b,. . .

30th

n voice channels

Claims (19)

1. Device for sending data in an SDH or PDH transmission system, with
a device ( 2 ) for arranging data arriving in several data channels ( 1 ) in mini cells ( 7 ) of flexible length,
a device ( 3 ) for generating a single data stream from the mini cells,
characterized by a device ( 6 ) for directly generating data packets corresponding to the SDH or PDH transmission system from the data stream. 2. Device for sending data in an SDH or PDH transmission system according to claim 1, characterized by
a device ( 4 ) for generating data packets corresponding to an asynchronous transmission mode from the data stream, and
a device ( 5 ) for generating transmission frames corresponding to the SDH or PDH transmission system from the data packets corresponding to the asynchronous transmission mode, 3. Device for transmitting data in an SDH or PDH transmission system according to claim 1 or 2, characterized in that the device ( 6 ) for directly generating transmission frames corresponding to the SDH or PDH transmission system in each transmission frame position data ( 20 ) with respect to the position of the first mini cell in the transmission frame. 4. Device for sending data in an SDH or PDH transmission system according to claim 3, characterized in that the device ( 6 ) for directly generating from the SDH or PDH transmission system corresponding transmission frame, the position data ( 20 ) at the beginning orders a respective transmission framework. 5. Device for sending data in a data transmission system according to one of the preceding claims, characterized in that the device ( 3 ) for generating a single data stream is a device for statistical time multiplexing of the incoming data in the plurality of data channels ( 1 ). 6. A method for sending data in an SDH or PDH transmission system, with the following steps:
Arranging data arriving in several data channels in mini cells of flexible length,
Generating a single data stream from the mini cells, and
direct generation of transmission frames corresponding to the SDH or PDH transmission system from the data stream. 7. Method for sending data in an SDH or PDH Transmission system according to claim 6, characterized, that when generating directly from the SDH or PDH transmission system appropriate transmission frame for each transfer frame position data regarding the location of the first Mini cell are generated in the transmission frame. 8. Procedure for sending data in an SDH or PDH transmission system according to claim 6, characterized, that the position data at the beginning of each transfer be arranged framework. 9. Procedure for sending data in an SDH or PDH transmission system according to one of claims 6 to 8,  characterized, that when generating the data stream, a statistical time multiplier plex the data arriving in the multiple data channels is carried out. 10. Device for receiving data in an SDH or PDH transmission system, with
a device ( 27 ) for directly generating a single data stream from the SDH or PDH transmission system corresponding to the incoming transmission frame,
a device ( 28 ) for distributing data contained in mini cells in the data stream to respective data channels, and
a device ( 29 ) for restoring the data of the individual data channels ( 30 ) from the mini cells. 11. Device for receiving data in an SDH or PDH transmission system, characterized by
means ( 25 ) for recovering data packets corresponding to an asynchronous transmission mode from the incoming transmission frames corresponding to the SDH or PDH transmission system, and
means ( 26 ) for generating the data stream from the data packets corresponding to the asynchronous transmission mode. 12. A device for receiving data in an SDH or PDH transmission system according to claim 10 or 11, characterized in that the device ( 27 ) for directly generating the data stream from the incoming transmission frame corresponding to the SDH or PDH transmission system Data stream generated on the basis of position data ( 20 ) contained in each transmission frame with respect to the position of the first mini cell in the transmission frame. 13. An apparatus for receiving data in an SDH or PDH transmission system according to claim 12, characterized in that the position data ( 20 ) are arranged at the beginning of a respective transmission frame. 14. Device for receiving data in an SDH or PDH transmission system according to one of claims 10 to 13, characterized in that the device ( 28 ) for distributing the data a device for demultiplexing the data stream according to the information contained in the mini cell head is. 15. A method for receiving data in an SDH or PDH transmission system, with the following steps:
direct generation of a single data stream from the incoming transmission frame corresponding to the SDH or PDH transmission system,
Distribution of data contained in mini cells in the data stream to respective data channels, and
Restore the data of the individual data channels from the mini cells. 16. Method for receiving data in an SDH or PDH Transmission system according to claim 15, characterized, that the data stream is based on in each transmission frame position data regarding the position of the first Mini cell is generated in the transmission frame. 17. Method for receiving data in an SDH or PDH transmission system according to claim 16, characterized, that the position data at the beginning of each transfer supply frame are arranged. 18. Method for receiving data in an SDH or PDH transmission system according to one of claims 15 to 17, characterized,  that when the data is distributed, the data stream is demultiplexed mes according to the information contained in the mini cell head is carried out. 19. System for transferring data in an SDH or PDH transmission system, marked by a device according to one of claims 1 to 4 and one Device according to one of claims 9 to 12.