DE10145165A1 - Packet-oriented data transmission method for communications network has minimum number of data packets transmitted with both head data and useful data components - Google Patents

Abstract

The data transmission method has a communications link provided via at least one mobile radio channel (24), with transmission of the minimum number of data packets (34) containing head data and useful data components (36,38), the remaining data packets transmitted containing only a useful data component (40). Also included are Independent claims for the following: (a) a data transmission device for a communications network; (b) a transmitter for data transmission in a communications network; (c) a receiver for data transmission in a communications network

Description

The invention relates to a method for data transmission in a communication network according to the preamble of claim 1 and a corresponding device according to the preamble of Claim 10 and a transmitter and a receiver Data transmission in a communication network according to the generic term of claims 17 and 19, respectively.

In particular, to support multimedia in future cellular networks and systems using data already existing and more widespread Protocols such as the Internet Protocol (IP) or other protocols of the TCP / IP protocol family become. This facilitates the connection of mobile networks existing telecommunications networks in which data transmitted using the Internet protocol, for example become. Such networks using the Internet protocol are also known as IP-based communication networks.

However, the transmission of data by means of TCP / IP via mobile radio channels is problematic, since such transmission channels have much higher error rates than a line-based transmission. For example, TCP / IP requires a low bit error rate of around 10 ^-11 . As a rule, this cannot be achieved without additional security measures for transmission via a mobile radio channel. Such a security measure can be implemented by using an ARQ (Automatic Repeat Request) protocol when transmitting data packets using TCP / IP.

In a known embodiment of an ARQ protocol Simply put, a transmitter transmits data and waits their acknowledgment by a recipient. Shouldn't he Received acknowledgment, it sends the data again. This continues until it receives an acknowledgment of the correct one Receive or the error-free transmission of the data received Has. An ARQ protocol therefore causes a high delay when transferring data via a disturbed Transmission channel. In particular the transfer of data via Cellular channels are delayed due to the ARQ protocol because it can be assumed that data is more often multiple over the usually very disturbed mobile radio channels must be transmitted than with a wired Transmission with a lower error rate.

Such a delay is especially in the transmission of Multimedia data, such as voice and / or video data, is unfavorable. An example of a transmission of voice data using the Internet protocol is Voice over IP (VoIP). To here one Ensuring adequate voice quality will only be one maximum delay time allowed. The maximal Delay time, however, can usually be avoided with ARQ protocols a cellular transmission cannot be observed.

One possible solution to this problem is now on ARQ protocols in multimedia data transmission too waive and incorrectly transmitted data packets discard. However, this affects the quality of communication very essential. Satisfactory communication is expected thus no longer with a voice communication connection be guaranteed if data is strong, for example disturbed mobile radio channel and therefore many Data packets must be discarded.

The object of the present invention is therefore a Transmission of multimedia data via at least one To enable mobile radio channel essentially without delays.

This task is accomplished through a method of data transmission in a communication network with the features of claim 1 and by a corresponding device with the features according to claim 10 and by a transmitter and a receiver for data transmission in a communication network with the Features solved according to claim 17 or 19. preferred Embodiments of the invention result from the dependent Claims.

The invention is essentially based on the knowledge that in principle it is sufficient for the transmission of each comprising a header data and a user data portion Data packets of a communication link via at least one Cellular channel only with a few data packets To transmit header data portion, d. H. overall less header data shares to be transmitted as data packets. Under header data and User data portion becomes part of a data packet here packet-oriented protocol understood that for the Transmission is used. As is known, includes a header data portion Sender and receiver as well as control information for the Transport of a data packet.

Specifically, the invention relates to a method for Data transmission in a communication network in which data at least partly by means of data packets that have a header and comprise a user data portion, via at least one Cellular channel are transmitted. When transferring Data packets of a communication link over the at least A mobile radio channel is now the only with a few data packets Share of header data and user data and the remaining ones Data packets only transfer the user data portion.

This takes advantage of the fact that in the Header data portion of a data packet essentially a sender address and a recipient address is included, for everyone Data packets of a communication link are the same. There with a cellular connection of the communication link exactly In principle, a mobile radio channel is assigned Transmission of only a portion of the header data, since the Cellular channel of the communication link only assigned. The main advantage of the invention now exists in that by "leaving out" those to be transferred Overall header data less data over the mobile radio channel are transmitted, resulting in less delays. The loss of data packets due to Transmission errors reduced. This is mainly because disturbances in the header data portion of a data packet are far greater impact more than disruptions in the user data portion, especially if this multimedia data, such as voice and / or Video data. This allows the use of ARQ protocols largely avoided.

In the case of exactly one first data packet, the Share of header data and user data and all subsequent ones Data packets only transfer the user data portion. This can the total number of over the at least one mobile radio channel data to be transmitted can be reduced particularly strongly.

To ensure that the transfer is less Header data shares with a secure communication connection sufficient transmission quality is achieved, the Header data portion or can save the header data portions are transmitted via the at least one mobile radio channel. The delay in the backup due to the backup Transfer of the header data portion or the header data portions does not significantly affect the quality of the Communication link open. This is mainly because the majority of the data packets are transmitted without delay because only their user data share via the mobile radio channel is transferred.

It would also be conceivable that the transfer of Header data shares via the mobile radio channel ARQ protocols for secure Transmission can be used. These ARQ protocols can then switched off after the transmission of header data portions become. For example, the transmission of a first Data packets with a header data and user data portion Communication connection with an ARQ protocol. Then only the user data shares of all others Transfer data packets without using the ARQ protocol. Transmission errors in the user data portions have a particular effect with multimedia data only small, so that a total of relatively high connection quality can be achieved.

In a particularly preferred embodiment of the method prepares a transmitter that is used to send data packets a mobile radio channel is used, incoming data packets Communication link for transmission over the at least a cellular channel on that the first Data package (s) with header data and user data and from all other data packets only the user data portion is transmitted or will.

Specifically, this means that the separation of the Header data portions from the user data portions of data packets takes place, of which only the user data portion over the Cellular channel is transmitted. Such a separation takes place at not the first or the first data packet (s). On Receiver that is used to receive data packets via a Mobile radio channel is used, then the header data portion (s) of one or of received first data packets or data packets save and all other received data packets that include no header data, assign. So he builds the complete data packets that were "broken down" by the broadcaster, back on. This is possible in particular by using the at least one mobile radio channel exclusively Data packets of a communication link are transmitted. Data packets of other communication connections are over other mobile radio channels, which are the same for one Communication link used mobile radio channel in the Usually have nothing to do in the sender and receiver processed separately.

If data packets received by the receiver have errors, if user data components in particular are faulty, they can Errors are ignored. Preferably these errors go especially bit errors, in the recalculation of Redundancy information, such as redundancy bits, especially for one Cyclic redundancy check (CRC) in the receiver. hereby errors are recognized as valid and continue in the Transfer communication network. The influence of such errors on However, multimedia data is small and therefore does not fall particularly weight.

The data packets are preferably in the Internet protocol transfer. This widespread protocol of TCP / IP Protocol family is expected to be available in future Cellular networks come into use.

The invention further relates to a device for Data transmission in a communication network in which data at least partly by means of data packets that have a header and comprise a user data portion, via at least one Cellular channel are transmitted. Are in the communication network at least one transmitter for sending data packets over the Mobile radio channel and at least one receiver for receiving Data packets provided over the mobile radio channel. The at least one transmitter has means that some Data packets of a communication link header and Separate the user data portion and only the user data portion via the Broadcast cellular channel. Furthermore, the at least one Receiver means the header data portions of received Save data packets of the communication connection and assign received data packets to the communication link, the only have a share of user data.

The transmitter and receiver are preferably designed such that that data packets are transmitted in the Internet protocol. The means specifically that data packets of the Communication connection via the at least one mobile radio channel using the Internet protocol are transmitted. A protocol conversion is therefore in the case of transmission of IP data at the sender and / or recipients based on their internet protocol Skill not required.

Furthermore, the receiver can be designed such that it Errors, in particular bit errors in received user data portions ignored by data packets. Especially in the transmission of voice and / or video data is thereby the Communication quality hardly affected. Preferably the Receiver redundancy information from received Data packets, in particular redundancy bits for a CRC, reorganized and arranged these to the data packets.

In addition, the transmitter can be designed such that it Data packets with header data and user data share using an ARQ Protocol over the mobile radio channel. subsequent Data packets that only have a user data portion are on the other hand, transmitted without the use of an ARQ protocol. Finally, the transmitters and receivers mentioned preferably in a base and / or a mobile station Cellular network provided.

In a particularly preferred embodiment, this is Method according to the invention in the form of an algorithm in at least a base and / or mobile station of a mobile radio network implemented.

Finally, the invention relates to a transmitter for Data transmission in a communication network in which data at least in part by means of data packets that have a header and comprise a user data portion, via at least one Cellular channel are transmitted. The transmitter has means that with some data packets of a communication connection Separate header data and user data and only that Share of user data via the mobile radio channel. The transmitter is preferably to carry out the above, trained method according to the invention.

Another aspect of the invention relates to a receiver for data transmission in a communication network in which Data at least in part by means of data packets that one Include header data and a user data portion, over at least a cellular channel can be received. The recipient points Means on the header data portions of received Save data packets of the communication connection and assign received data packets to the communication link, the only have a share of user data. Preferably, the Receiver to perform the above trained method according to the invention.

Further advantages and possible uses of the invention result from the following description of a Embodiment in connection with the single drawing. This shows in

Fig. 1 shows an embodiment of a communication network in which data packets are transmitted over a mobile radio channel according to the invention.

In Fig. 1, a communications network 10 is shown in which a data network 12, in particular the Internet, with stations 14 and 16 of a cellular network is coupled. The stations 14 and 16 can be base and / or mobile stations of the mobile radio network 18 . As shown, they are also connected to further stations 20 and 22 , in particular base and / or mobile stations of the mobile radio network 18 . The station 14 of the mobile radio network 18 serving as the transmitter communicates with the station 16 serving as the receiver via a mobile radio channel 24 , which is shown as a dashed line.

From the data network 12 , the station 14 of the mobile radio network receives data packets 26 of a communication link between two subscribers, not shown. Each of the data packets 26 has a header data portion 28 and a user data portion 30 .

The header data portion 28 , also referred to as "header", comprises a wide variety of information, such as a sender and a recipient address, as well as control information for forwarding the data packet, preferably in the data network 12 . The data packets 26 are also referred to as datagrams. In the case of the Internet protocol, the sender address is an IP address of the computer sending the data packets 26 . Accordingly, the recipient address is an IP address of a computer which is to receive the data packets 26 .

The data packets 26 received by the station 14 of the mobile radio network 18 are processed by means 32 . For this purpose, the means 32 transmit the first of the received data packets 26 with a header data and user data portion. This is the data packet 34 depicted via the mobile radio channel 24 . It has a header data portion 36 which essentially corresponds to the header data portion 28 of the data packets 26 received by the station 14 . It also has a user data component 38 which essentially corresponds to the user data component 30 of the data packets 26 received by the station 14 . The means 32 each separate the header data portion 28 from all further received data packets 26 , so that only the useful data portion of the received data packets 26 are transmitted via the mobile radio channel 24 . This is represented by the data packets 40 comprising only user data components via the mobile radio channel 24 .

The data packets 34 and 40 transmitted via the mobile radio channel 24 are received by the station 16 . On the one hand, this has storage means 42 in which received header data portions 36 of the communication connection are stored. Furthermore, means 44 are provided which associate the data packets 40 received via the mobile radio channel 24 , which essentially consist only of a user data portion, with the header data portion stored in the storage means 42 . Put simply, the station 16 , in particular its means 44 and storage means 42 , reassembles the data packets 26 which are separated or split in the station 14 . Furthermore, it transmits the data packets 46 composed in this way with the original header data portion 28 and essentially the original user data portion 30 to the data network 12 , in which the data packets 46 are transmitted to the recipient identified in the header data portion 28 .

The assembly process takes place in station 16 with a recalculation of redundancy information for further transmission. At this point it should also be mentioned that the receiving station 16 is designed to be fault-tolerant. This means that transmission errors in received user data portions 38 and 40 do not result in an evaluation of the received data packets or even in a retransmission, as in an ARQ protocol. This can be tolerated, in particular in the transmission of voice and / or video data without transmission quality, which has a significantly influencing effect. Above all, the tolerance of such errors is of far less influence than a complete loss of a data packet on the mobile radio channel 24 .

Claims (20)

1. A method for data transmission in a communication network (10) in which data at least partially by means of data packets (26, 46) having a Kopfdaten- and a user data portion (28, 30) comprise, be transmitted via at least one cell broadcast channel (24), characterized in that the transmission of data packets ( 26 , 46 ) of a communication link via the at least one mobile radio channel ( 24 ) only with a few data packets ( 34 ) the header data and user data portion ( 36 , 38 ) and with the remaining data packets only the user data portion ( 40 ) is transmitted. 2. The method according to claim 1, characterized in that with exactly one first data packet ( 34 ) the header data and user data portion ( 36 , 38 ) and in all subsequent data packets only the user data portion ( 40 ) is transmitted. 3. The method according to claim 1 or 2, characterized marked that over the communication link Voice and / or video data are transmitted. 4. The method according to any one of the preceding claims, characterized in that the or the header data portion (s) ( 36 ) is securely transmitted over the at least one mobile radio channel ( 24 ). 5. The method according to any one of the preceding claims, characterized in that a transmitter ( 14 ) for sending data packets ( 34 , 40 ) via the at least one mobile radio channel ( 24 ) incoming data packets ( 26 ) of the communication link such for transmission via the at least one mobile radio channel ( 24 ) prepared that the first data packet (s) ( 34 ) with header data and user data portion ( 36 , 38 ) and of all further data packets only the user data portion ( 40 ) is or will be transmitted. 6. The method according to claim 5, characterized in that a receiver ( 16 ) for receiving data packets ( 34 , 40 ), which were transmitted via the at least one mobile radio channel ( 24 ), the one or more header data portion (s) ( 36 ) received, first data packet (s) ( 34 ) is stored and assigned to all further received data packets ( 40 ), which only have a user data portion. 7. The method according to claim 6, characterized in that the receiver ( 16 ) ignores transmission errors of the user data components ( 38 , 40 ) of the data packets. 8. The method according to claim 6 or 7, characterized in that the receiver ( 16 ) calculates redundancy information from received data packets ( 34 , 40 ) and assigns them to the data packets ( 46 ). 9. The method according to any one of the preceding claims, characterized in that the data packets ( 26 , 34 , 40 , 46 ) are transmitted in the Internet protocol in the communication network. 10. Device for data transmission in a communication network ( 10 ), in which data are transmitted at least partially by means of data packets ( 26 , 46 ), which comprise a header data and a user data component ( 28 , 30 ), via at least one mobile radio channel ( 24 ), wherein at least one transmitter ( 14 ) for transmitting data packets ( 34 , 40 ) via the at least one mobile radio channel ( 24 ) and at least one receiver ( 16 ) for receiving data packets ( 34 , 40 ) transmitted via the at least one mobile radio channel ( 24 ) are provided , characterized in that the at least one transmitter ( 14 ) has means ( 32 ) which separate the header data and user data portion in some data packets of a communication connection and transmit only the user data portion ( 40 ) via the mobile radio channel ( 24 ), and the receiver ( 16 ) Means ( 42 , 44 ) which store header data portions ( 36 ) of received data packets ( 34 , 40 ) of the communication link and Dat Assign packages to the communication link that only have a user data portion ( 40 ). 11. The device according to claim 10, characterized in that the at least one transmitter ( 14 ) and the at least one receiver ( 16 ) are designed such that data packets ( 34 , 40 ) are transmitted in the Internet protocol. 12. The device according to claim 10 or 11, characterized in that the at least one receiver ( 16 ) is designed such that it ignores errors, in particular bit errors in received user data portions ( 38 , 40 ), of data packets. 13. The device according to one of claims 10-12, characterized in that the at least one receiver ( 16 ) calculates redundancy information from received data packets ( 34 , 40 ) and assigns them to the data packets ( 46 ). 14. The device according to any one of claims 10-13, characterized in that the at least one transmitter ( 14 ) is designed such that it packets ( 34 ) with header data and user data portion ( 36 , 38 ) by means of an ARQ protocol over the at least transmits a mobile radio channel ( 24 ) and subsequent data packets ( 40 ), which have only a user data portion, without using an ARQ protocol. 15. The device according to any one of claims 10-14, characterized in that the at least one transmitter ( 14 ) and / or the at least one receiver ( 16 ) are provided in a base and / or a mobile station of a mobile radio network ( 18 ). 16. The device according to any one of claims 10-15, characterized in that the method according to one of claims 1-8 in the form of an algorithm in at least one base and / or mobile station ( 14 , 16 ) of a mobile radio network ( 18 ) are implemented or is. 17. Transmitter ( 14 ) for data transmission in a communication network ( 10 ), in which data is transmitted at least partially by means of data packets ( 26 , 46 ), which comprise a header data and a user data component ( 28 , 30 ), via at least one mobile radio channel ( 24 ) characterized in that the transmitter ( 14 ) has means ( 32 ) which separate the header and user data components in some data packets of a communication connection and transmit only the user data component ( 40 ) via the mobile radio channel ( 24 ). 18. Transmitter according to claim 17, characterized characterized that he was to carry out a procedure after one of claims 1-8 is formed. 19. Receiver ( 16 ) for data transmission in a communication network ( 10 ), in which data is received at least partially by means of data packets ( 26 , 46 ), which comprise a header data and a user data component ( 28 , 30 ), via at least one mobile radio channel ( 24 ) characterized in that the receiver ( 16 ) has means ( 42 , 44 ) that store header data portions ( 36 ) of received data packets ( 34 , 40 ) of the communication link and assign received data packets to the communication link that have only one user data portion ( 40 ) , 20. Receiver according to claim 19, characterized characterized that he was to carry out a procedure after one of claims 1-8 is formed.