EP1563667A1

EP1563667A1 - Method for processing data packets in a data network which has a mobile function

Info

Publication number: EP1563667A1
Application number: EP03782197A
Authority: EP
Inventors: Wolfgang Gröting; Jochen Grimminger
Original assignee: Siemens AG; Nokia Siemens Networks GmbH and Co KG
Current assignee: Nokia Solutions and Networks GmbH and Co KG
Priority date: 2002-11-18
Filing date: 2003-11-13
Publication date: 2005-08-17
Also published as: WO2004047400A1; JP2006506869A; MXPA05005309A; BR0316323A; US20060020617A1; AU2003289866A1; KR100810559B1; CN1711742A; KR20050071698A; RU2005119194A; DE10253714A1; RU2328829C2

Abstract

The invention relates to a method for processing data packets in a data network which has a mobile function. A terminal and a data source use a first network protocol, according to which addresses of the first network protocol, reproduced in a first format are assigned to the terminal and the data source. A second network protocol is used in the data network, according to which addresses of a second network protocol, reproduced in a second format are assigned to computers in the data network. The terminal is assigned to a home network and receives in said network a home address of the first network protocol, reproduced in a first format. The terminal also receives a second address of the second network protocol, reproduced in a second format. A data packet, comprising the home address, reproduced in the first format as the source address and the address of the data source, reproduced in the first format as the target address, is adapted in such a way that said packet contains the second address, reproduced in the second format as the source address and the address of the home computer, reproduced in the second format as the target address, in addition to the address of the data source, reproduced in the second format as an additional address.

Description

description

Method for processing data packets in a data network with a mobility function

The invention relates to a method for processing data packets in a data network with a mobility function, as well as a corresponding data network and a data transmission device.

In the case of data networks with a mobility function, it is possible for a mobile terminal, for example a laptop or a PDA, which is known in a home network, to be able to move into a third-party network, while further ensuring that data sent to the mobile terminal come.

A large number of protocols are now known which enable data networks with a mobility function, for example the Internet protocol IPv4 with mobile Ipv4 support (see http://www.ietf.org/rfc/rfc2002.txt) or the Internet protocol IPv6 with Mobile Ipvδ support (see http://www.ietf.org/ids.by.wg/mobileip.html).

In data networks without a mobility function, transmission mechanisms are known which enable communication between computers that use different network protocols. In particular, the protocol translation mechanism NAT-PT (Network Address Translation - Protocol Translation) is known, which enables the translation of addresses of the IPv4 protocol into addresses of the IPvβ protocol (see http://www.ietf.org/rfc/rfc2766 .txt). This known mechanism is not designed for data networks with a mobility function and also has some known disadvantages, such as a lack of network security. The object of the invention is therefore to create a method for processing data packets in a data network with a mobility function which, in addition to the mobility function, also enables the use of different network protocols.

This object is achieved in accordance with the features of the independent claims. Further developments of the invention result from the dependent claims.

In a first embodiment, the method according to the invention is used to process data packets which are to be transmitted in a data network with a mobility function from a terminal to a data source via a home computer of the data network. The terminal and the data source use a first network protocol, in which addresses of the first network protocol are assigned to the terminal and the data source in a first format. In contrast to this, a second network protocol is used in the data network, in which the computers in the data network are assigned addresses of a second network protocol shown in a second format, the addresses of the first network protocol also being able to be represented in the second format. In the method, the terminal is assigned to a home network and the terminal receives a home address of the first network protocol shown in the first format in the home network. Furthermore, the terminal receives a second address of the second network protocol shown in the second format, the second address being the address in a foreign network outside the home network when the terminal is in the foreign network. In the processing step of the method, which is referred to as the first processing step, a data packet comprising the home address shown in the first format as the source address and the address of the data source shown in the first format as the destination address are adapted such that the adapted data packet represents the second address as the source address the address in the second format and as the destination address of the home computer shown in the second format and, as a further address, the address of the data source shown in the second format. This processing ensures that the addresses of a data packet are converted from a first network protocol to a second network protocol, the converted addresses ensuring that the data packet in the data network is forwarded to the home computer with a mobility function. This ensures that the data packet is properly routed in the.

In a particularly preferred embodiment of the invention, a so-called dual-stacked rec ner is used as the home computer, which can process both data packets of the first network protocol and data packets of the second network protocol. When using such a home computer, the home device is assigned the home address of the first network protocol, shown in the second format by the home computer, the home address then being converted into the first format in a conversion step. In a particularly preferred embodiment, the first processing step and / or the conversion step in the method according to the invention is carried out by a data transmission device which is connected to the terminal. The data transmission device thus decouples the processing of the data packets from the terminal device. The data packets to be processed are preferably transmitted from the terminal to the data transmission device via a PPP connection (point-to-point protocol).

In order to ensure that the data packets processed in the first processing step are also properly forwarded to the data source, a further second processing step is preferably carried out. In this processing step, the data packet adapted in the first processing step is changed such that the changed data packet represents the home address as the source address in the first format and the address of the data source as the destination address shown in the first format, the address of the data source shown in the first format being determined from the further address of the data packet adapted in the first processing step. In this way, data packets are in turn generated which can be processed by the first network protocol, ie in particular by the data source. In this case, the data packet adapted in the first processing step is preferably transmitted to the home computer via the data network, and the second processing step is carried out by the home computer, with an assignment from the second address of the terminal to the home address being stored in the home computer for the processing step. The data packet changed in the second processing step is then subsequently transmitted to the data source.

In a preferred embodiment, the first network protocol is IPv4 with or without Mobile IPv4 support and the second network protocol is IPv6 with Mobile Ipv6 support or the first network protocol is IPv6 with Mobile Ipvδ support and the second network protocol is IPv4 with or without Mobile-IPv4 support.

A second embodiment of the method according to the invention relates to a method for processing data packets which are to be transmitted in a data network with a mobility function from a data source to a terminal via a home computer of the data network. In contrast to the method of the first embodiment, the data is transmitted in the reverse direction in this method. For this purpose, a data packet is included in a first processing step as

Source address shows the address of the data source shown in the first format and the target address shows the home address shown in the first format so that the adapted data packet contains the address of the home computer shown in the second format as the source address and the second address of the terminal device shown in the second format as the destination address as well as the address of the data source shown in the second format. This ensures a conversion of the addresses of the first network protocol into the addresses of the second network protocol. Correct forwarding of the data packet in the data network is also ensured.

In a preferred embodiment, the data packet to be adapted is transmitted from the data source to the home computer and the first processing step is carried out by the home computer, an assignment from the second address to the home address of the terminal being stored in the home computer for the processing step.

The data packet adapted in the first processing step is preferably changed in a second processing step in such a way that the changed data packet contains the address of the data source shown in the first format as the source address and the home address shown in the first format as the destination address, the address of the data source being shown is determined in the first format from the further address of the data packet adapted in the first processing step. This ensures proper forwarding of the data packet to the end device.

In particular, the data packet adapted in the first processing step is transmitted via the data network from the home computer to a data transmission device connected to the terminal, and the second processing step is carried out by the data transmission device, the data packet modified in the second processing step subsequently being transmitted from the data transmission device to the terminal becomes. As a result, part of the functionality of the processing method is taken over by a separate data transmission device that is not part of the terminal. The terminal can thus be decoupled from the processing method, with processed data packets being forwarded via a connection between the data transmission device and the terminal. The connection between the data transmission device and the terminal is preferably an easy-to-use PPP connection (point-to-point protocol).

In analogy to the method of the first embodiment, in a preferred embodiment of the method of the second embodiment, the first network protocol is IPv4 with or without mobile IPv4 support and the second network protocol is IPv6 with mobile Ipvδ support or the first network protocol is IPv6 with Mobile Ipv6 support and the second network protocol is IPv4 with or without Mobile IPv4 support. Furthermore, the further address of the data packet adapted in the first processing step is preferably stored in the routing header of the data packet.

In addition to the above-described methods for processing data packets, the invention also relates to a data transmission device which is designed such that both the first processing step according to the first embodiment of the method according to the invention and the first processing step according to the second embodiment of the method according to the invention can be carried out with this device , In this way, a separate data transmission device is provided, which guarantees the essential functionalities of the data processing method according to the invention independently of the end device. In particular, the data transmission device can be a mobile device, in particular a mobile radio device, with which a connection to a data network can be established in a simple manner.

The invention further relates to a data network with a mobility function for the transmission of data between data sources and terminals, the data network being designed such that a method according to the first embodiment of the invention and a method according to the second embodiment of the invention can be carried out. In such a data network, the home network and / or the foreign network is preferably a wireless one Network which is based in particular on GPRS and / or wireless LAN and / or Bluetooth and / or UMTS and / or CMDA2000. Furthermore, part of the data network is preferably the Internet.

Exemplary embodiments of the invention are illustrated and explained below with reference to the drawings.

Show it

Figure 1 is a schematic representation of a data network in which the data processing method according to the invention can be carried out.

2 shows the protocol layers processed in the terminal and in the data transmission device.

The data network Ν shown in FIG. 1 comprises a home computer HA (HA = Home Agent), a plurality of routers R1 to R4 and access routers AR1 and AR2 (AR = Access Router). The two access routers AR1 and AR2 are in turn connected to subnets Νl and Ν2, which are two different mobile radio networks. The subnet N1 is the home network of a terminal TE (TE = Terminal End Device), which is preferably a mobile device, such as. B. is a laptop. The terminal TE is connected via a data line DL to a mobile data transmission device MT (MT = Mobile Terminal), the data transmission device being logged into the subnet N1.

The data network N is also connected to a data source CN, data being exchanged between the terminal TE and the data source CN via the data network N. The data network N is a data network with a mobility function, preferably a mobile IPv6 data network. In such a data network, the data are sent in the form of data packets, the source and destination addresses of the data packets being stored in the headers of the data packets. The Mobi Lity function of the data network ensures that the terminal TE located in the home network N1 can also switch to the external network N2 located outside the home network and that forwarding of the data packets to the terminal located in the external network is also ensured. This is achieved in that data from the data source CN, which are to be sent to the terminal TE, are routed via the home computer HA, the home computer modifying the data such that they also arrive in a foreign network. In the data network of FIG. 1, certain processing steps of the method according to the invention are carried out in the data transmission device MT, as will be explained in the following. However, it is also conceivable that no additional data transmission device is used and that the processing steps carried out by the data transmission device are carried out directly in the terminal.

The method according to the invention is explained below by way of example for the case that the data network N is a mobile IPv6 network (hereinafter abbreviated as MIPv6), whereas the data source CN and the terminal TE use the Internet protocol IPv4. Details of the MIPv6 protocol can be found in particular on the website http://www.ietf.org/ids.by.wg/mobileip.html, which was mentioned at the beginning.

If the data transmission device MT is in the home network, it requests a home address from the home computer HA of the data network. An IPv4 address that is written in MIPvδ format is used as the home address. The IPv4 address is in turn converted by the data transmission device MT into the IPv4 format and assigned to the terminal TE. When a data packet is transferred from the terminal to the data source, the terminal first generates a data packet that uses the IPv4 home address as the source address

IPv4 format as well as the destination address contains the IPv4 address of the data source CN in IPv4 format in the header. The data packet is first routed to the data transmission device MT via the data connection DL. A MIPv6 second address CoA in MIPvβ format is assigned to the data transmission device, the second address being a foreign address in a foreign network if the data transmission device is in a

Foreign network is located. The data transmission device converts the data packet header of the data packet into an MIPv6 header. The converted header contains an MIPvβ foreign address CoA in MIPv6 format as the source address and the MIPvδ address of the home computer in MIPv6 format as the destination address. A routing header RH is also generated, which contains the IPv4 address of the data source in MIPv6 format. The payload of the data packet and other header options remain unchanged.

This data packet is now routed to the home computer in the usual way. The home computer in turn converts the header of the data packet into a header that contains the home address in IPv4 format as the source address. For this purpose, an assignment of the foreign address in MIPv6 format to the home address in IPv4 format is stored in the home computer. The destination address of the header converted by the home computer is the IPv4 address of the data source in IPv4 format. The data packet can then be transmitted from the home computer HA to the data source CN via the IPv4 protocol.

When a data packet is transported from the data source CN to the terminal TE, the header generated by the data source CN contains the IPv4 address of the data source in IPv4 format as the source address and the home address in IPv4 format as the destination address. The data packet is in turn routed to the home computer and converted into a data packet which contains the MIPvβ address of the home computer in MIPvβ format as the source address and the foreign address CoA in MIPvβ format as the destination address. A routing header is also generated, which contains the IPv4 address of the data source CN in MIPvβ format. The data packet generated in this way is then sent to the data transmission device MT via the data network directed. This data transmission device creates a new header. This new header contains the address of the data source CN in IPv4 format as the source address, which was determined via the routing header. The header contains the home address in IPv4 format as the destination address. This data packet can then be forwarded to the terminal TE via the data connection DL and processed further by the latter.

2 shows the protocol stacks processed by the terminal TE and by the data transmission device MT. The protocol stack from the terminal comprises the physical layer L1, the L2 layer, which regulates the access to the transmission medium, a PPP layer for the data connection between the terminal and the data transmission device, an IP layer, which can be any Internet protocol , as well as the application layer built on it. The data transmission device comprises the L1 layer, the L2 layer, the PPP layer and a mobile IP layer, which can be any mobile IP protocol. The mobile IP layer contains in particular the home address HAd and the address CoA in the external network. As indicated by the two double arrows between the two protocol stacks, the home address is assigned to the terminal via the PPP protocol and used in the IP protocol of the terminal.

Claims

claims

1. Method for processing data packets in a data network (N) with a mobility function from a terminal (TE) to a data source (CN) via a home computer

(HA) of the data network are to be transmitted, the terminal (TE) and the data source (CN) using a first network protocol, in which the terminal (TE) and the data source (CN) are assigned addresses of the first network protocol shown in a first format , and the data network (N) uses a second network protocol in which the computers in the data network (N) are assigned addresses of the second network protocol shown in a second format, the addresses of the first network protocol also being able to be represented in the second format, in which :

- The terminal (TE) is assigned to a home network, the terminal (TE) in the home network having a home address

(HAd) of the first network protocol shown in the first format;

- The terminal (TE) receives a second address (CoA) of the second network protocol shown in the second format, the second address (CoA) being the address in a foreign network (N2) outside the home network (Nl) when the terminal (TE) is in the foreign network; In a first processing step, a data packet comprising the home address (HAd) shown as the source address in the first format and the address of the data source (CN) shown in the first format as the destination address

Format is adapted in such a way that the adapted data packet contains the second address (HAd) shown as the source address in the second format and the address of the home computer (HA) shown in the second format as the destination address, and the address of the data source (CN) shown in the second format as another address ,

2. The method of claim 1, wherein the home computer

(HA) can process addresses of the first and of the second network protocol, the home computer (HA) assigning the terminal (TE) shown in the second format and the home address then being converted into the first format in a conversion step.

3. The method according to claim 1 or 2, wherein the first processing step and / or the conversion step is carried out by a data transmission device (MT) connected to the terminal (TE).

4. The method according to claim 3, wherein the data transmission device (MT) is connected to the terminal (TE) via a PPP connection (point-to-point protocol).

5. Method according to one of the preceding claims, in which the data packet adapted in the first processing step is changed in a second processing step in such a way that the changed data packet represents the home address (HAd) as the source address and the address of the data source as the destination address ( CN) shown in the first format, the address of the data source (CN) shown in the first format being determined from the further address of the data packet adapted in the first processing step.

6. The method according to claim 5, in which the data packet adapted in the first processing step is transmitted to the home computer (HA) via the data network (N) and the second processing step is carried out by the home computer (HA), with the processing step in the home computer (HA) an assignment of the second address of the terminal (TE) to the home address is stored, and the data packet changed in the second processing step is then transmitted to the data source (CN).

7. The method according to any one of the preceding claims, in which the first network protocol is IPv4 with or without mobile IPv4 support and the second network protocol is IPv6 with mobile Ipvβ support or in which the first network protocol is IPvβ with mobile Ipvβ support

Support is and the second network protocol is IPv4 with or without Mobile IPv4 support.

8. The method according to claim 7, wherein the further address of the data packet adapted in the first processing step is stored in the routing header of the data packet.

9. Method for processing data packets in a data network (N) with a mobility function from a data source (CN) to a terminal (TE) via a home computer

(HA) of the data network are to be transmitted, the terminal (TE) and the data source (CN) using a first network protocol in which the terminal (TE) and the data source (CN) are assigned addresses of the first network protocol shown in a first format , and the data network (N) uses a second network protocol in which the computers in the data network (N) are assigned addresses of the second network protocol shown in a second format, the addresses of the first network protocol also being able to be represented in the second format, in which:

- The terminal (TE) is assigned to a home network, the terminal in the home network receiving a home address (HAd) of the first network protocol shown in the first format; the terminal (TE) receives a second address (CoA) of the second network protocol shown in the second format, the second address (CoA) being the address in a foreign network (N2) outside the home network (Nl) if the terminal (TE) is in the Foreign network located; - In a first processing step, a data packet comprising the address of the data source (CN) shown in the first format as the source address and the home address (HAd) shown in the first format as the destination address is adapted such that the adapted data packet as the source address is the address of the home computer (HA) shown in the second format and contains the second address (CoA) of the end device shown in the second format as the destination address and the address of the data source (CN) shown in the second format as a further address.

10. The method according to claim 9, wherein the data packet to be adapted is transmitted from the data source (CN) to the home computer (HA) and the first processing step is carried out by the home computer (HA), with an assignment for the processing step in the home computer (HA) from the second address (CoA) to the home address (HAd) of the end device.

11. The method according to claim 9 or 10, in which the data packet adapted in the first processing step is changed in a second processing step such that the changed data packet is represented as the source address, the address of the data source (CN) in the first format and as

Destination address contains the home address (HAd) shown in the first format, the address of the data source (CN) shown in the first format being determined from the further address of the data packet adapted in the first processing step.

12. The method according to claim 11, wherein the data packet adapted in the first processing step via the data network

(N) is transmitted to a data transmission device (MT) connected to the terminal (TE) and the second processing step is carried out by the data transmission device (MT), the second processing step step changed data packet is then transmitted from the data transmission device to the terminal (TE).

13. The method according to claim 12, wherein the data transmission device (MT) with the terminal (TE) via a PPP

Connection (point-to-point protocol) is connected.

14. The method according to any one of the preceding claims, in which the first network protocol is IPv4 with or without mobile IPv4 support and the second network protocol is IPvβ with mobile Ipvβ support or in which the first network protocol is IPvβ with mobile Ipvβ support Support is and the second network protocol is IPv4 with or without Mobile IPv4 support.

15. The method according to claim 14, wherein the further address of the data packet adapted in the first processing step is stored in the routing header of the data packet.

lβ. Data transmission device which is designed such that the first processing step according to claim 1 and the first processing step according to claim 9 can be carried out with the data transmission device (MT).

17. Data transmission device according to claim 16, wherein the data transmission device (MT) is a mobile device, in particular a mobile radio device.

18. Data network with mobility function for the transmission of data between data sources (CN) and terminals (TE), the data network being designed in such a way that a method according to one of claims 1 to 8 and a method according to one of claims 9 to 16 can be carried out is.

19. Data network according to claim 18, in which a part of the data network is the Internet.

0. Data network according to claim 18 or 19, wherein the home network (Nl) and / or the foreign network (N2) is a wireless network, in particular on GPRS and / or wireless LAN and / or Bluetooth and / or UMTS and / or CMDA2000 based.