DE10131092A1 - Radio communications system has gateway unit in connection path between network elements supporting connection-oriented and packet-oriented links - Google Patents

Abstract

The communications system has a connection provided between a network element (Z1) for connection-oriented links and a second network element (Z2) for packet-oriented links via a gateway unit (IWU1). Different link protocols are used for the connections between each network element and the gateway unit, the protocols differing by an information element containing an address for the packet-oriented link between the gateway unit and the second network element. An Independent claim for an operating method for a radio communications system is also included.

Description

Radio communication systems are used for the transmission of Information, voice or data, using electromagnetic Waves over a radio interface, also air interface between a sending and a receiving Radio station. Radio communication systems can be divided are in a core network (Core Net), in which useful and Signaling data from a wide range of end devices Routes are carried by line and over one Connection to a fixed communication network can be realized can, and in a radio access network, also RAN (Radio Access Network) refers to that received by the end devices Data in a suitable for transmission in the home network Format implemented and vice versa, the format of from Master network received data adapted to the radio transmission and be forwarded to the respective radio station within the terminal concerned is located from the transmission range.

First and second generation radio communication systems are currently in use worldwide and are reaching their capacity limits due to the high demand for mobile communication. The emerging capacity problems are to be solved by the third generation radio communication systems. One of the most promising third-generation radio communication systems is the Universal Mobile Telecommunication System (UMTS), which was specified by the standardization body 3 GPP (Third Generation Partnership Procect) (see, for example, B. Walke, mobile radio networks and their protocols, volume 1 , p. 385 -387, Teubner Verlag 2000 ).

The data transmission in the access network specified for UMTS called UTRAN is connection-oriented according to the so-called ATM method. The data to be transmitted over a connection is divided into ATM cells. The ATM cells for several connections are interleaved in time and transmitted over the same physical connection. The connection channel remains the same for the duration of the data transmission. An overview of the ATM method can be found, for example, in B. Walke, mobile radio networks and their protocols, volume 2 , chapter 8, pages 255 to 290, Teubner Verlag 1998

Parallel to the requirements for mobile communication the demand for worldwide data communication increases high bandwidth. This data communication takes place via the Internet according to the IP (Internet Protocol) procedure. there data packets over packet-oriented connections, the means connectionless, transmitted between the participants. In the case of packet-oriented switching, the Connection channel between the participants only for the transmission of the respective data packet freely chosen. A subsequent one Data packet can be routed over another channel. thats why it is possible that the order of reception of the data packets is different different from the sending order.

There is increasing demand for large amounts of data, including mobile ones To be able to transmit communication with high bandwidth. It therefore became an IP-based radio communication network suggested (see for example 3GPP, IP Transport in UTRAN Work Task Technical Report, in 3GPP TR 25.933 2001), in which the Connections are made using the IP method.

The invention is based on the problem To specify the radio communication system and a method for its operation, on the one hand with radio communication systems that support connection-oriented connections, is compatible, and on the other hand the mobile data communication by means of connectionless communication supported.

According to the invention, this problem is solved by a Radio communication system according to claim 1, and a method its operation according to claim 7. Further refinements of Invention emerge from the subclaims.

The radio communication system comprises a first one Network element that supports connection-oriented connections, and a second network element, the packet-oriented Connections supported. These are via a gateway unit first network element and the second network element connected with each other. To transfer data between the first network element and the second network element becomes a connection-oriented connection between the first Network element and the gateway unit built and a packet-oriented connection between the second Network element and the gateway unit. This is a first Connection protocol between the first network element and the gateway unit is used, and a second connection protocol between the second Network element and the gateway unit is used, used. The first connection protocol and the second Connection protocol differ by one Information element for controlling the gateway unit, the one Address for the packet-oriented connection between the contains second network element and the gateway unit. On this way the different needs that on the one hand the connection-oriented connection and on the other hand make the package-oriented connection, to each other customized. The gateway unit provides the Data transmission is an intermediate node, from and to which the individual partial connections are established.

The first network element can be a first Access network, as well as a home network of the Be radio communication system, the connection-oriented connections supported. The second network element can be a second Access network, the packet-oriented connections supported, as well if the first network element is the first Access network is a core network that is packet-oriented Connections supported.

In addition, in a radio communication system with only an access network and a home network the first Network element be the access network, the packet-oriented Connections supported, and the second network element Master network, the connection-oriented connections supported. Alternatively, the access network connection-oriented connections and the main network package-oriented Support connections.

The first connection protocol preferably comprises Information elements for building the connection-oriented Connection between the first network element and the Interworking unit. The second connection protocol includes the Information elements of the first connection protocol and that Information element for controlling the gateway unit. The information element for controlling the Gateway unit contains an address of the second network element, too which is the packet-oriented connection with the Gateway unit is built. In addition, the second Connection protocol contain further information elements.

The connection can be advantageous for the case realize that the first network element is ATM connections supports and the second network element IP connections supported. In this case, for example, in the UMTS Radio network layer when building a model Connection signaling exchanged which the information those for establishing the ATM connection between the first Network element and the gateway unit are required contain. This information includes, for example, the Transport Layer Address (TLA) and Transport Association (TA). The first will then be in the Transport Network Layer Connection protocol and the second connection protocol replaced.

The connection between the first network element and the Network gateway unit is preferably used as an AAL2 connection built up. The information element for controlling the Gateway unit in the second connection protocol contains an IP endpoint identifier of the second Network element.

Preferably, the first connection protocol with which Help the connection between the first network element and the gateway unit is built, the Information elements according to an ALCAP protocol. The second Connection protocol also contains an IP address and one UDP port to which the packet-oriented connection is established becomes.

The invention is illustrated below using an example that is illustrated in the figures, explained in more detail.

Fig. 1 shows an inventive radio communication system.

Fig. 2 shows connection establishment, data transmission and disconnection between an IP-based and based an ATM access network.

Fig. 3 shows the structure based on connection between the IP and ATM-based access network protocols used.

A radio communication system (see FIG. 1) comprises a first access network Z1, a second access network Z2 and a master network S. The first access network Z1 comprises base stations NodeB1 which are connected to a radio network controller RNC1 via an Iub interface. The first access network Z1 supports ATM-based connections.

The second access network Z2 comprises several base stations NodeB2. The base stations NodeB2 are with one Radio network controller RNC2 connected. The radio network control RNC2 comprises one or more UPS user plan servers and one or more Radiocontrolserver RCS, which via node K with each other are connected. The RCS radio control servers take over control and monitoring the air interface, as well as its Radio resources while the UPS user plan server is transmitting the user data takes over. Such a division of the User data and the signaling data was, for example, in the German patent application P 100 46 342.8-31 proposed. The second access network Z2 supports IP-based Links.

The radio network controller is RNC1 via an interface Iur connected to a first gateway unit IWU1. The first gateway unit IWU1 is on the other hand with the second access network Z2 connected. The connection is to Example via a node K of the radio network controller RNC2 realized.

The radio control is RNC1 via an interface Iucs moreover with a mobile switching center MSC des Master network and via an interface Iups for packet-switched data with a packet data node SGSN des Root network S connected. The master network S supports ATM-based Links.

Via a second gateway unit IWU2 Radio network controller RNC2 of the second access network Z2 with the Root network S connected.

To establish a data connection between the first Access network Z1 and the second access network Z2 respectively between the second access network Z2 and the main network S. one IP-based connection each between the second Access network Z2 and the gateway unit IWU1 respectively IWU2 established and another, ATM-based connection between the gateway unit IWU1 and the first Access network Z1 or the gateway unit IWU2 and the main network S.

To establish a connection between the first access network Z1 and the second access network Z2, a connection request RL Setup Request from the radio network controller RNC1 of the first access network Z1 to the radio network controller RNC2 of the second access network Z2 is used transparently for the gateway unit IWU1 (see FIG. 2). An answer follows: RL Setup Response [TLA = AEID; TA = BID _VMH ]. The connection parameters TLA and TA are transmitted with this answer.

Then the connection is established via the transport network control. For this purpose, the radio network controller RNC2 of the second access network Z2 issues an establishment request ERQ [NSEA = AAL2 _RNC ; DSAID = "unknown";ALC;OSAID; SUGR = BID; SSISU; IPEID = IP _VMH & UDP _VMH ] sent to the IWU1 gateway unit. This signaling message contains the arguments NSEA for Destination NSAP service endpoint address, DSAID for Destination signaling association identifier, ALC for Link characteristics, OSAID for Originating signaling association identifier, SUGR for Served user generated reference, SSISU for Service specific information (SAR-ungssured) and IPEID, which contains an address of the radio network controller RNC2 to which a connection from the interworking unit IWU1 to the radio network controller RNC2 is to be set up. NSAP stands for Network Service Access Point and SAR for Segmentation and Reassembly (Sublayer).

Between the gateway unit IWU1 and the first access network Z1, a signaling message Establishment Request ERQ [CEID; NSIA = AAL2 _RNC ; DSAID = "unknown";ALC;OSAID; SUGR = BID; SSISU]. The parameter CEID stands for Connection Element Identifier. The remaining parameters are taken from the signaling message between the second access network Z2 and the gateway unit IWU1.

The first access network Z1 replies to the interworking unit with an establishment confirm ECF. The gateway unit replies to the second access network Z2 with an Establishment Confirm [DSAID; OSAID; IPEID = IP _IWU and UDP _IWU ]. In this signaling message, the second access network Z2 is informed of an address of the gateway unit IWU1 to which the connection is to be set up.

The connection from the second access network Z2 is thus entitled the IWU1 gateway unit and from the Gateway unit IWU1 to the first access network Z1 and vice versa. It user data are transmitted, shown as black arrows are. The user data is between the second access network Z2 and the gateway unit IWU1 via an IP / UDP Transfer connection. Between the gateway unit IWU1 and the first access network Z1, the user data via a ATM-based AAL2 connection transmitted.

At the end of the data transfer, the connection is restored reduced. This is done between the access network Z2 and the first Access network Z1 an RL release request for the Gateway unit exchanged transparently. The dismantling of the Connection between the second access network and the Gateway unit IWU1, and between the gateway unit IWU1 and the first access network Z1.

In Fig. 3 the protocols used are shown. In the top layer, a first connection protocol V1 is used for the first access network and a second connection protocol V2 is used for the second access network. The first connection protocol V1 is the protocol standardized under the designation Q.2630.1 or ALCAP for establishing ATM-based connections. The second connection protocol V2 contains the information elements listed in the first connection protocol V1 and also contains an IP endpoint identifier which enables the establishment of the IP connection between the second access network Z2 and the gateway unit IWU.

Establishing a connection between the second access network Z2 and the master network S via the second gateway unit IWU2 is done analogously.

Claims (12)

1. radio communication system with a gateway unit, which is a first network element, the connection-oriented Connections supported, and a second network element, that supports packet-oriented connections with each other combines, being due to a first connection protocol, the is assigned to the first network element, one connection-oriented connection between the first Network element and the gateway unit is built, and due to a second connection protocol that the is assigned to a second network element, a packet-oriented connection between the second network element and the gateway unit is built, and wherein the first connection protocol and the second Connection protocol through an information element for control the gateway unit distinguish that one address for the packet-oriented connection between the second Contains network element and the gateway unit. 2. Radio communication system according to claim 1,
in which the radio communication system comprises a master network, a first access network and a second access network,
in which the first network element is the first access network of the radio communication system and the second network element is the second access network or the master network of the radio communication system, or
in which the first network element is the master network of the radio communication system and the second network element is the second access network of the radio communication system. 3. radio communication system according to claim 1 or 2,
in which the first connection protocol comprises information elements for establishing the connection-oriented connection between the first network element and the gateway unit,
in which the second connection protocol contains the information elements of the first connection protocol and the information element for controlling the gateway unit,
in which the information element for controlling the gateway unit contains an address of the second network element to which the packet-oriented connection to the gateway unit is established. 4. Radio communication system according to one of claims 1 to 3,
where the first network element supports ATM connections and
where the second network element supports IP connections. 5. Radio communication system according to claim 4,
in which the connection between the first network element and the gateway unit is established as an AAL2 connection,
in which the information element for controlling the gateway unit contains an IP endpoint identifier of the second network element. 6. radio communication system according to claim 5,
in which the first connection protocol, with the aid of which the connection between the first network element and the gateway unit is established, has the information elements in accordance with an ALCAP protocol,
in which the second connection protocol additionally contains an IP address and a UDP port to which the packet-oriented connection is established. 7. method for operating a radio communication system, where a connection between a first Network element that supports connection-oriented connections, and a second network element, the packet-oriented Connections supported by establishing a connection-oriented connection between the first Network element and a gateway unit and a packet-oriented connection between the second network element and the gateway unit are built, with the Establishing a connection, a first connection protocol that corresponds to the first Network element is assigned, and a second Connection protocol associated with the second network element are used, being the first connection protocol and the second connection protocol through a Distinguish information element that an address for controlling the Gateway unit for the packet-oriented connection between the second network element and the Gateway unit contains. 8. The method according to claim 7,
in which the radio communication system comprises a master network, a first access network and a second access network,
in which the first network element is the first access network and the second network element is the second access network or the master network or
in which the first network element is the master network and the second network element is the second access network. 9. The method according to claim 7 or 8,
in which the first connection protocol comprises information elements for establishing the connection-oriented connection between the first network element and the gateway unit,
in which the second connection protocol contains the information elements of the first connection protocol and the information element for controlling the gateway unit,
in which the information element for controlling the gateway unit contains an address of the second network element to which the packet-oriented connection with the gateway unit is established. 10. The method according to any one of claims 7 to 9,
where the first network element supports ATM connections and
where the second network element supports IP connections. 11. The method according to claim 10,
in which the connection between the first network element and the gateway unit is established as an AAL2 connection,
in which the information element for controlling the gateway unit contains an EP endpoint identifier of the second network element. 12. The method according to claim 11,
in which the first connection protocol, with the aid of which the connection between the first network element and the gateway unit is established, has the information elements in accordance with an AICAP protocol,
where the second connection protocol also contains an IP address and a UDP port to which the packet-oriented connection is established.