KR20080015298A - A method for establishing an ip bearer between media gateways in a wcdma communication system and a media gateway therefor - Google Patents

Abstract

A method for setting an IP(Internet Protocol) bearer between MGWs(Media Gateways) in a WCDMA(Wideband Code Division Multiple Access) communication system and an MGW therefor are provided to check a BCTP(Bearer Control Tunnelling Protocol) header of a BCTP PDU(Protocol Data Unit) including an IPBCP(IP Bearer Control Protocol) message before the IPBCP message is decoded, thereby efficiently setting a VoIP(Voice over Internet Protocol) call. An IP connection controller(220) generates a BCTP decoding request by receiving a BCTP PDU from the other MGW, and inputs signaling data extracted from the IPBCP PDU to control setup and alteration of an IP bearer. An IBTP(IP Bearer and Tunnelling Protocol) unit(230) decides whether the BCTP PDU is a proper one by checking a BCTP header of the received BCTP PDU according to the generated BCTP decoding request, and extracts the signaling data from the BCTP PDU if the BCTP PDU is the proper one.

Description

A method for establishing an IP bearer between media gateways in a WCDMA communication system and a Media gateway therefor}

1 is a schematic diagram of a VoIP communication system according to an embodiment of the present invention;

2 is a block diagram of a media gateway according to an embodiment of the present invention.

3 is a flowchart of a BCTP PDU encoding method according to an embodiment of the present invention.

4 is a flowchart illustrating a BCTP PDU decoding method according to an embodiment of the present invention.

5 is a flowchart of a BCTP header checking method according to an embodiment of the present invention.

6 is a conceptual diagram of a BCTP header according to an embodiment of the present invention.

The present invention relates to a communication protocol used in a wideband code division multiple access (WCDMA) communication system, and more particularly to a method and apparatus for establishing an IP bearer between Nb intervals between media gateways by using a bearer control tuning protocol (BCTP) protocol. It is about.

Wideband Code Division Multiple Access (WCDMA) communication system is one of the third generation communication systems, and was developed for the purpose of multimedia transmission, and is a communication system having many advantages that are distinguished from existing systems such as high-definition image service and fast data rate. In particular, the WCDMA Release 4 communication system connects media stream data, such as voice, between other communication networks, such as an Internet Protocol (IP) network, an Asynchronous Transfer Mode (ATM) network, and / or a Time Division Multiplex (TDM) network. A media gateway (MGW) that provides a separate communication system and a mobile switch center server (MSV) that controls call processing of the media gateway are separated. A protocol used to set up a bearer to exchange the media stream data between Nb sections, which is a section between two MGWs, includes an Access Link Control Application Part (ALCAP) protocol.

The ALCAP protocol is used to establish a signaling bearer for communicating call control signals on the ATM layer, and is located at the top of the ATM layer on the protocol stack, AAL2 (Service Adaptation Layer 2) and SSCOP (Service Specific Connection). Oriented Protocol, Service Specific Coordination Function (SSCF), and Message Transfer Part 3B (MTP3B). As described above, the ALCAP protocol can be used to set up a relay call in an ATM network. However, when the Nb interval is an ATM cell environment, that is, an IP base other than an ATM base, data is transmitted as a text stream over the Ethernet layer. There is a problem. In order to set up an IP bearer so that voice over IP (VoIP) calls can be established in a widely installed IP network, another protocol is required to replace the ALCAP protocol.

An object of the present invention is to provide an apparatus for providing VoIP service by setting an IP bearer in an interval between media gateways connected to an IP base, that is, an Nb interval in a WCDMA communication system.

Another object of the present invention is a method and method for determining whether a BCTP PDU (Bearer Control Tunnelling Protocol Protocol Data Unit) including an IP Bearer Control Protocol (IPBCP) message for establishing an IP bearer in an Nb interval is a suitable BCTP PDU. To provide.

According to an aspect of the present invention, in a wideband code division multiple access (WCDMA) communication system, an IP gateway is established in an Nb section with a counterpart media gateway connected to an IP base to provide a media gateway. The media gateway receives a BCTP Bearer Control Protocol Protocol Data Unit (BCDU) from the counterpart media gateway to generate a BCTP decryption request, wherein the BCTP PDU includes an IPBCP message including signaling data about the IP bearer. Message) and a Bearer Control Tunnelling Protocol (BCTP) header for tunneling the IPBCP PDU in the Nb interval.-IP that receives the signaling data extracted from the IPBCP PDU and controls the configuration and change of the IP bearer. In accordance with the connection control unit and the generated BCTP decryption request, the BCTP header of the received BCTP PDU is inspected to determine whether it is a suitable BCTP PDU, and if it is a suitable BCTP PDU, extracting the signaling data from the BCTP PDU. IP Bearer Control and Tunnelling Protocol (IBTP) section is included.

According to another aspect of the present invention, in a wideband code division multiple access (WCDMA) communication system, an IP gateway is established in an Nb section with a counterpart media gateway connected via an IP base to provide a media gateway. Generate a BCTP encoding request including signaling data for setting up the IP bearer, and receive the BCTP PDU encoding the signaling data and transmit the BCTP PDU to the media gateway and the signaling according to the generated BCTP encoding request. And an IBTP unit for determining whether the data is suitable and generating a BCTP PDU including the IPBCP message generated by encoding the signaling data when the signaling data is suitable.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a conceptual diagram of a voice over IP (VoIP) communication system according to an embodiment of the present invention. Referring to FIG. 1, the VoIP communication system 100 according to an embodiment of the present invention may include a first media gateway (MGW) 110, a first mobile switching center (MSC) server 120, A second MSC server 130 and a second media gateway 140.

The MGW generally receives media stream data including real-time audio or video data and delivers the data to another device. The MGW transmits the input media stream in one format, for example, from a time division multiplex (TDM) format to another format, For example, it converts into an IP format and transmits it, thereby performing a bridge role between a network (not shown) and a packet network (not shown). In one embodiment of the present invention, the first MGW 110 establishes an IP bearer in a section between the first MGW 110 and the second MGW 140, that is, an Nb section, thereby setting the media bearer with the second MGW 120 and the media stream. Send and receive data. Here, the IP bearer means a connection or association on a user plane for transmitting media stream data between two MGWs through an IP network.

When the first MGW 110 wants to establish an IP bearer with the second MGW 140, the first MGW 110 sends an IPBCP (IP Bearer Control Protocol) message for establishing the IP bearer. Must be delivered. The IPBCP message is a message for establishing an IP bearer between MGWs 110 and 140 or for changing an already established IP bearer, which is a text message encoded in a first format, preferably a Session Desciption Protocol (SDP) format. The IPBCP is described in detail in ITU-T Rec. Q.1970. In order to transmit the IPBCP message as a text stream over the Ethernet base of the IP network, a tunneling protocol BCTP (Bearer Cotrol Tunneling Protocol) is used. Details on the BCTP protocol are detailed in ITU-T Rec. Q.1990. The first MGW 110 generates a BCTP header for the IPBCP message, and attaches the BCTP header to the front end of the IPBCP message to generate a BCTP Protocol Data Unit (PDU). To transmit the BCTP PDU to the first MSC server 120, the first MGW 110 attaches a MEGACO header to the generated BCTP PDU. The MEGACO (Media Gateway Control) protocol is defined in 3GPP TS 29.232 as a protocol used to transmit and receive control signaling data in a section between the MSC servers 120 and 130 and the MGW 110 and 140, that is, the Mc section.

The MSC server generally plays the role of controlling the MGW. In one embodiment of the present invention, the first MSC server 120 receives the BCTP PDU with the MEGACO header attached from the first MGW 110 to remove the MEGACO header, and preferably replaces the BCTP PDU with the second MSC. A Bearer Independent Call Control (BICC) header is attached to the BCTP PDU for transmission to 130. The BICC protocol is a protocol for transmitting and receiving signaling data between MSC servers, and in one embodiment of the present invention, the IP bearer is set, changed or released in an interval between the first and second MSC servers 120 and 130, that is, an Nc interval. It is used to transmit and receive BCTP PDUs. The BICC protocol is defined in ITU-T Recommendations Q.765.5, Q.1901 and Q.1902. The second MSC 130 receives the BCTP PDU to which the BICC header is attached, removes the BICC header, and attaches a MEGACO header to the BCTP PDU to transmit the BCTP PDU to the second MGW 140.

The second MGW 140 removes the MEGACO header by receiving the BCTP PDU to which the MEGACO header is attached from the second MSC server 130. The second MGW 140 examines the BCTP header attached to the front end of the BCTP PDU to determine whether the BCTP PDU is a suitable BCTP PDU. If the determination result is a suitable BCTP PDU, the second MGW 140 extracts the IPBCP message included in the BCTP PDU by removing the BCTP header, and generates a new response IPBCP message in response to the extracted IPBCP message. Preferably, when the IPBCP message is a request message for requesting to set up or change an IP bearer, the response IPBCP message is an acknowledgment message for accepting the request or a reject message for rejecting the request. Reject Message). More preferably, when the request message cannot be processed, the response IPBCP message may be a Confused Message indicating that the request cannot be processed. The second MGW 140 attaches a BCTP header to the front end of the response IPBCP message to generate a response BCTP PDU, and attaches a MEGACO header to transmit the BCTP PDU to the second MSC server 130.

The response BCTP PDU is transmitted to the first MGW 110 via the second MSC server 130 and the first MSC server 120 sequentially. The first MGW 110 examines the response BCTP PDU header to determine whether the response BCTP PDU from which the MEGACO header has been removed is suitable, extracts the response IPBCP message if appropriate, and extracts the extracted IPBCP message. According to the configuration or change of the IP bearer is made.

Hereinafter, an IP bearer setting or changing operation of the media gateway will be described in detail with reference to the specific configuration of the media gateway.

2 is a block diagram of a media gateway according to an embodiment of the present invention. Referring to Figure 2, the first MGW 110 according to an embodiment of the present invention is MEGACO (MEdia GAteway COntrol) unit 210, IP connection control unit 220 and IBTP (IP Bearer Control and Tunnelling Protocol) The unit 230 is included.

The MEGACO unit 210 processes and transmits and receives signaling data with the first MSC server 120 using the MEGACO protocol, and transmits and receives a BCTP PDU including an IPBCP message for configuring or changing an IP bearer using the MEGACO protocol. In the BCTP PDU transmission operation, the MEGACO unit 210 receives a BCTP PDU including a BCTP header and an IPBCP message from the IP connection controller 220, and applies the MEGACO protocol to the first MSC server 120. A MEGACO header for the input BCTP PDU is generated and attached to the BCTP PDU for tunneling through. In the receiving operation, the MEGACO unit 210 receives the BCTP PDU to which the MEGACO header is attached from the first MSC server 120 and removes the MEGACO header. The MEGACO unit 210 processes the bearer control tunneling package defined in ITU-T Recommendation Q.1950 for the establishment of an IP bearer, and the top-down information tunneling procedure defined in 3GPP TS 23.305 for tunneling. Handles (Tunnel Information Up, Tunnel Information Down Procedure). The MEGACO unit 210 performs a bearer preparation and establishment procedure for establishing an IP bearer.

The IP connection control unit 220 controls the overall IP bearer setup operation with the second MGW 140 and includes a Media Gateway Connection Control (MGCC) 221 and an IP Resource Connection Control (IRCC) 222 for this purpose. do.

The MGCC unit 221 performs overall control of the IP bearer setup operation. The MGCC unit 221 generates an IP bearer setup or change request according to a request of a higher level user application (not shown), and generates a BCTP PDU or BCTP PDU according to the IP bearer setup or change request from the IRCC unit 222. Enter the error cause that indicates the cause of the failure. The MGCC unit 221 receives the response BCTP PDU transmitted from the second MSC 140 through the MEGACO unit 221, receives the signaling data included in the response BCTP PDU from the IRCC unit 222, and receives the IP bearer. Set or change. The MGCC unit 221 connects an IP termination that controls the IP bearer with another termination, for example, ATM or TDM termination, when the bearer configuration of the Nb interval is based on IP, that is, when performing communication through the IP bearer. Switching between different types of terminations is performed. The MGCC unit 221 manages a context including an IRCC unit 222, a TRCC unit (not shown), and an ARCC unit (not shown), negotiates a type of tunneling, and controls overall call flow and IP bearer setup.

The IRCC unit 222 is controlled by the MGCC unit 221, generates a BCTP decryption request for receiving the BCTP PDU from the MGCC unit 221 and requesting decryption of the BCTP PDU during a BCTP PDU reception operation, and an IBTP unit. Receive a BCTP decryption success response to the generated BCTP decryption request from 230. The BCTP decryption success response includes signaling data in a first format, for example, a structure format, required for the IP bearer setup or modification. The signaling data of the structure format is signaling data obtained by converting signaling data of a second format, for example, SDP format, included in an IPBCP message of the BCTP PDU into the structure format. Herein, the structure format refers to a data structure format arranged sequentially by each predetermined item, and the SDP format refers to an IPBCP message format in which IPBCP message fields are listed as defined in ITU-T Rec. Q.1970.

In the BCTP PDU transmission operation, the IRCC unit 222 receives the IP bearer setup or change request from the MGCC unit 221 to generate a BCTP PDU generation request including signaling data in a structured form, and generates a BCTP PDU generation request. The BCTP PDU generation success response or BCTP PDU generation failure response is input from the IBTP unit 230. The BCTP PDU generation success response includes a BCTP PDU generated by the IBTP unit 230, and the BCTP PDU generation failure response includes the error cause indicating the cause of the BCTP PDU generation failure.

The IBTP unit 230 receives the BCTP PDU decryption request from the IRCC unit 222 and determines whether the BCTP PDU included in the BCTP decryption request is a suitable BCTP PDU, and if the BCTP PDU is a suitable BCTP PDU, the input BCTP. Decrypt the PDU. The IBTP unit 230 receives the BCTP PDU encoding request including the structure type signaling data from the IRCC unit 222, converts the structure type signaling data into the SDP type signaling data, and converts the SDP type signaling. Create a BCTP PDU containing the data. The IBTP unit 230 includes a BCTP unit 231 and an IPBCP unit 232 for this purpose.

In the BCTP PDU reception operation, the BCTP unit 231 receives the BCTP decryption request including the BCTP PDU from the IRCC unit 222 and examines the BCTP header of the BCTP PDU to determine whether the BCTP PDU is a suitable BCTP PDU. Determine whether or not. According to ITU-T Recommendation QBCTP 1990, as shown in FIG. 6, the BCTP header consists of 16 bits, a 1-bit BCTP Version Error Indicator Field (BVEI) and a 5-bit BCTP Version Indicator field. A first octet including a BCTP Version Indicator Field and a 1-bit Tunneled Protocol Error Indicator Field (TPEI) and a 6-bit Tunneled Protocol Indicator Field. Contains the first octet.

The value of the sixth bit of the first octet of all BCTP PDUs is one. The BCTP Version Error Indicator field is a field indicating whether the BCTP version of the BCTP PDU is supported in the media gateway receiving the BCTP PDU, for example, in the second MGW 140 and is 0 when transmitting the first BCTP PDU. Set to 1 in the response BCTP PDU to the transmitted BCTP PDU if the media gateway receiving the transmitted BCTP PDU does not support the BCTP version of the transmitted BCTP PDU. The BCTP version indicator field is a field indicating the version of the BCTP PDU. The tunneled protocol error indicator field is a field indicating whether the BCP protocol tunneled by the BCTP PDU is supported by the media gateway receiving the BCTP PDU, for example, the second MGW 140, and transmitting the first BCTP PDU. Is set to 0 when the media gateway receiving the transmitted BCTP PDU does not support the BCP protocol tunneled by the transmitted BCTP PDU and is set to 1 in the response BCTP PDU for the transmitted BCTP PDU. The tunneled protocol indicator field indicates the type of BCP protocol tunneled by the BCTP protocol. If the tunneled BCP protocol is IPBCP, the value of the tunneled protocol indicator field is "10 0000".

The BCTP header check will be described in detail. The BCTP unit 231 determines whether a value of the tunneled protocol indicator field of the input BCTP PDU is “10 0000”. As a result of the determination, when the value of the tunneled protocol indicator field of the received BCTP PDU is "10 0000", the BCTP unit 231 determines whether the value of the tunneled protocol version error indicator field of the received BCTP PDU is 0. To judge. As a result of the determination, when the value of the tunneled protocol version error indicator field of the input BCTP PDU is 0, the BCTP unit 231 determines whether the value of the sixth bit of the first octet of the input BCTP PDU is 1 or not. do. As a result of the determination, when the value of the sixth bit of the first octet of the BCTP PDU is 1, the BCTP unit 231 determines that the input BCTP PDU is suitable, and removes the BCTP header located at the front end of the BCTP PDU. Extract the IPBCP message tunneled by the BCTP PDU. The extracted IPBCP message contains signaling data in SDP format as defined in ITU-T Recommendation Q.1970. The BCTP unit 231 converts the signaling data of the SDP format included in the IPBCP message into signaling data of the structure format so that the signaling data of the SDP format can be output to the IRCC unit 222.

Meanwhile, as a result of the determination, the value of the tunneled protocol indicator field of the received BCTP PDU is not "10 0000" or the value of the tunneled protocol error indicator field is not 0 or the first octet of the input BCTP PDU. If the value of the sixth bit is not 1, the BCTP unit 231 determines that the input BCTP PDU is not suitable, and generates a BCTP decryption failure response indicating the cause of the error. The determination order of the BCTP header may be different from the order illustrated in one embodiment of the present invention, and the determination method according to an embodiment of the present invention and a method obvious to those skilled in the art may be adopted.

In the BCTP PDU transmission operation, the BCTP unit 231 receives the BCTP PDU encoding request including the signaling data of the structure type from the IRCC unit 222 and extracts the signaling data of the structure type from the BCTP PDU encoding request. do. The BCTP unit 231 receives the IPBCP message including the signaling data in the SDP format from the IPBCP unit 232, generates a BCTP header for the input IPBCP PDU, and attaches the BCTP header to the front end of the IPBCP PDU. Create a PDU.

The IPBCP unit 232 receives the IPBCP message including the signaling data of the SDP format from the BCTP unit 231 and converts the SDP format signaling data into the signaling data of the structure format to deliver the IPBCP message to the IRCC unit 222. do. The IPBCP unit 232 receives the structured type signaling data from the BCTP unit 231 and converts the structured type signaling data into the SDP type signaling data to generate an IPBCP message.

Hereinafter, a method of encoding and decoding a BCTP PDU of a media gateway according to an embodiment of the present invention will be described in detail.

3 is a flowchart of a BCTP PDU encoding method according to an embodiment of the present invention. Referring to FIG. 3, the IBTP unit 230 of the first MGW 110 according to an embodiment of the present invention receives a BCTP encoding request including signaling data of structure type from the IRCC unit 222 (S310). . Thereafter, the IBTP unit 230 determines whether an IPBCP message can be generated from the inputted signaling data of the structure type, that is, whether the signaling data of the SDP format can be generated (S320).

If it is determined in step S320 that the IPBCP message can be generated from the input structured signaling data, the IBTP unit 230 converts the input signaling data into signaling data of the SDP format to generate an IPBCP message. (S330). Thereafter, the IBTP unit 230 generates a BCTP header for the generated IPBCP message (S340), and attaches the generated BCTP header to the front end of the IPBCP message to generate a BCTP PDU (S350).

Thereafter, the IBTP unit 230 generates a BCTP encoding success response including the generated BCTP PDU, outputs it to the IRCC unit 222 (S360), and ends the procedure. On the other hand, if the determination result of step S320 is unable to generate an IPBCP message with the input structured signaling data, the BCTP encoding failure response including an error reason indicating why the IPBCP message cannot be generated. To generate and output to the IRCC unit 222 (S370) to terminate the procedure.

4 is a flowchart illustrating a BCTP PDU decoding method according to an embodiment of the present invention. Referring to FIG. 4, the IBTP unit 230 of the first MGW 110 according to an embodiment of the present invention may request a BCTP encoding including a BCTP PDU received from the second MGW 140 from the IRCC unit 222. To receive the input (S410). After that, the IBPT unit 230 examines the header of the input BCTP PDU (S420) and determines whether it is a suitable BCTP header (S430).

If it is determined in step S430 that the BCTP header is suitable, the IBTP unit 230 extracts the IPBCP message by removing the BCTP header from the input BCTP PDU (S440). Thereafter, the IBTP unit 230 extracts the SDP format signaling data included in the IPBCP message (S450), converts the extracted SDP format signaling data into the signaling format of the structure format (S460), and converts the converted structure. The BCTP decryption success response including the signaling data of the format is output to the IRCC unit 222 (S470), and the procedure ends. On the other hand, if it is determined in step S430 that the input BCTP PDU is an inappropriate BCTP PDU, the IBTP unit 230 outputs a BCTP decryption failure response including an error reason indicating an inappropriate reason to the IRCC unit 222. And the procedure ends (S480).

5 is a flowchart illustrating a BCTP header checking method according to an embodiment of the present invention. 5, the IBTP unit 230 of the first MGW 110 according to an embodiment of the present invention determines whether the value of the tunneled protocol indicator field of the BCTP header is "10 0000" (S500). . As a result of the step S500, when the value of the tunneled protocol indicator field of the BCTP header is "10 0000", the IBTP unit 230 determines whether the value of the tunneled protocol error indicator field of the BCTP header is 0 (S510). ). As a result of the determination in step S510, when the value of the tunneled protocol error indicator field of the BCTP header is 0, the IBTP unit 230 determines whether the value of the sixth bit of the first octet of the BCTP header is 1 (S520). ). As a result of the step S520, when the value of the sixth bit of the first octet of the BCTP header is 1, the IBTP unit 230 determines that the BCTP PDU including the BCTP header is a suitable BCTP PDU (S530). do.

On the other hand, if the value of the tunneled protocol indicator field of the BCTP header is not "10 0000" as a result of the step S500 determination, the value of the tunneled protocol error indicator field of the BCTP header is not 0, or as a result of the determination of step S510; or If it is determined in step S520 that the value of the sixth bit of the first octet of the BCTP header is not 1, the IBTP unit 230 determines that the BCTP PDU including the BCTP header is not a suitable BCTP PDU (S540). Terminate the procedure.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

According to the present invention as described above, it is possible to provide an apparatus for providing VoIP service by setting an IP bearer in a section between media gateways connected to an IP base in a WCDMA communication system, that is, an Nb section as an IP base. In addition, according to the present invention as described above, BCTP header of the BCTP Bearer Control Tunnelling Protocol Protocol Data Unit (PDU) including the IPBCP message before decoding the IPBCP message including the signaling data for configuring the IP bearer in the Nb interval There is also an effect that can provide a method and apparatus that can effectively establish a VoIP call by checking the.

Claims (14)

A media gateway that performs communication by setting an IP bearer in an Nb section with a counterpart media gateway connected to an IP base in a wideband code division multiple access (WCDMA) communication system. Receiving a BCTP Bearer Control Protocol Protocol Data Unit (BCDU) from the peer media gateway to generate a BCTP decryption request, wherein the BCTP PDU is an IP Bearer Control Protocol Message (IPBCP) message containing signaling data about the IP bearer and the A Bearer Control Tunnelling Protocol (BCTP) header for tunneling an IPBCP PDU in the Nb interval, the IP connection controller configured to control the configuration and change of the IP bearer by receiving the signaling data extracted from the IPBCP PDU; And In accordance with the generated BCTP decryption request, the BCTP PDU of the received BCTP PDU is examined to determine whether it is a suitable BCTP PDU, and if it is a suitable BCTP PDU, IBTP (IP) for extracting the signaling data from the BCTP PDU. Media gateway including the Bearer Control and Tunnelling Protocol). The method of claim 1, The BCTP header includes a Tunnelled Protocol Indicator Field indicating the type of protocol tunneled by the BCTP PDU, And the IBTP unit examines the tunneled protocol indicator field of the BCTP header and determines a suitable BCTP PDU if the protocol tunneled by the BCTP PDU is an IPBCP protocol. The method of claim 2, The BCTP header includes a tunneled protocol error indicator field indicating whether the media gateway that transmitted the BCTP PDU supports the IPBCP protocol, And the IBTP unit examines the tunneled protocol indicator field of the BCTP header and determines that the media gateway that has transmitted the BCTP PDU is a suitable BCTP PDU if the media gateway that supports the BCB PDU supports the IPBCP protocol. The method of claim 2, The BCTP header has a value of 1 for the 6th bit of the first octet, And the IBTP unit examines the sixth bit of the first octet of the BCTP header and determines that an appropriate BCTP PDU is determined if the value of the sixth bit is one. The method of claim 1, The IBTP unit A BCTP unit that examines the BCTP header of the received BCTP PDU and extracts the IPBCP message included in the BCTP PDU by removing the BCTP header of the BCTP PDU if the received BCTP PDU is a suitable BCT PDU; And And a IPBCP unit which extracts the signaling data included in the extracted IPBCP message. The method of claim 5, wherein The signaling data included in the IPBCP PDU is encoded according to a first predetermined format. And the IPBCP unit extracts the signaling data encoded in the first format and converts the signaling data into signaling data of a second predetermined format. The method of claim 1, The IP connection control unit A MGCC (Media Gateway Connection Control) unit for receiving the BCTP PDU and controlling setting and changing of the IP bearer according to the extracted signaling data; And And receiving the received BCTP PDU, generating the BCTP decryption request, and including an IRCC (IP Resource Connection Control) unit for receiving the extracted signaling data from the IBTP unit. A media gateway that performs communication by setting an IP bearer in an Nb section with a counterpart media gateway connected to an IP base in a wideband code division multiple access (WCDMA) communication system. An IP connection controller for generating a BCTP encoding request including signaling data for configuring the IP bearer, receiving a BCTP PDU encoding the signaling data, and transmitting the received BCTP PDU to the counterpart media gateway; And And determining whether the signaling data is suitable according to the generated BCTP encoding request, and if the signaling data is suitable, generating an BCTP PDU including an IPBCP message generated by encoding the signaling data. Media gateway. The method of claim 8 The generated signaling data is signaling data of a first predetermined format, The IBTP unit It is determined whether the generated first type of signaling data can be converted into signaling data of a second predetermined type, and when the determination result can be converted, the first type of signaling data is converted into the signaling of the second type. An IPBCP unit converting the data to generate the IPBCP message; And And a BCTP unit generating a BCTP header for the IPBCP message and attaching the BCTP header to the generated IPBCP message to generate a BCTP PDU. A decoding method of a BCTP PDU for configuring an IP bearer in an Nb interval, Receiving a BCTP PDU including an IPBCP message including signaling data about the IP bearer and a BCTP (Bearer Control Tunnelling Protocol) header for tunneling the IPBCP message in the Nb interval; Determining whether a BCTP header of the received BCTP PDU is appropriate; And Extracting and decoding the signaling data included in the IPBCP message from the BCTP PDU, if the BCTP header is suitable. The method of claim 10, The BCTP header includes a tunneled protocol indicator field indicating the type of protocol tunneled by the BCTP PDU; The determining of whether or not suitable is the BCTP PDU decryption method of determining the appropriate BCTP PDU if the protocol tunneled by the BCTP PDU is the IPBCP protocol by examining the tunneled protocol indicator field of the BCTP header. The method of claim 11, The BCTP header includes a tunneled protocol error indicator field indicating whether a media gateway that has transmitted the BCTP PDU supports IPBCP; The determining of whether it is suitable may include determining the appropriate BCTP PDU when the media gateway transmitting the BCTP PDU supports IPBCP by examining the tunneled protocol indicator field of the BCTP header. The method of claim 11, The BCTP header has a value of 1 for the 6th bit of the first octet, The determining of the appropriateness of the BCTP PDU decoding method for checking the sixth bit of the first octet of the BCTP header and if the value of the sixth bit is 1 to determine a suitable BCTP PDU. The method of claim 11, The signaling data included in the IPBCP message is encoded according to a first predetermined format. The decoding may include extracting the signaling data encoded in the first format, converting the decoding data into signaling data of a second predetermined format, and decoding the BCTP PDU.

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