KR100706992B1 - Method and system for providing radio access bearer bandwidth change service on wcdma network - Google Patents

Abstract

The present invention relates to a system and method for providing a radio access bearer bandwidth change service in a WCDMA network.

The present invention provides a method for providing a radio access bearer (RAB) bandwidth change service in a wideband CDMA (WCDMA) network, comprising: (a) a packet switched support node (SGSN); Receiving a Packet Data Protocol (PDP) context change request (Pdify_PDP_Context_Request) message from a mobile communication terminal by a Serving GPRS Support Node (hereinafter referred to as 'SGSN'); (b) transmitting a packet data protocol context update request (Update_PDP_Context_Request) message for bandwidth update of an existing call to a General Gateway Support Node (GGSN); (c) transmitting a RAB Assignment Change Request (Modify_RAB_Assignment_Request) message to a Radio Network Controller (RNC); (d) receiving, from the RNC, a RAB Assignment Change Failure (Modification_RAB_Assignment_Fail) message indicating that the change of the RAB bandwidth has failed; (e) transmitting a packet data protocol context change rejection (Modify_PDP_Context_Reject) message to the mobile communication terminal and transmitting a packet data protocol context update request message to the GGSN; (f) receiving a packet data protocol context release request (Deactivate_PDP_Context_Request) message requesting release of an existing call from a mobile communication terminal; (g) transmitting a packet data protocol context delete request (Delete_PDP_Context_Request) message to the GGSN; And (h) receiving a packet data protocol context setup request (Activate_PDP_Context_Request) message for establishing a new call from the mobile communication terminal.

According to the present invention, after the mobile communication terminal transmits a Packet Data Protocol (PDP) context change request (Modify_PDP_Context_Request) message to a Serving GPRS Support Node (SGSN). When receiving a packet data protocol context change rejection (Modify_PDP_Context_Reject) message from the SGSN, the packet data protocol context release request (Deactivate_PDP_Context_Request) message is sent to release the existing call, and a packet data protocol context change request (Activate_PDP_Context_Request) message is transmitted to send a new call. By changing the radio access bearer (RAB) to the bandwidth required by the mobile communication terminal, the RQ that does not support the RAB bandwidth changing function requires certain QoS (Quality) required by a specific service selected by the mobile communication terminal. of Service It was co-RAB to change the bandwidth (Bandwidth) is a mobile communication device user has the effect that receives a reliable service.

WCDMA, RNC, QoS, RAB, Radio Access Bearer, Bandwidth

Description

System and method for providing radio access bearer bandwidth change service in WCDMA network {Method and System for Providing Radio Access Bearer Bandwidth Change Service on WCDMA Network}

1 is a diagram schematically illustrating a system for providing a radio access bearer bandwidth change service in a WCDMA network according to an embodiment of the present invention;

2 is a flowchart illustrating a process of providing a radio access bearer bandwidth change service in a WCDMA network according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: mobile communication terminal

110: radio access network (RAN)

112: Radio Transceiver Subsystem (RTS)

114: radio network controller (RNC)

120: Serving GPRS Support Node (SGSN)

130: Gateway GPRS Support Node (GGSN)

The present invention relates to a system and method for providing a radio access bearer bandwidth change service in a WCDMA network. More specifically, after the mobile communication terminal transmits a Packet Data Protocol (PDP) context change request (Modify_PDP_Context_Request) message to a Serving GPRS Support Node (SGSN). When receiving a packet data protocol context change rejection (Modify_PDP_Context_Reject) message from the SGSN, the packet data protocol context release request (Deactivate_PDP_Context_Request) message is sent to release the existing call, and a packet data protocol context change request (Activate_PDP_Context_Request) message is transmitted to send a new call. The present invention relates to a system and a method for changing a radio access bearer (RAB) bandwidth to a bandwidth required by a mobile communication terminal by setting a.

As computer, electronic, and communication technologies have made rapid progress, various wireless communication services using wireless networks have been provided. The most basic wireless communication service is a wireless voice call service that provides a voice call to a mobile terminal user wirelessly, which can provide a service regardless of time and place. In addition, while supplementing the voice call service by providing a text message service, recently, a wireless Internet service that provides an Internet communication service to a user of a mobile communication terminal through a wireless communication network has emerged.

Therefore, subscribers of mobile communication service can freely move and talk with the other party anytime and anywhere using wireless communication service, and various information necessary for life through wireless internet service such as news, weather, sports, securities , Exchange rates or traffic information may be provided in various forms such as text, voice, or image.

As a result of the development of mobile communication technology, a service provided by a code division multiple access (CDMA) mobile communication system transmits data such as circuit data and packet data as well as voice service. It is developing into a multimedia communication service.

In addition, recently, with the development of information and communication, IMT-2000 (International Mobile Telecommunication 2000) (eg, CDMA2000 1X, 3X, EV-DO, WCDMA, Wideband CDMA) ) And the like are commercially available. Recently, the IS-95C network, which has evolved from the existing IS-95A and IS-95B networks, transmits up to 307.2 Kbps, which is much faster than the 14.4 Kbps or 56 Kbps data rate that can be supported in the IS-95A and IS-95B networks. It offers wireless internet at speed. In particular, by using IMT-2000 service, it is possible to provide various multimedia services (AOD, VOD, etc.) at higher speed as well as improving existing voice and WAP service quality.

In the WCDMA system, the wireless access technology uses the CDMA method, but the mobile communication network technology is based on the GSM network technology. The WCDMA communication method adopts Adaptive Multi-Rate Vocoder (AMR), which has a transmission rate of 4.75 kbps to 12.2 kbps for voice coding, and supports high mobility enough to make a call even if the user moves at a speed of about 100 km per hour. . In addition, since the frequency bandwidth is widened to 5 MHz and has a data transfer rate of 2 Mbps, it is suitable for high-speed data transmission, and diversity due to reverse call quality that cannot be provided by the IS-95 and GSM methods. ) Provides good call and data transfer performance even in poor communication environments.

Meanwhile, the WCDMA system supports a radio access bearer (RAB) change function, and the RAB bandwidth change function allows a mobile communication terminal to access a WCDMA system to provide a WAP Browsing service. When using a service that requires a certain quality of service (QoS), such as streaming services such as music, video, etc., it refers to a function that supports a change in bandwidth.

However, some of the RNCs used in the WCDMA system do not support the RAB bandwidth change function. Therefore, if the mobile station requires a bandwidth change, the RAB change fails and the mobile station can provide a certain level of QoS. There was a problem that could not be maintained.

In order to solve this problem, the present invention provides a packet data protocol (PDP) context change request (Modify_PDP_Context_Request) to a mobile switching terminal (SGSN: Serving GPRS Support Node (SGSN)). If you receive a packet data protocol context change rejection (Modify_PDP_Context_Reject) message from SGSN after sending the message, deactivate the existing call by sending a packet data protocol context release request (Deactivate_PDP_Context_Request) message, and activate the packet data protocol context request (Activate_PDP_Context_Request) message. It is an object of the present invention to provide a system and method for changing a radio access bearer (RAB) bandwidth to a bandwidth required by a mobile communication terminal by transmitting a new call by setting a new call.

In order to achieve this object, according to a first object of the present invention, a method for providing a bandwidth access service for a radio access bearer (RAB) in a wideband CDMA (WCDMA) network (A) A Serving GPRS Support Node (SGSN) receives a Packet Data Protocol (PDP) context change request (Pdify_PDP_Context_Request) message from a mobile communication terminal. step; (b) transmitting a packet data protocol context update request (Update_PDP_Context_Request) message for bandwidth update of an existing call to a General Gateway Support Node (GGSN); (c) transmitting a RAB Assignment Change Request (Modify_RAB_Assignment_Request) message to a Radio Network Controller (RNC); (d) receiving, from the RNC, a RAB Assignment Change Failure (Modification_RAB_Assignment_Fail) message indicating that the change of the RAB bandwidth has failed; (e) transmitting a packet data protocol context change rejection (Modify_PDP_Context_Reject) message to the mobile communication terminal and transmitting a packet data protocol context update request message to the GGSN; (f) receiving a packet data protocol context release request (Deactivate_PDP_Context_Request) message requesting release of an existing call from a mobile communication terminal; (g) transmitting a packet data protocol context delete request (Delete_PDP_Context_Request) message to the GGSN; And (h) receiving a packet data protocol context setup request (Activate_PDP_Context_Request) message for establishing a new call from the mobile communication terminal.

According to a second object of the present invention, in a system for providing a radio access bearer (RAB) bandwidth changing service in a wideband CDMA (WCDMA) network, When a RAB allocation change request (Modify_RAB_Assignment_Request) message is transmitted to a station (RNC: Radio Network Controller, hereinafter referred to as 'RNC') and a RAB allocation change failed (Modify_RAB_Assignment_Fail) message is received from the RNC, the mobile communication terminal A Packet Switching Support Node (SGSN) which transmits a Packet Data Protocol (PDP) Context Change Rejection (Modify_PDP_Context_Reject) message to the packet (GPSN) (hereinafter referred to as 'SGSN'); And a packet data protocol context update request (Update_PDP_Context_Request) message for changing the bandwidth of an existing call set by the mobile communication terminal from SGSN to change the bandwidth of the existing call, and receives a packet data protocol context delete request (Delete_PDP_Context_Request) message. Call release, including a packet gateway support node (GGSN) (hereinafter referred to as "GGSN") that performs a function of receiving a packet data protocol context creation request (Create_PDP_Context_Request) message and establishing a new call. Provided is a system for providing a radio access bearer bandwidth change service.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a diagram schematically illustrating a system for providing a radio access bearer bandwidth change service in a WCDMA network according to a preferred embodiment of the present invention.

In a wideband code division multiple access (WCDMA) network in accordance with a preferred embodiment of the present invention, a system for providing a radio access bearer bandwidth change service may include a mobile communication terminal 100 and a radio access network (RAN). 110), a radio base station (RTS) (hereinafter referred to as "RTS") 112, a radio control station (RNC: Radio Network Controller, referred to as "RNC") 114, packet exchange A Serving GPRS Support Node (SGSN) 120 (hereinafter referred to as 'SGSN') 120 and a Packet Gateway Support Node (GGSN) (hereinafter referred to as 'GGSN') 130 are included.

The mobile communication terminal 100 is wirelessly connected to the WCDMA network to provide a voice call function for performing a normal voice call by wireless communication with another mobile communication terminal or a landline telephone, and also by using a short message service center. , A mobile communication terminal capable of transmitting and receiving multimedia messages.

Here, the mobile communication terminal is a PDA (Personal Digital Assistant), cellular phone, PCS (Personal Communication Service) phone, Hand-Held PC (GSM), Global System for Mobile (GSM) phone, W-CDMA (Wideband CDMA) Phone, CDMA-2000 phone, Mobile Broad and System (MBS) phone and the like. Here, MBS phone refers to a mobile phone to be used in the fourth generation system currently being discussed.

In the present invention, the mobile communication terminal 100 accesses various content servers using a WCDMA network to view various contents, and provides a specific service (for example, a streaming service or a download service of specific multimedia contents) from various content servers. It is a terminal that can be used.

To this end, the mobile communication terminal 100 uses a wireless application protocol (WAP), which is a wireless Internet access protocol (WAP), to access various content servers using a WCDMA network, and MIE (Microsoft Internet) based on HTML using an HTTP protocol. Explorer), Handheld Device Transport Protocol (HDPT), NTT DoKoMo's i-Mode or SK Telecom's 'NATE', etc.

On the other hand, the mobile communication terminal 100 according to the preferred embodiment of the present invention is SGSN (In order to receive a specific service (for example, streaming service or download service for multimedia content) from various content servers connected using a WCDMA network After transmitting a Packet Data Protocol (PDP) Context Change Request (Modify_PDP_Context_Request) message to the SGSN 120 and receiving a Packet Data Protocol Context Change Reject (Modify_PDP_Context_Reject) message from the SGSN 120, the packet data protocol is transmitted to the SGSN 120. By transmitting a context deactivation request (Deactivate_PDP_Context_Request) message, the mobile terminal 100 requests the release of an existing call.

In addition, the mobile terminal 100 having transmitted the packet data protocol context release request message to the SGSN 120 transmits a packet data protocol context setting request (Activate_PDP_Context_Request) message after a predetermined time is selected by the mobile terminal 100. Request allocation of bandwidth required for a specific service.

The RAN 110 is composed of an RTS 112 and an RNC 114. The RTS 112 performs a wireless access termination function with the mobile communication terminal 100 according to the 3rd Generation Partnership Project (3GPP) wireless access standard and transmits / receives voice, video, and data traffic in a WCDMA manner. And, it transmits and receives information with the mobile communication terminal 100 through a transmission and reception antenna. The RNC 114 performs wired / wireless channel management, protocol matching of the mobile communication terminal 100, protocol matching of a base station, soft handoff processing, core network protocol processing, GPRS (General Packet Radio Service) access, fault management, system It is responsible for functions such as loading. The General Packet Radio Service (GPRS) is an asynchronous communication system that supports data transmission speeds of 115 Kbps, provides multimedia mail, and maximizes transmission line efficiency by packet-based data transmission.

On the other hand, the RNC 114 according to the preferred embodiment of the present invention receives the RAB assignment request (RAB_Assignment_Request) message from the SGSN 120 to set the RAB bandwidth provided to the mobile communication terminal 100, and set the RAB bandwidth A RAB Assignment Response (RAB_Assignment_Response) message indicating the message is transmitted to SGSN 120.

The SGSN 120 has a hardware structure for providing an Asynchronous Transfer Mode (ATM) -based switch and routing connection for a GPRS service, and supports an operating system (OS) according to various data service processes. The operating system functions include GPRS mobility management, GPRS session management, GPRS authentication and billing.

Meanwhile, upon receiving the packet data protocol release request message from the mobile communication terminal 100, the SGSN 120 according to the preferred embodiment of the present invention requests the GGSN 130 to delete the packet data protocol context (Delete_PDP_Context_Request). Message), and receives a packet protocol context delete response (Delete_PDP_Context_Response) message indicating that the existing call has been released from the GGSN 130.

In addition, after receiving the packet data protocol context deletion request message from the mobile communication terminal 100, when receiving a packet data protocol context setting request message for establishing a new call after a predetermined time, the GGSN 130 receives the packet data protocol context. Sends a Create Request (Create_PDP_Context_Request) message, receives a Packet Data Protocol Create Response (Create_PDP_Context_Response) message indicating that a new call has been established, and receives the RNC 114 of the bandwidth requested by the mobile communication terminal 100. RAB Assignment Response (RAB_Assignment_Response) message indicating that RAB has been set up from RNC 114 by sending a RAB Assignment Request (RAB_Assignment_Request) message to set up a Radio Access Bearer (RAB). Receive

The GGSN 130 is a serving node of an IP (Internet Protocol) -based packet network that provides a high-speed packet data service for GPRS data services. The GGSN 130 provides mobility of packet data services and performs various data related protocol processing functions. do. In addition, the GGSN 130 provides address assignment, domain address change, billing information, and maintenance functions.

2 is a flowchart illustrating a process of providing a radio access bearer bandwidth change service in a WCDMA network according to an embodiment of the present invention.

In FIG. 2, a radio access bearer provided by a radio access controller (RNC) of a session established between a mobile communication terminal 100 and a WCDMA network for the purpose of understanding the present invention. (RAB: Radio Access Bearer, hereinafter referred to as 'RAB') The bandwidth is set to 64 Kbps / 64 Kbps to each other, and the RAB bandwidth required by the specific service selected by the mobile communication terminal 100 64 Kbps / 128 Kbps The RAB bandwidth set above is not limited thereto.

When the mobile communication terminal 100 establishes a session with the WCDMA network and selects a specific service from any one of the content servers while viewing various content servers, a Serving GPRS Support Node (SGSN) is described below. SGSN '120 receives a packet data protocol (PDP) context change request (Modify_PDP_Context_Request) message from the mobile communication terminal 100 (S200).

In the present invention, the specific service is a service requiring a change in bandwidth. For example, when a mobile terminal user views various content servers using a WAP browser, the average bandwidth required between the mobile terminal 100 and various content servers is 64 Kbps in case of upload. In case of download, 64 Kbps is required. However, if the mobile terminal user requests the streaming service of multimedia content, it requires 64 Kbps for upload and 128 Kbps for download. In order to maintain a service, a bandwidth change of a radio access bearer (RAB) (hereinafter referred to as RAB) supported by the RNC 114 is required.

Upon receiving the packet data protocol context change request message, the SGSN 120 requests the packet gateway support node (GGSN) 130 to update a packet data protocol context for bandwidth update of an existing call. A (Update_PDP_Context_Request) message is transmitted and a packet data protocol context update response (Update_PDP_Context_Response) message indicating that the bandwidth of the existing call is updated is received (S202).

In response to the packet data protocol context update response message, the SGSN 120 changes the bandwidth of the RAB of the radio control station (RNC: Radio Network Controller (RNC)) 114 to change the bandwidth of the RAB (Modify_RAB_Assignment_Request). The message is transmitted (S204).

At this time, when the RNC 114 receiving the RAB change request message supports the RAB bandwidth changing function, the RNC 114 changes the RAB bandwidth to the bandwidth requested by the SGSN 120 to transmit the changed bandwidth to the mobile communication terminal 100. to provide.

If the RNC 114 that receives the RAB Allocation Change Request message does not support the function of changing the RAB bandwidth, the SGSN 120 sends a RAB Allocation Change Failure (Modification_RAB_Assignment_Fail) message indicating that the change in the RAB bandwidth has failed from the RNC 114. It receives (S206).

Upon receiving the RAB allocation change failure message, the SGSN 120 transmits a packet data protocol context change rejection (Modify_PDP_Context_Reject) message to the mobile communication terminal 100 and before receiving the packet data protocol context change request message to the GGSN 130. A packet data protocol context update request message for updating an existing call with a bandwidth is transmitted, and a packet data protocol context update response message indicating that the bandwidth is updated with an existing call is received (S208).

Upon receiving the packet data protocol context update response message, the SGSN 120 receives a packet data protocol context release request (Deactivate_PDP_Context_Request) message requesting the release of an existing call from the mobile communication terminal 100 (S210).

The SGSN 120 receiving the packet data protocol context release request message transmits a packet data protocol context delete request (Delete_PDP_Context_Request) message to the GGSN 130 to release the existing call, and indicates that the packet data protocol context has been released. A Delete Response (Delete_PDP_Context_Response) message is received (S212).

Upon receiving the packet data protocol context deletion response message, the SGSN 120 receives a packet data protocol context establishment request (Activate_PDP_Context_Request) message for establishing a new call from the mobile communication terminal 100 (S214).

Upon receiving the packet data protocol context setting request message, the SGSN 120 transmits a packet data protocol context creation request (Create_PDP_Context_Request) message to the GGSN 130 to set up a new call, and indicates that the packet data protocol context creation response indicates that the new call has been established. A Create_PDP_Context_Response message is received (S216).

Upon receiving the packet data protocol context creation response message, the SGSN 120 transmits a RAB allocation request (RAB_Assignment_Request) message for allocating the RAB bandwidth required by a specific service to the RNC 114, and transmits the RAB bandwidth from the RNC 114. A RAB allocation response (RAB_Assignment_Response) message indicating that the allocation is received (S218).

Through the above process, the RNC 114, which does not support the RAB bandwidth change function, provides the RAB change service to the mobile communication terminal 100.

Among the above, the transmission and reception of the packet data protocol context update response message of S202 and S208, the packet data protocol context deletion response message of S212, the packet data protocol context creation response message of S216, and the RAB assignment response message of S218 operate the mobile communication network. It can be omitted according to the needs of the operators to do.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

As described above, according to the present invention, a mobile communication terminal transmits a packet data protocol (PDP) context change request (Modify_PDP_Context_Request) to a Serving GPRS Support Node (SGSN). If you receive a packet data protocol context change rejection (Modify_PDP_Context_Reject) message from SGSN after sending the message, deactivate the existing call by sending a packet data protocol context release request (Deactivate_PDP_Context_Request) message, and activate the packet data protocol context request (Activate_PDP_Context_Request) message. The RNC does not support the RAB bandwidth change function by requesting a specific service selected by the mobile communication terminal by changing a radio access bearer (RAB) to a bandwidth required by the mobile communication terminal by setting a new call by transmitting a new call. doing Established by the mobile communication device users by changing the RAB bandwidth (Bandwidth) to provide QoS (Quality of Service) has an effect it receives a reliable service.

Claims (13)

In a method for providing a radio access bearer (RAB) bandwidth change service in a wideband CDMA (WCDMA) network, (a) receiving a Packet Data Protocol (PDP) context change request (Modify_PDP_Context_Request) message from a mobile switching terminal by a Serving GPRS Support Node (SGSN); (b) transmitting a packet data protocol context update request (Update_PDP_Context_Request) message for bandwidth update of an existing call to a General Gateway Support Node (GGSN); (c) transmitting a RAB Assignment Change Request (Modify_RAB_Assignment_Request) message to a Radio Network Controller (RNC); (d) receiving, from the RNC, a RAB Assignment Change Failure (Modification_RAB_Assignment_Fail) message indicating that the change of the RAB bandwidth has failed; (e) transmitting a packet data protocol context change rejection (Modify_PDP_Context_Reject) message to the mobile communication terminal and transmitting the packet data protocol context update request message to the GGSN; (f) receiving a packet data protocol context release request (Deactivate_PDP_Context_Request) message requesting release of the existing call from the mobile communication terminal; (g) sending a packet data protocol context delete request (Delete_PDP_Context_Request) message to the GGSN; And (h) receiving a packet data protocol context establishment request (Activate_PDP_Context_Request) message for establishing a new call from the mobile communication terminal; Method for providing a radio access bearer bandwidth change service comprising a. The method of claim 1, Step (a) is, (a1) selecting, by the mobile communication terminal, a specific service from any one of the content servers by setting up a session with the WCDMA network to view various content servers; And (a2) receiving the packet data protocol context change request message from the mobile communication terminal Method for providing a radio access bearer bandwidth change service comprising a. The method of claim 1, After step (b), (b1) receiving a packet data protocol context update response (Update_PDP_Context_Response) message indicating that the bandwidth of an existing call has been updated from the GGSN; The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 1, wherein in step (e), The packet data protocol context update request message is a message for updating the bandwidth of the existing call to a bandwidth before receiving the packet data protocol context change request message. The method of claim 1, After step (e), (e1) receiving a packet data protocol context update response message indicating that the GGSN has been updated with the bandwidth of the existing call. The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 1, After step (g), (g1) receiving a packet data protocol context delete response (Delete_PDP_Context_Response) message indicating that the existing call has been released from the GGSN. The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 1, After step (h), (i) the SGSN sending a packet data protocol context creation request (Create_PDP_Context_Request) message to the GGSN to establish the new call; And (j) transmitting a RAB Assignment Request (RAB_Assignment_Request) message for allocating the RAB bandwidth to the RNC; The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 7, wherein After step (i), (i1) receiving a packet data protocol context creation response (Create_PDP_Context_Response) message from the GGSN indicating that the new call has been established The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 7, wherein After step (j) above, (k) receiving a RAB Assignment Response (RAB_Assignment_Response) message from the RNC indicating that the RAB bandwidth has been allocated. The method of claim 1, further comprising a radio access bearer bandwidth change service. The method of claim 2, wherein the specific service, And a service requesting a change in the RAB bandwidth of the RNC. In a system for providing a radio access bearer (RAB) bandwidth change service in a wideband CDMA (WCDMA) network, Sends a RAB Assignment Change Request (Modify_RAB_Assignment_Request) message for changing the RAB bandwidth to a Radio Network Controller (RNC), and sends a RAB Assignment Change Failure (Modify_RAB_Assignment_Fail) message from the RNC. A Packet Switching Support Node (SGSN), which transmits a Packet Data Protocol (PDP) context change rejection (Modify_PDP_Context_Reject) message to a mobile communication terminal when received; And Receives a packet data protocol context update request (Update_PDP_Context_Request) message for changing the bandwidth of an existing call set by the mobile communication terminal from the SGSN to change the bandwidth of the existing call and receives a packet data protocol context delete request (Delete_PDP_Context_Request) message A packet gateway support node (GGSN) (hereinafter referred to as "GGSN") that performs a function of establishing a new call by receiving a packet data protocol context creation request (Create_PDP_Context_Request) message. System for providing a radio access bearer bandwidth change service comprising a. The method of claim 11, wherein the mobile communication terminal, Upon receiving the packet data protocol context change rejection message from the SGSN, the packet data protocol context release message for releasing the existing call is transmitted to the SGSN, and a packet data protocol for requesting the establishment of the new call whose RAB bandwidth is changed. A system for providing a radio access bearer bandwidth change service, characterized by transmitting a context setup (Activate_PDP_Context_Request) message to the SGSN. The method of claim 11, wherein the RNC, The RAB receives the RAB Assignment Request (RAB_Assignment_Request) message in which the RAB bandwidth is changed after the SGSN establishes the new call with the GGSN according to the request of the mobile communication terminal, and then changes the RAB to the bandwidth requested by the mobile communication terminal. A system for providing a radio access bearer bandwidth change service, wherein the bandwidth is allocated.

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