KR101259813B1 - Packet data service method for mobile communication terminal - Google Patents

Abstract

In the packet service method of a mobile communication terminal according to the present invention, when a VT (vidio telephony) call is requested through a mobile communication network while performing a packet service with a packet network, in a state of activating a PDP context for a packet service, The packet data transmitted to the mobile communication terminal is requested to be preserved in a Serving GPRS Support Node (SGSN) and connected to a VT (vidio telephony) call. According to the present invention, by performing a VT call in a state where a PDP context for a packet service is preserved, a PDP context (PDP context) stored in the SGSN without additional setting for packet service after the VT call ends. ) Is activated to transmit and receive data between packet networks.

Mobile communication terminal, SGSN, GGSN, PDP context, packet network, mobile communication network

Description

Packet service method for mobile communication terminal {Packet data service method for mobile communication terminal}

1 is a state diagram showing the configuration of a WCDMA network for implementing a packet service method of a mobile communication terminal according to the present invention;

2 is a flowchart illustrating an embodiment of a packet service method of a mobile communication terminal according to the present invention; and

3 is a flowchart illustrating another embodiment of a packet service method of a mobile communication terminal according to the present invention.

DESCRIPTION OF THE REFERENCE NUMERALS

10: mobile communication terminal 20: packet switched support node (SGSN)

30: Packet Gateway Support Node (GGSN) 40: Packet Network

41: Internet Network 42: Server

50: radio access network (RAN) 51: base station (BTS)

52: base station controller (BSC) 60: mobile communication switching center (MSC)

70: mobile communication network

The present invention relates to a packet service method of a mobile communication terminal, and more particularly, to a packet service method of a mobile communication terminal to be connected to a VT call in a state where a PDP context is preserved when there is a VT call request among packet services through a packet network. .

In general, in a WCDMA network, a mobile communication terminal is connected to a service GPRS support node (SGSN) and a gateway GPRS support node (GGSN) through a wireless access network, and is connected to a packet network through SGSN and GGSN to perform packet service with the packet network. do. Here, the GGSN converts the protocol of the packet transmitted from the SGSN to the corresponding packet network or transmits the packet transmitted from the external packet network to the SGSN, and the SGSN transmits the packet transmitted from the GGSN to the mobile communication terminal through the wireless access network. .

On the other hand, the mobile communication terminal is connected to the mobile communication network through a mobile communication switching center (MSC) connected to a wireless access network, and performs a wireless Internet service, content service and call services such as voice call, video call.

However, when the mobile communication terminal intends to temporarily perform a call service among packet services with the packet network, the mobile communication terminal must terminate the call connection of the packet data in progress for the call service.

Therefore, after the call service is terminated, in order to perform packet service again, the packet service can be performed only by resetting the PDP context. Therefore, not only the user's convenience is reduced, but also the connection time during the packet service is performed. There is a problem that it is long and expensive accordingly.

Accordingly, an object of the present invention is to enable the activated PDP context to be preserved in the SGSN when there is a VT call request in the packet service of the mobile communication terminal, and to activate the preserved PDP context without additional setting even after the VT call ends. The present invention provides a packet service method of a mobile communication terminal that enables packet data transmission and reception through a packet network.

In the packet service method of a mobile communication terminal according to the present invention for solving the above problems, in the packet service method of a mobile communication terminal communicating through a packet network and a mobile communication network, to perform transmission and reception of packet data through the packet network Activating a PDP context, requesting that the activated PDP context is preserved in a Serving GPRS Support Node (SGSN) upon requesting a VT (vidio telephony) call through the mobile communication network; and VT call connection step; Packet service method of a mobile communication terminal comprising a.

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

1 is a state diagram showing the configuration of a WCDMA network for implementing a packet service method of a mobile communication terminal according to the present invention.

As shown in FIG. 1, a packet gateway support node (GGSN, Gateway) for converting and delivering a protocol of a packet data provided from a packet network 40 and a packet network 40 that provides packet data when performing a packet service is performed. Serving GPRS Support Node (SGSN) 20 for transmitting the packet data transmitted from the GPRS Support Node (GRSN) 30 and the GGSN 30 to a radio access network (RAN) 50, and wireless. It includes a mobile communication terminal 10 for receiving the packet data transmitted from the SGSN 20 through the access network (RAN, 50).

The SGSN 20 transfers packet data transmitted from the mobile communication terminal 10 or to the mobile communication terminal 10, and is provided to the mobile communication terminal 10 for subscribers included in the management area of the SGSN 20. PDP context, etc.) are stored in the database in SGSN 20. At this time, the SGSN 20 preserves an activated PDP context with the mobile communication terminal 10 according to a request of the mobile communication terminal 10 connected through the wireless access network RAN 50, and stores the mobile communication terminal ( When transmitting packet data from 10) or requesting packet data to the packet network, the preserved PDP context is activated again.

The GGSN 30 enables connection with an adjacent Internet network 41, converts the protocol of packet data transferred from the SGSN 20, and transmits the protocol to the server 42 through the Internet network 41, or the Internet. The packet transmitted from the network 41 is transmitted to the SGSN 20.

At this time, the SGSN 20 and the GGSN 30 are connected to the mobile communication terminal 10 through a wireless access network (RAN) 50, and are connected to the packet network 40 to transmit packet data stored in the packet network 40 to the mobile communication terminal. Provided by (10). Here, the packet network 40 includes an internet network 41 and a server 42 for storing packet data and providing packet data through the internet network 41.

In addition, when performing VT service in the WCDMA network, a mobile switching center (MSC) 60 that provides a circuit switching service to the mobile communication terminal 10 connected to a wireless access network (RAN) 50, mobile communication The mobile communication network 70 further includes a mobile communication network 70 that provides various contents and call services to the specific mobile communication terminal 10 through the switching center (MSC) 60.

Meanwhile, the wireless access network (RAN) 50 controls a radio link and a wired link through a base transceiver station (BTS) 51 providing a communication environment of the mobile communication terminal 10 and the base station (BTS, 51). In addition, the mobile communication terminal 10 includes a base station controller (BSC) 52 which performs a handoff function in order to maintain the continuity of the call even while moving.

At this time, the base station controller (BSC, 52) is to send and receive packet data between the mobile communication terminal 10 and the packet network 40 through the SGSN (20) at the request of the mobile communication terminal 10, or the mobile communication switching center ( Through the MSC, 60, the VT call service between the mobile communication terminal 10 and the mobile communication network 70 is enabled.

When the mobile communication terminal 10 intends to perform the VT call service through the mobile communication network 70 while performing the packet service through the packet network 40, the mobile communication terminal 10 requests that the activated PDP context be preserved in the SGSN 20.

On the other hand, if the mobile communication terminal 10 intends to perform the VT call service through the mobile communication network 70 while performing the packet service through the packet network 40, the quality of service (QOS) for the activated PDP context (PDP context) The Quality of Service).

Here, the profile of the quality of service (QOS) is the allocation / retention priority (Allocation / Retention Priority), the traffic class (Traffic Class), delivery order (Delivery Order), the delivery of the error service data unit (SDU) of Erroneous SDU, Maximum SDU size, uplink maximum bit rate, downlink maximum bit rate, residual bit error ratio, SDU error rate, transmission delay ( Transfer Delay, Traffic Handing Priority, Uplink Guaranteed Bit Rate, Downlink Guaranteed Bit Rate, and the like.

In this case, the mobile communication terminal 10 requests the maximum bit rate of the uplink and the downlink to be changed to '0 Kbps', thereby maintaining the activation state of the PDP context, and thus, the packet network ( Do not send or receive packet data with 40).

Here, the SGSN 20 requests a quality of service (QOS) requested from the mobile terminal 10 when there is a request for changing the quality of service (QOS) for the activated packet data protocol context (PDP context) from the mobile terminal 10. ) If the maximum transmission rate of the uplink and uplink for the PDP context of the mobile communication terminal 10 is '0 Kbps' by detecting a profile, the PDP context (PDP context) In this case, the maximum transmission rate of the uplink and the downlink is 0 Kbps.

In addition, when the activated PDP context is preserved in the SGSN 20 according to the request, the mobile communication terminal 10 requests a VT call through the mobile communication network 70, thereby connecting the VT call with another terminal.

On the other hand, after the VT call is terminated through the mobile communication network 70, the mobile communication terminal 10 requests packet data to the packet network 40 through the SGSN 20 or transmits predetermined packet data to the SGSN 20. The PDP context is activated to transmit and receive packet data through the packet network 40.

On the other hand, the mobile communication terminal 10 when the maximum bit rate of the uplink (uplink) and downlink (downlink) of the quality of service (QOS) of the PDP context (PDP context) is '0 Kbps', the PDP context (PDP context) The maximum bit rate of the uplink and downlink of the QoS is requested to be restored to a preset value.

Accordingly, the SGSN 20 restores the maximum bit rate of uplink and downlink of the quality of service (QOS) of the PDP context to the preset value according to the request of the mobile communication terminal 10. The packet data transmission and reception between the mobile communication terminal 10 and the packet network 40 is performed.

Hereinafter, the operation of the present invention will be described.

2 is a flowchart illustrating an embodiment of a packet service method of the mobile communication terminal 10 according to the present invention.

The SDP 20 requests activation of a PDP context to the SGSN 20 for data transmission and reception between the mobile communication terminal 10 and the packet network (S100). At this time, the SGSM 20 requests the GGSN 30 to activate the PDP context for the mobile communication terminal 10, thereby generating a PDP context from the GGSN 30, thereby generating a PDP context (PDP). context) is activated, and the SGSN 20 transmits a response signal to the mobile communication terminal 20 (S120), thereby transmitting packet data between the mobile communication terminal and the packet network 40 through the SGSN 20 and the GGSN 30. Transmit and receive (S130).

If, during the packet service between the mobile communication terminal 10 and the packet network 40, it is desired to request a VT (vidio telephony) call via the mobile communication network 70 (S140), the mobile communication terminal 10 is activated. The PDP context of the state is requested to be preserved in the SGSN 20 (S150).

That is, the mobile communication terminal 10 allows the activated PDP context to be stored in the SGSN 20, thereby enabling packet data transmission and reception with the packet network 40 without resetting the PDP context.

At this time, the identification information of the PDP context (PDP context) of the mobile communication terminal 10 is also transmitted. Here, the identification information for the PDP context includes a Tunnelling Endpoint IDentifier (TEID), a Network Service Access Point Identification (NSAPI), and the like.

Meanwhile, the SGSN 20 preserves the PDP context of the activated state according to the request of the mobile communication terminal 10 and transmits a response signal for the preservation request to the mobile communication terminal 10 (S160 and S170).

When the mobile communication terminal 10 receives a response signal for the PDP context preservation request from the SGSN 20 (S170), the mobile communication terminal 10 transmits a VT (vidio telephony) call to the mobile communication network 70 through the MSC 60. By transmitting the outgoing signal (S180), and performs a VT call with another terminal connected through the mobile communication network 70 (S190).

In this case, not only the VT (vidio telephony) call service but also services available through the mobile communication network 70 such as content and voice call are all applicable.

On the other hand, if you want to end the VT call, by sending a VT (vidio telephony) call end signal to the mobile communication network 70 through the mobile communication switching center (MSC, 60) (S200), through the mobile communication network 70 End a VT call with another connected terminal.

After the end of the VT (vidio telephony) call through the mobile communication network 70 (S200), the mobile communication terminal 10 requests the packet data stored in the packet network 40 through the SGSN 20 (S210), in this case SGSN The PDP context stored at 20 is activated to perform packet data transmission and reception through the packet network 40 again (S220).

Here, similarly, when the predetermined packet data is transmitted to the packet network 40 through the SGSN 20, the PDP context stored in the SGSN 20 is activated to perform packet data transmission and reception through the packet network 40 again.

3 is a flowchart illustrating another embodiment of a packet service method of a mobile communication terminal according to the present invention.

The SDP 20 requests activation of a PDP context to the SGSN 20 for data transmission and reception between the mobile communication terminal 10 and the packet network (S300). At this time, the SGSM 20 requests the GGSN 30 to activate the PDP context for the mobile communication terminal 10, thereby generating a PDP context from the GGSN 30, thereby generating a PDP context (PDP). context) is activated (S310), in which the SGSN 20 transmits a response signal to the mobile communication terminal 20 (S320), through the SGSN 20 and the GGSN 30, the mobile communication terminal and the packet network 40 Packet data transmission and reception are performed (S330).

If, during the packet service between the mobile communication terminal 10 and the packet network 40, to request a VT (vidio telephony) call through the mobile communication network 70 (S340), the mobile communication terminal 10 is a PDP It is requested to change the quality of service (QOS) for the context (PDP context) (S350).

That is, the mobile communication terminal 10 has a maximum bit rate of uplink and downlink among profiles of Quality of Service (QOS) for the PDP context. ) Is changed to '0 Kbps'. At this time, the SGSN 20 transmits identification information such as a Tunneling Endpoint IDentifier (TEID), a Network Service Access Point Identification (NSAPI), etc. so that the SGSN 20 can recognize the PDP context of the mobile communication terminal 10.

The SGSN 20 detects a Quality of Service (QOS) for a PDP context of the mobile communication terminal 10 according to the received identification information, and at this time, an uplink and a downlink ( downlink) is changed to '0 Kbps' (S360). Here, the PDP context setting of the mobile communication terminal 10 is maintained until there is a separate quality of service (QOS) change request.

When the mobile communication terminal 10 receives the response signal for the service quality change request for the PDP context from the SGSN 20 (S370), the mobile communication terminal 10 transmits the VT (T) to the mobile communication network 70 through the mobile communication switching center (MSC) 60. vidio telephony) transmits a call origination signal (S380), and performs a VT call with another terminal connected through the mobile communication network 70 (S390). In this case, not only the VT (vidio telephony) call service but also services available through the mobile communication network 70 such as content and voice call are all applicable.

On the other hand, when the VT call is to be terminated, the mobile communication network (MSC) 60 transmits a VT (vidio telephony) call termination signal to the mobile communication network 70 through the mobile communication network 70. End a VT call with another connected terminal.

After the end of the VT (vidio telephony) call through the mobile communication network 70 (S400), the mobile communication terminal 10 is uplink of the quality of service (QOS) for the PDP context (PDP context) to the SGSN 20 If the maximum bit rate of the downlink (downlink) and the downlink (downlink) is requested to be restored to the preset value (S410), SGSN 20 restores the changed quality of service (QOS) to the preset data (S420) Generates a response signal for the job recovery request, and transmits to the mobile communication terminal 10 (S430), at this time, the packet data transmission and reception between the mobile communication terminal 10 and the packet network 40 in accordance with the request of the mobile communication terminal 10 This is to be re-run (S440).

In this case, when requesting the restoration of the quality of service (QOS) for the changed PDP context, the mobile communication terminal 10 is similar to the mobile communication terminal such as a Tunneling Endpoint IDentifier (TEID) and a Network Service Access Point Identification (NSAPI). The identification information of the PDP context (PDP context) of (10) is transmitted together.

As described above, the packet service method of the mobile communication terminal according to the present invention has been described with reference to the illustrated drawings. However, the present invention is not limited by the embodiments and the drawings disclosed herein, and is applied within the scope of the technical idea. Can be.

As described above, according to the present invention, in the packet service method of the mobile communication terminal, when there is a VT call request to the mobile communication network during packet service with the packet network, the PDP context for the packet service is preserved. By performing the VT call, the PDP context stored in the SGSN is activated without the need for a separate service for packet service after the VT call ends, thereby transmitting and receiving data between packet networks, thereby increasing user convenience. This has the advantage of saving packet service time and cost, and also has the effect of simultaneously performing packet service and call service.

Claims (7)

In the packet service method of a mobile communication terminal for communicating through a packet network and a mobile communication network, Activating a PDP context to perform transmission and reception of packet data through the packet network; Requesting a change in quality of service (QoS) for the PDP context so as not to transmit or receive the packet data while maintaining an active state of the PDP context when requesting a VT (vidio telephony) call through the mobile communication network; ; Connecting to the VT call; And And at the end of the VT call, recovering a quality of service (QoS) of the PDP context and transmitting and receiving packet data through the packet network. The method of claim 1, And a request for changing a quality of service (QoS) for the PDP context, together with the identification information of the PDP context. The method of claim 2, The identification information includes a Tunnelling Endpoint IDentifier (TEID) and Network Service Access Point Identification (NSAPI). The method of claim 1, The requesting step is a mobile communication terminal requesting that the highest transmission rates of uplink and downlink of quality of service (QOS) for the PDP context are changed to '0 Kbps'. Packet service method. delete The method of claim 1, At the end of the VT call, requesting that the highest transmission rates of uplink and downlink of quality of service (QOS) for the PDP context be restored to a preset value. Packet service method of a mobile communication terminal. The method of claim 6, And the requesting step transmits identification information of the PDP context together.

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