KR20020049819A - Method for Concurrent Servicing in Mobile Communication System - Google Patents

Abstract

PURPOSE: A simultaneous service method in a mobile communication system is provided to transmit packet data to a destination mobile station timely and provide the continuity of a service being provided to a subscriber by setting up a simultaneous service by adding a procedure for re-activating the packet data on the interface between a base station controller and an exchange when destination packet data is generated from a network to the mobile station which is available for the simultaneous service set-up. CONSTITUTION: A point-to-point protocol(PPP) is set-up between a mobile station and a packet data serving node(S21). A PDSN which has received packet data to be destined to the mobile station transmits a destination packet data traffic to the PCF(S22). The PCF recognizes that the mobile station is in a dormant state and transmits a 3G-IOS A9-base station controller service request message to the BSC to re-activate a packet data service(S23). The BSC transmits a 3G-IOS additional service request message to an exchange to additionally establish a packet data call(S24). The exchange transmits a 3G-IOS assignment request message requesting a radio resource assignment for the additional packet data service and an A8 interface connection between the BSC and a PCF(Packet Control Function) to a base station controller(BSC)(S25). The BSC transmits a 3G-IOS A9-base station service response message to the PCF to inform that the packet data re-activation proceeds(S26). The BSC transmits a call assignment message of the radio interface standard so that the mobile station can process a call for the re-activated packet data service(S27). The BSC transmits one of SCM(Srvice Connection Message), a GHDM(General Handoff Direction Message) and UHDM(Universal Handoff Direction Message) to the mobile station to initiate a service option connection set-up for the additional packet data service with the mobile station(S28). The mobile station proceeds a service negotiation procedure(S29) and transmits a service connection completion message to the BSC(S30). The BSC transmits a 3G-IOS A9/A8 set-up message to the PCF to request a packet bearer connection set-up of the A8 interface(S31). The PCF transmits a 3G-IOS A9/A8 connection message to inform that the packet bearer of the A8 interface has been completely set up(S32). The BSC transmits a 3G-IOS assignment complete message to inform that the packet data service is ready(S33). The mobile station is provided with the additional packet data service simultaneously with the voice call service which has been provided, and the PCF transmits the packet data to the destination mobile station(S34).

Description

Concurrent service method in mobile communication system {Method for Concurrent Servicing in Mobile Communication System}

The present invention relates to a mobile communication system. In particular, in a third generation mobile communication system capable of providing a simultaneous service, a mobile station having a packet data service in a dormant state is reactivating a packet data service when an incoming packet data is generated from a network side during a voice call service. The present invention relates to a simultaneous service method in a mobile communication system.

In particular, the present invention relates to a call control procedure on an interface between a base station controller and a switch and a base station controller-switch in a CDMA mobile communication system supporting the cdma2000 wireless standard.

As is known, in the mobile communication network (DCN, PCS) corresponding to the existing second generation mobile communication, only a single service can be provided to one mobile station, and service negotiation on a wireless interface is used to support another service while using a specific service. It is possible to change the service, but it is inevitable to stop the service.

When the packet data service is in a dormant state and an incoming packet data is generated from the network to the mobile station in the voice call, it is impossible to reactivate the packet data service.

1 is a diagram illustrating a procedure for rejecting incoming packet data to a mobile station in which a packet data call is doped and a voice call is active according to the prior art.

As shown in FIG. 1, the mobile station has a packet data service in a dormant state and a voice call is active, and thus a point-to-point protocol (PPP) with a packet data serving node is established. In addition, it is assumed that the A10 / A11 connection is established between a packet control function (PCF) to which the mobile station belongs and a packet data serving node (PDSN) interfaced with the PCF. .

In addition, it is assumed that the voice call service is in progress between the mobile station and the base station controller or the base station controller and the switching station in the state of radio resource allocation and call allocation for the voice call service (S11, S12).

Therefore, the packet data serving node (PDSN) receiving the packet data to be received from the network side to the mobile station transmits the incoming packet data traffic to the PCF using the PPP and A10 / A11 connections that are maintained for communication with the mobile station. (S13)

Receiving the incoming packet data traffic, the PCF recognizes that the mobile station is in a dormant state and transmits a 3G-IOS A9-BS Service Requset message to the base station controller to reactivate the packet data service. After that, the timer Tbsreq9 is driven (S14).

The base station controller receiving the A9-BS Service Requset message transmits a 3G-IOS base station controller service request message and drives timer T311 to establish a packet data call to the switching center. (S15)

The exchange receiving the BS Service Request message recognizes that the mobile station is busy, and the 3G-IOS base station controller service includes "cause value = MS Busy" as the base station controller. A BS Service Response message is transmitted, indicating that the mobile station is busy and cannot reactivate the packet data service (S16).

The base station controller, upon receiving the BS Service Response message, stops timer T311. In addition, a 3G-IOS A9-Base Station Controller Service Response message including "Cause value = MS Busy" is transmitted to the PCF to restart the packet data service because the corresponding mobile station is busy. It transmits that it cannot be activated (S17). At this time, the PCF stops the timer Tbsreq9.

The voice call service remains in service to the mobile station (S18, S19), and the packet data service remains in dormant state (S20).

After a certain time, the PCF sends an A9-BS Service Request message to the base station controller and retries packet data service reactivation.

As such, the Inter-Operability Specification (IOS), which is the interface standard between the base station controller and the switching station of the existing 2nd generation mobile communication system, defines only procedures for establishing and releasing a single service call. Since it is impossible to provide multiple services to one mobile station at the same time, it is impossible.

In addition, in order to receive a service other than the service in use, the service may be changed by service negotiation, but it is inevitable to stop the service in use.

Therefore, as described above, if the packet data service is in a doped state and incoming packet data is generated in the mobile station during the voice call, the mobile station cannot reactivate the packet data service during the voice call call. It is impossible to guarantee continuity of service.

Accordingly, an object of the present invention has been made in view of the above-mentioned problems of the prior art, and when an incoming packet data is generated from a network side while a packet data service of a mobile station is in a dormant state and a voice call is in use. It is to provide a simultaneous service method in a mobile communication system that allows a mobile station to receive incoming packet data without voice call truncation.

According to a method feature of the present invention for achieving the above object, in the mobile communication system in which each subscriber communicates with another subscriber or another service provider via the subscriber station, the base station controller and the switching center, Establishing one or more calls for the subscriber and using the delimiter for the first subscriber and the dormant call delimiter when there is data to be transmitted from the second subscriber through the dormant one of the established calls. Activating the dormant call and transmitting data from the second subscriber to the first subscriber via the activated call.

Preferably, the first subscriber is using a voice call, and the data to be transmitted from the second subscriber is packet data.

Therefore, the step of activating the dormant call includes the steps of a base station controller requesting a switching station for a service for the data to be transmitted, the switching station requesting a resource allocation from a base station controller according to the request, and the resource allocation. And the base station controller allocates resources according to the request and requests the mobile station to further set up the dormant call.

The requesting of the service from the switching center is performed by the base station controller sending an additional service request message to the switching center including a delimiter for the first subscriber and a delimiter for the service.

The requesting of additional setting of the call may include: transmitting, by the base station controller, a call assignment request message to the mobile station; and after the call assignment request message is transmitted, the base station controller sends a service access message (SCM) or the like. Sending either a general handoff indication message (UHDM) or a general handoff indication message (GHDM) to the mobile station to initiate connection establishment with the mobile station and the service.

1 is a diagram illustrating a procedure for rejecting incoming packet data to a mobile station in which a packet data call is doped and a voice call is active according to the prior art.

2 is a diagram illustrating a procedure for reactivating incoming packet data to a mobile station in which a packet data call is doped and a voice call is active according to the present invention.

The present invention provides a procedure for reactivating a packet data service on an interface between a base station controller and a switching station when an incoming packet data is generated from a network side to a mobile station capable of establishing simultaneous service while a packet data service is busy with a voice call. In addition, we propose a method for enabling packet data delivery to a destination mobile station by setting up a simultaneous service, and defining a new message for adding a procedure for reactivating the packet data service.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a diagram illustrating a procedure of reactivating incoming packet data to a mobile station in which a packet data call is doped and a voice call is active according to the present invention.

The mobile communication system according to the present invention includes a mobile station 201 supporting a concurrent service, a base station controller 202 for allocating radio resources according to a service request of the mobile station 201, and a call of the mobile station. An exchange station 203 to control, a packet control function (PCF) 204 for supporting a packet data service among the concurrent services, and the PCF or the Internet network It consists of a Packet Data Serving Node (PDSN) 205 for routing the packet data delivered from.

As shown in FIG. 2, the mobile station has a packet data service in a dormant state and a voice call is active, and thus, a point-to-point protocol (PPP) with a packet data serving node is established. )

It is also assumed that the A10 / A11 connection is established between the packet control function (PCF) to which the mobile station belongs and the packet data serving node (PDSN) interfaced with the PCF. In addition, it is assumed that a voice call service is in progress between a mobile station and a base station controller, or a base station controller and a switching station with radio resource allocation and voice resource allocation for a voice call service.

In addition, it is assumed that the A9 / A8 connection is not established in the PCF and the base station control period.

Therefore, the PDSN receiving the packet data to be received by the mobile station from the network side transmits the incoming packet data traffic to the PCF using the PPP and A10 / A11 connection maintained for communication with the mobile station. (S22)

The PCF, having received the packet data traffic, recognizes that the mobile station is in a dormant state and sends a 3G-IOS A9-base station controller service request to the base station controller to reactivate the packet data service. ) After transmitting the message, the timer Tbsreq9 is driven (S23).

Here, the A9-BS Service Request message is an A9 interface message, which includes the identifier of the mobile station that needs paging to initiate the packet data call setup.

The base station controller receiving the A9-BS Service Request message transmits a 3G-IOS Additional Service Request message and drives a timer T303 to additionally set up a packet data call to the switching center. (S24)

As described above, the additional service request message includes a separator (service option ID) for the packet data service in addition to a separator for a mobile station that needs paging to set up a call for the packet data. .

The exchange receiving the Additional Service Request message does not allocate an additional call path on the interface with the base station controller because the added service is packet data, and the radio resource allocation and base station for the added packet data service. After transmitting the 3G-IOS Assignment Request message requesting the A8 interface (user traffic) connection between the controller and the PCF to the base station controller, the timer T10 is driven (S25).

Upon receiving the assignment request message, the base station controller stops timer T303 and sends a 3G-IOS A9-base station controller service response message to the PCF to notify the packet data reactivation. (S26) In response to the notification, the PCF stops the timer Tbsreq9.

Meanwhile, the base station controller transmits an A9-base station controller service response message to the PCF and then uses a forward dedicated channel signaling channel to the mobile station. The mobile station proceeds to call processing for the packet data service to be reactivated by transmitting an assignment message. (S27) In addition, the base station controller indicates a service connection message (SCM) or a general handoff indication of a radio interface standard. A message (General Handoff Direciton Message (GHDM)) or Universal Handoff Direciton Message (UHDM) is sent to the mobile station to initiate service option connection establishment for the added packet data service with the mobile station. (S28)

After receiving the SCM, GHDM or UHDM, the mobile station performs a service negotiation procedure according to the air interface standard (S29) and then the base station as a service connection completion message indicating that service option connection is completed for the packet data service added. Notifies the controller. (S30)

After receiving the Service Connection Completion message, the base station controller transmits a 3G-IOS A9 / A8 Setup (A9-Setup-A8) message to the PCF after completing the service option connection setup to establish the packet bearer connection of the A8 interface. Request and drive the timer TA8-Setup (S31).

When the A8 connection is established between the base station controller and the PCF, the PCF sends a 3G-IOS A9 / A8 connection (A9-Connect-A8) message to the base station controller to notify that the packet bearer setup of the A8 interface is completed.

Upon receiving the A9 / A8 connection (A9-Connect-A8) message, the base station controller sends a 3G-IOS Assignment Complete message to the switching center to notify that it is ready to start packet data service (S33).

As described above, the mobile station additionally receives the packet data service simultaneously with the voice call service, and the PCF transfers the packet data to the called mobile station.

As described above, the present invention provides a method for reactivating packet data on an interface between a base station controller and a switching station when an incoming packet data from a network side is generated in a mobile station capable of simultaneous service setting in which a packet data service is in a voice call. By adding a procedure to set up a simultaneous service, it is possible to deliver packet data to the destination mobile station in a timely manner and provide subscribers with continuity of the service in use.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the present invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the examples, but should be defined by the claims.

Claims (6)

A mobile communication system in which each subscriber communicates with another subscriber or another service provider via a mobile station, a base station controller, and an exchange station, Establishing one or more calls for the first subscriber; Activating the dormant call using the delimiter for the first subscriber and the dormant call delimiter when there is data to be transmitted from the second subscriber through the dormant call among the set calls; And transmitting the data from the second subscriber to the first subscriber through the activated call. The method of claim 1, wherein the data to be transmitted from the second subscriber is packet data. The method of claim 1, wherein activating the dormant call A base station controller requesting a switching center for a service for the data to be transmitted; Requesting the base station controller for resource allocation in accordance with the request; And allocating a resource by the base station controller according to the resource allocation request, and requesting a mobile station to additionally set the dormant call. 4. The method of claim 3, wherein requesting the service from the switching center is And the base station controller transmits an additional service request message to the switching center. 4. The method of claim 3, wherein the additional service request message includes a separator for the first subscriber and a separator for the service. 4. The method of claim 3, wherein requesting further set up of the call comprises: Sending, by the base station controller, a call assignment request message to the mobile station; After the call allocation request message is transmitted, the base station controller sends one of a service access message (SCM), a general handoff indication message (UHDM), and a general handoff indication message (GHDM) to the mobile station to establish a connection with the mobile station. Concurrent service method in a mobile communication system, characterized in that further comprising the step of initiating.