KR101451419B1 - Method for redirecting network, base station and mobile terminal for performing the same - Google Patents

Abstract

A network transition method, a base station apparatus performing the method, and a mobile terminal are disclosed.
In this method, when a mobile terminal is connected to a first network capable of providing a CS (Circuti Switch) service, the base station apparatus of the first network transmits a CS fallback And receives a value of a flag indicating that the terminal is serviceable. Thereafter, when the voice call service for the mobile terminal is completed, the base station transmits transition information of the second network, which is overlaid on the first network and can provide only the packet service, to the mobile terminal. Therefore, the mobile terminal can transition to the second network using the transition information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a network transition method, a base station apparatus and a mobile terminal performing the method, a base station and a mobile terminal,

The present invention relates to a network transition method, a base station apparatus performing the method, and a mobile terminal.

Currently, the UTRAN (UMTS Radio Access Network) supports both Circuit Switch (CS) and Packet Switch (PS) methods. However, LTE (Long Term Evolution) supports voice calls based on IMS (IP Multimedia Subsystem), but most operators do not use IMS at present.

Accordingly, the LTE standard proposes a CS Switched Fallback service to support voice calls.

The CS fallback service is a method of providing a mobile terminal with a non-LTE (Mobile Terminals) call when a Mobile Originate (MO) call or MT (Mobile Terminate) call occurs while the mobile terminal is camping in the LTE network UTRAN and handles the voice call. In other words, LTE is a temporary method of providing voice service through UTRAN before mVoIP becomes full-scale.

When the mobile terminal camping on the LTE network transits to the UTRAN for voice call service and then the voice call service is completed, the mobile terminal transits to the LTE network. In this case, the mobile terminal checks the system information transmitted through the UTRAN Transition to LTE network takes much time.

Accordingly, there is a problem in that a user of a mobile terminal whose voice call service has been completed can not receive high-speed data service through the LTE network during a transition time to the LTE network.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a network transition method that enables a user to receive a high-speed data service immediately after transition to an LTE network after a voice call service is completed, a base station device performing the method, and a mobile terminal .

A network transition method according to one aspect of the present invention includes:

When a mobile terminal is connected to a first network capable of providing a CS (Circuti Switch) service, the base station of the first network may provide a CS fallback service from a subscriber server managing subscriber information Receiving a value of a flag indicating a possible terminal; Transmitting, when the voice call service for the mobile terminal is completed, the transition information of the second network, in which the base station device is overlaid on the first network and can provide only the packet service, to the mobile terminal; And transitioning the mobile terminal to the second network using the transition information.

Here, the step of receiving the value of the flag may include: performing a service area update to the subscriber server for the mobile terminal by the exchange of the first network; And the exchange receiving the value of the flag from the subscriber server and transmitting the value to the base station apparatus.

In addition, before the step of receiving the value of the flag, a mobile terminal connected to the second network may transition to the first network for a CS fallback service for a voice call service.

In addition, in the step of transmitting to the base station apparatus, the exchange transmits the value of the flag to the base station apparatus using an RRC-based direct transfer message.

In addition, the transition information is frequency information of the second network.

In addition, the transition information is included in a call connection release message transmitted from the base station apparatus to the mobile station, and is transmitted to the mobile station.

According to another aspect of the present invention,

A base station apparatus of a first network capable of providing a CS (Circuit Switch) service, comprising: a call processing unit for performing call processing for a mobile terminal; A value of a flag of a mobile node transmitted from an exchange of the first network, wherein the value of the flag is a value indicating that the mobile node is a CS fallback terminal; And a transition information generation unit for confirming the existence of a second network capable of providing only a packet service overlaid on the first network and generating transition information to the second network in which existence is confirmed, When the voice call service for the mobile terminal is completed, the transition information generated by the transition information generation unit according to the value of the flag of the mobile terminal, which is confirmed by the flag check unit, To the second network using the second network.

The call processing unit may further include a storage unit for storing a value of a flag identified by the flag checking unit so as to correspond to the mobile terminal, and the call processing unit checks the value of the flag of the mobile terminal stored in the storage unit, Is a CS fallback terminal.

In addition, the call processing unit transmits the transition information to the mobile terminal when the value of the flag indicates that the mobile station is the CS fallback terminal.

In addition, the call processing unit transmits the transition information to the mobile terminal only when a second network overlapped with the first network exists by the transition information generating unit.

According to another aspect of the present invention,

A first communication unit connected to a first network providing only a packet service to transmit and receive a wireless signal; A second communication unit connected to a second network that provides both a packet service and a CS (Circuit Switch) service to transmit and receive a wireless signal; A call processing unit connected to the first network through the first communication unit and connected to the second network through the second communication unit to provide a packet service or a voice call service to the mobile terminal; And a transition information confirmation unit for confirming transition information transmitted from the second network through the second communication unit. When the voice call service from the second network is completed through the second communication unit, the call processing unit transmits the transition information And transitions to the first network according to transition information confirmed through the confirmation unit.

Here, the transition information checking unit receives the transition information from the second network through a call release message.

According to the embodiment of the present invention, the mobile terminal transits to the LTE network immediately after completing the voice call service, and can receive the high-speed data service immediately.

FIG. 1 is a diagram schematically illustrating a mobile communication system to which a CS fallback service providing method according to an embodiment of the present invention is applied.
Figure 2 shows a generic CS fallback procedure.
FIG. 3 is a diagram schematically illustrating a mobile communication system to which a network transition method according to an embodiment of the present invention is applied.
4 is a flowchart of a network transition method according to an embodiment of the present invention.
5 is a diagram illustrating an internal configuration of the RNC shown in FIG.
6 is a flowchart of a network transition method in an RNC according to an embodiment of the present invention.
7 is a diagram illustrating a configuration of a mobile terminal according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, a network transition method according to an embodiment of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic view of a mobile communication system to which a network transition method according to an embodiment of the present invention is applied.

Referring to FIG. 1, when a user equipment (UE) 100 uses a data service, the user equipment 100 accesses an LTE (Long Term Evolution) network 200 and uses a CS service (for example, (UTRAN) Terrestrial Radio Access Network (CS) circuit switched network when using a Short Message Service (SMS), LoCation Services (LCS), and USSD (Unstructured Supplementary Service Data)

As described above, the mobile communication system is mixed with the LTE network 200 incapable of circuit-switched communication and the UTRAN network 300 such as WCDMA / GSM capable of coping with circuit-switched communication.

Here, the mobile terminal (UE) 100 is a terminal supporting the CS fallback (Circuit Switched Fallback) service.

The CS fallback service is a service in which when an MO (Mobile Originate) call occurs or a MT (Mobile Terminate) call occurs while the mobile terminal 100 in service is camping in the LTE cell in the LTE cell area And hand over the mobile terminal 100 to the UTRAN network 300 to process the CS service call.

The LTE network 200 supports only the packet switching (PS) method and includes an eNodeB 210, an MME (Mobility Management Entity) 230, a Serving Gateway (S-GW) (PDSN) 250, a P-GW (Packet Data Network Gateway) 270, and an Internet network 290.

Here, the eNodeB 210 is a base station apparatus of the LTE radio access network. The eNodeB 210 includes a paging request for CS fallback, a function of delivering an SMS message to the mobile terminal 100, a target cell Direct connection is supported.

The MME 230 supports Combined EPS / IMSI Attach, Combined TA / LA Update, Detach, SMS message processing from the mobile terminal 100 and SGS interface connection management to the MSC 350 as well as CS fallback.

The S-GW 250 acts as a mobile anchor when the mobile terminal 100 moves between handoffs between the eNodeBs 210 or between 3GPP wireless networks.

The P-GW 270 allocates an IP (Internet Protocol) address of the mobile terminal 100, performs packet data related functions of the core network, and acts as a mobile anchor when moving between the 3GPP wireless network and the non-3GPP wireless network do.

The UTRAN CS network 300 supports both circuit switching (CS) and packet switching. The UTRAN CS network 300 includes a Node B 310, an RNC (Radio Network Controller) 330, an MSC A mobile switching center) 350, a Short Message Service Center (SMSC) 370, and a Public Switched Telephone Network (PSTN) 390.

The NodeB 310 and the RNC 330 are radio access networks in the UTRAN CS network 300 and are located in an asynchronous transfer mode (ATM), between the mobile terminal 100 and a wireless communication core network Data and control information.

The MSC 350 supports Combined EPS / IMSI Attach, Combined TA / LA Update, Detach, SMS message processing from the MME 230 as well as CS Fallback Service and SGS interface connection management to the MME.

At this time, for the CS fallback service, a mobility management process such as Combined EPS / IMSI Attach process, Combined TA / LA Update process and Detach process is performed first. Hereinafter, this process is collectively referred to as a location registration process.

On the other hand, the CS fallback process according to the call incoming is shown in FIG.

Figure 2 shows a generic CS fallback procedure.

Referring to FIG. 2, when an outgoing call 1 is received from the O-MSC, the MSC (350 in FIG. 1) transmits a paging request (2) to the MME (230 in FIG. 1) using the SGsAP protocol.

Then, the MME (230 in FIG. 1) receives the paging response 4 from the mobile terminal (100 in FIG. 1) by sending a paging request 3 to the mobile terminal (100 in FIG. 1) connected to the LTE cell, And transmits the handover command 5 to the LTE cell.

Here, although not shown in FIG. 2, a process of providing information (SIB) of the UTRAN target cell to the mobile terminal 100 connected to the LTE cell is performed prior to the paging request (2).

The LTE cell performs a handover and a switch 6 process with the UTRAN cell, and when completed, the MSC (350 in FIG. 1) receives the paging response through the UTRAN cell and performs a call setup process. After that, the mobile terminal 100 uses the voice call service through the UTRAN cell.

The mobile terminal 100 receiving the voice call service in the UTRAN 300 must transit back to the LTE network 200. At this time, the mobile terminal 100 transmits the system information The mobile terminal 100 checks whether the LTE network 200 exists and transits to the LTE network 200 when the existence of the LTE network 200 is confirmed. Therefore, when the mobile terminal 100 completes the voice call service and then transits to the LTE network 200 It takes time. In some mobile communication systems, this time is about 10 to 15 seconds, so that a high-speed data service through the LTE network 200 is performed during a time when a user of the mobile terminal 100 having completed the voice call service transits to the LTE network 200 I can not receive it.

A network transition method according to an embodiment of the present invention for solving the problem will be described.

FIG. 3 is a schematic diagram of a mobile communication system to which a network transition method according to an embodiment of the present invention is applied, and FIG. 4 is a flowchart of a network transition method according to an embodiment of the present invention.

3 and 4, when the mobile terminal 100 connected to the LTE network 200 accesses the UTRAN 300 for a voice call service, the mobile terminal 100 transmits the UTRAN 300 ' And performs a service area update (Routing Area Update) to the HSS 400 through the RNC 340 as an apparatus (S100). Here, the HSS (Home Subscriber Server) stores the subscription information and authentication information of the subscriber, and the subscriber stores the address of the MSC 350 or the MME 230 whose subscriber is registered in the mobile communication network.

In the HSS 400, subscription information of a user of the mobile terminal 100 is stored, and a CS fallback flag of the mobile terminal 100 is set in the subscription information. Here, the CS fallback flag indicates whether the mobile terminal 100 is the CS fallback terminal or not, and if the mobile terminal 100 is set to a specific value, for example, '1', it means that the mobile terminal 100 is the CS fallback terminal. It is assumed that such information is set in advance.

Accordingly, the MSC 350 receives the value of the CS fallback flag set in the HSS 400 from the HSS 400 (S110), and transfers the value of the CS fallback flag back to the RNC 330 (S120) . Here, it is assumed that the CS fallback flag corresponding to the mobile terminal 100 is set to a specific value indicating that the mobile terminal 100 is the CS fallback terminal. Accordingly, the RNC 330 knows in advance whether the mobile terminal 100 is a CS fallback terminal, and that the mobile terminal 100 must then transition to the LTE network 200 after completing the voice call service. .

Here, receiving the value of the CS fallback flag of the MS 100 from the HSS 400 may be performed together with the MSC 350 during the service area update in step S100. The MSC 350 provides information of the MS 100 to the HSS 400 and receives the value of the CS fallback flag corresponding to the MS 100 to transmit the value to the RNC 330. At this time, when the MSC 150 delivers the value of the CS fallback flag to the RNC 330, the MSC 150 can deliver the RRC-based direct transfer message through the Direct Transfer message.

After this process, the mobile terminal 100 uses the voice call service corresponding to the reason for the transition through the CS fallback to the UTRAN 300 (S130).

Next, when the voice call service is completed, the RNC 330 transmits a call release message, i.e., an RRC Connection Release message, to the mobile terminal 100 to release the call connection with the mobile terminal 100 (S140). At this time, the RNC 330 recognizes that the mobile terminal 100 is a CS fallback terminal through the CS fallback flag of the mobile terminal 100, so that the mobile terminal 100 returns to the LTE network 200 after releasing the call connection, It includes transmission information (Redirection Information) including LTE frequency information used for transition to the LTE network 200 in the call release connection message, and transmits the information.

Next, the mobile terminal 100 transmits a call disconnect completion message, i.e., an RRC Connection Release Complete message, which is a response message to the call connection release message transmitted from the RNC 330, to the RNC 330, The connection with the UTRAN 300 can be released (S150).

Thereafter, the mobile terminal 100 accesses the LTE network 200 by transiting to the LTE network 200 using the LTE frequency included in the call connection release message transmitted from the RNC 330, ) Can receive the data service through the LTE network 200 (S160).

FIG. 5 is a diagram showing an internal configuration of the RNC 330 shown in FIG. 3. FIG. 5 schematically shows a configuration related to an embodiment of the present invention.

Referring to FIG. 5, the RNC 330 includes a call processing unit 331, a flag checking unit 333, and a storage unit 335.

The call processing unit 331 performs call processing for the mobile terminal 100 connected via the NodeB 310. [ In the embodiment of the present invention, call processing is performed for the mobile terminal 100 transiting from the LTE network 200 to the UTRAN 300 for the CS fallback service.

The flag checking unit 333 checks the value of the CS fallback flag of the mobile terminal 100 transmitted from the MSC 350 through the call processing unit 311. [

The storage unit 335 stores the value of the CS fallback flag of the mobile terminal 100 confirmed by the flag check unit 333. [

The transition information generating unit 337 checks presence or absence of the LTE network 200 overlaid on the UTRAN 300 and generates transition information including the LTE frequency when the LTE network 200 exists.

When the value of the CS fallback flag of the mobile terminal 100 stored in the storage unit 335 indicates that the CS fallback terminal is completed when the voice call service for the mobile terminal 100 is completed, the call processing unit 331 generates a transition information 337 to the mobile terminal 100. The mobile terminal 100 receives the transition information including the LTE frequency.

6 is a flowchart of a network transition method in the RNC 330 according to an embodiment of the present invention.

6, the call processing unit 331 of the RNC 330 receives a call connection request from the mobile terminal 100 through the NodeB 310 in step S200 and transmits the call connection request to the HSS 400 through the MSC 350 And updates the service area (S210).

The flag check unit 333 of the RNC 330 receives the value of the CS fallback flag for the MS 100 from the HSS 400 via the MSC 350 and stores the value in the storage unit 335 S220).

Then, the call processing unit 331 confirms whether the voice call service for the mobile terminal 100 is completed (S230).

If the voice call service for the mobile terminal 100 is completed, the call processing unit 331 extracts the value of the CS fallback flag of the mobile terminal 100 stored in the storage unit 335 (S240) The value of the fallback flag determines whether the mobile terminal 100 indicates a CS fallback terminal (S250).

If the value of the CS fallback flag indicates that the MS 100 is the CS fallback terminal, the call processing unit 331 requests the transition information to the transition information generating unit 337 and the transition information generating unit 337 generates the transition information (Step S260). In step S260, the LTE network 200 determines whether the LTE network 200 overlapped with the LTE network 200 exists.

If the LTE network 200 exists, the LTE network 200 checks the LTE frequency of the LTE network (S270), generates transition information including the LTE frequency, and transmits the generated information to the call processing unit 331. The call processing unit 331 transmits the LTE frequency To the mobile terminal 100 (S280). However, if the LTE network 200 does not exist or it is determined that the mobile terminal 100 is not a CS fallback terminal in step S250, the call processing unit 331 terminates the procedure as it is, Only the call connection with the terminal 100 is released.

7 is a diagram illustrating a configuration of a mobile terminal 100 according to an embodiment of the present invention.

Referring to FIG. 7, a mobile terminal 100 includes a first communication unit 110, a second communication unit 120, a call processing unit 130, and a transition information checking unit 140.

The first communication unit 110 connects to a first network that provides only packet services, that is, the LTE network 200, and transmits and receives radio signals. That is, the first communication unit 110 is connected to the eNodeB 210 and communicates.

The second communication unit 120 connects to a second network, that is, a UTRAN 300, which provides both a packet service and a CS service, and transmits and receives radio signals. That is, the second communication unit 120 is connected to the NodeB 310 and communicates.

The call processing unit 130 is means for processing the packet service call and the circuit service call of the mobile terminal 100. In the embodiment of the present invention, when the voice call service is requested while being connected to the LTE network 200 through the first communication unit 110, the call processing unit 130 transmits the second communication unit 200 for the CS fallback service To the UTRAN 300 and receives the voice call service through the UTRAN 300.

The transition information verifying unit 140 checks whether or not the transition information is included in the call connection release message transmitted from the RNC 330 and extracts the LTE frequency included in the transition information when the transition information is included.

When the voice call service is completed, the call processing unit 130 transitions to the LTE network 200 corresponding to the LTE frequency through the first communication unit 110 using the LTE frequency extracted from the transition information checking unit 140.

Here, if the transition information is not confirmed by the transition information checking unit 140, the call processing unit 130 determines the priority of the LTE network 200 through the system information provided by the RNC 330 And performs transition by searching for and accessing the LTE network 200 when the priority of the LTE network 200 is high.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

Claims (13)

Wherein the subscriber server managing the subscriber information includes a flag for storing a value indicating whether the subscriber's mobile terminal is a Circuit Switch (CS) fallback terminal,
Transiting to a first network capable of providing a CS service for a CS fallback service for a voice call service, the mobile terminal being connected to a second network capable of providing only a packet service;
Confirming that the mobile terminal is a CS fallback terminal by receiving a value of the flag from the subscriber server in the first network;
Transmitting, when the voice call service for the mobile terminal is completed, the transition information of the second network, in which the base station device is overlaid on the first network and can only provide a packet service, to the mobile terminal; And
Wherein the mobile terminal transitions to the second network using the transition information
Gt; The method according to claim 1,
Wherein the verifying step comprises:
The exchange of the first network performing service area update to the subscriber server for the mobile terminal; And
The exchange receiving the value of the flag from the subscriber server and transmitting the value to the base station apparatus
Gt; delete 3. The method of claim 2,
Wherein the exchange transmits the value of the flag to the base station apparatus using an RRC-based direct transfer message in the step of transmitting to the base station apparatus. The method according to claim 1,
Wherein the transition information is frequency information of the second network. The method according to claim 1,
Wherein the transition information is included in a call release message transmitted from the base station apparatus to the mobile station and is transmitted to the mobile station. 1. A base station apparatus of a first network capable of providing a CS (Circuit Switch) service,
A call processing unit for performing call processing for the mobile terminal;
The value of the flag of the mobile terminal transmitted from the exchange of the first network is stored in the subscriber server managing the subscriber information as a value indicating that the mobile terminal is a CS fallback terminal, A flag check unit for confirming that the value of the flag is transmitted to the mobile terminal while performing a service area update to the subscriber server;
And a transition information generation unit for confirming the existence of a second network capable of providing only a packet service overlaid on the first network and generating transition information to the second network,
Wherein the call processing unit is connected to the second network and when the voice call service for the mobile terminal transited to the first network for the CS fallback service for the voice call service is completed, When the mobile terminal is confirmed to be the CS fallback terminal by the value of the flag of the mobile terminal that is confirmed, the transition information generated by the transition information generator is transmitted to the mobile terminal, Transition to 2 networks - forwarded to
And the base station apparatus. 8. The method of claim 7,
And a storage unit for storing a value of a flag identified by the flag check unit so as to correspond to the mobile terminal,
The call processing unit checks the value of the flag of the mobile terminal stored in the storage unit and confirms that the mobile terminal is a CS fallback terminal
And the base station apparatus. delete 8. The method of claim 7,
Wherein the call processing unit transmits the transition information to the mobile terminal only when there is a second network overlaid on the first network by the transition information generating unit. 11. A method according to any one of claims 7, 8 or 10,
Wherein the transition information is frequency information of the second network. delete delete

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