KR101847198B1 - Apparatus and method for preventing receiving failure of paging signal on epc network - Google Patents

Abstract

In a CSFB voice service connected with WCDMA in an EPC network, when a CSFB service using a WCDMA network is performed in an EPC network in response to a voice call request from a terminal device, network connection / location registration is performed simultaneously in an EPC and a WCDMA network When the voice paging for the CSFB is received from the MSC at a time when the network connection / location registration procedure between the MME and the terminal in the EPC network is not completed, the MME buffers the voice paging signal in the MME, It is possible to prevent a paging loss in the EPC network by transmitting a voice paging signal to the terminal device at the completion of the connection / location registration procedure.

Description

[0001] APPARATUS AND METHOD FOR PREVENTING RECEPTION FAILURE OF PAGING SIGNAL ON EPC NETWORK [0002]

[0001] The present invention relates to a CSFB (Voice over Internet Protocol) communication service in an EPC (Evolved Packet Core) network and a CSFB (Wideband Code Division Multiple Access) When a CSFB service using a WCDMA network is performed in an EPC network according to a voice call request, in a procedure of simultaneously performing network connection / location registration in an EPC and a WCDMA network, a Mobility Management Entity (MME) When the voice paging for the CSFB is received from the MSC at the point of time when the location registration procedure is not completed, the MME buffers the voice paging signal in the MME, and at the time when the network connection / location registration procedure between the MME and the terminal device is completed, A paging loss prevention system, an apparatus, and a method for preventing paging loss in an EPC network by transmitting a voice paging signal to an apparatus ≪ / RTI >

A 3rd Generation Partnership Project (3GPP) mobile communication system based on WCDMA (Wideband Code Division Multiple Access) radio access technology is widely deployed all over the world. HSDPA (High Speed Downlink Packet Access), which can be defined as the first evolutionary phase of WCDMA, provides 3GPP mobile communication system with highly competitive wireless access technology in the mid-term future.

However, as the requirements and expectations of users and operators continue to increase and competition for developing wireless access technologies continues, there is a need to evolve new technologies in 3GPP mobile communication systems in order to gain competitiveness in the future. Reduced cost per bit, increased service availability, the use of flexible frequency bands, simple structure and open interfaces, and proper power consumption of terminals are becoming a requirement. In addition, prevention of unnecessary latency at the network node and efficient use of network resources can also promote the technology evolution in 3GPP.

In 3GPP Release 8, a Network Architecture called Evolved Packet Core (EPC) is described as one of mobile communication systems for meeting the above-mentioned requirements. EPC is a set of network nodes for 3GPP LTE (Long Term Evolution) system. The EPC evolves the core network of the existing 3GPP system architecture to support Evolved-UMTS Terrestrial Radio Access Network (E-UTRAN), which is an evolved RAN, And has an efficient network structure that simplifies the network node.

Meanwhile, as described above, EPC or LTE, which is a fourth generation mobile communication, must implement IMS-based VOIP technology in order to provide a voice service as a base of a mobile communication service as a data-only network.

However, due to issues such as lack of completeness of VOIP technology, initial LTE network investment scale, cannibalization of existing mobile voice call import model according to VOIP adoption, WCDMA A circuit switched fallback (CSFB) technique is used to transition to the network and receive service.

FIG. 1 illustrates a paging signal processing flow in a network connection procedure for a CSFB voice service in an EPC network. Referring to FIG. 1, a conventional paging signal processing flow will be described.

First, when the terminal 100 is powered on or a base station is changed from the user element 100 of the EPC network to the MME 102, , A network connection procedure according to TS 23.401 between the terminal device 100 and the MME 102 is performed and the terminal device 100 is connected to the MME 102 (S12).

When the connection procedure to the terminal device 100 is completed, the MME 102 obtains a VLR (visitor location register) number (S14), and transmits the visitor location register (VLR) number to the WCDMA network MSC / VLR 104 A location information update request is transmitted (S16).

Then, the MSC / VLR 104 establishes a connection with the MME 102 (S18), and updates the location information of the terminal device 100 in the CS domain in cooperation with the HSS 106 (S20).

In this way, when the update of the location information to the terminal device 100 is performed, the MSC / VLR 104 transmits the updated location information of the terminal device 100 to the MME 102 where the terminal device 100 is located (S22).

If the updated location information of the terminal device 100 is received by the MME 102 as described above, the network connection signal processing procedure for the terminal device is performed according to TS 23.401 (S24).

When the MSC / VLR 104 updates the location information of the terminal 100 between the MME 102 and the MSC / VLR 104 as described above, the terminal 100 transmits a voice call of the WCDMA network And if there is a voice call request from the WCDMA network generated after the time point at which the updated location information is transmitted to the terminal device 100, the MME (100) immediately belongs to the terminal device 100 102). ≪ / RTI >

FIG. 2 illustrates a paging signal processing flow during location registration for a CSFB voice service in an EPC network. Referring to FIG. 2, the conventional paging signal processing flow will be described.

First, when a location registration request is transmitted to the MME 102 due to a change of a base station due to movement of the terminal apparatus 100 in the user element (UE) 100 of the EPC network (S80) A Tracking Area Update (TAU) procedure according to TS 23.401 between the MME 102 and the MME 102 is performed and not the first MME 110 to which the terminal 100 belongs previously belongs, And is connected to the second MME 112 (S82).

In this manner, when the connection procedure to the terminal 100 is completed, the second MME 112 transmits a location information update request of the terminal 100 to the MSC / VLR 104 on the WCDMA network (S84).

Then, the MSC / VLR 104 updates the location information of the terminal device 100 in the CS domain in cooperation with the HSS 106 (S86).

In this manner, when updating the location information of the terminal device 100 is performed, the MSC / VLR 104 transmits the updated location information of the terminal device 100 to the second MME 112 where the terminal device 100 is located (S88).

When the updated location information of the terminal device 100 is received by the MME 102 as described above, a location registration signal processing procedure is performed between the second MME 112 and the terminal device 100 (S90 and S92) .

When the MSC / VLR 104 updates the location information of the terminal 100 between the second MME 112 and the MSC / VLR 104 as described above, the terminal 100 transmits the voice of the WCDMA network When there is a voice call request from the WCDMA network generated after the time point at which the updated location information is transmitted to the corresponding terminal device 100, it is determined that the terminal device 100 belongs And transmits paging to the MME 102.

(Patent Literature)

Korean Patent Publication No. 10-2011-0056230 discloses a method and apparatus for interworking between heterogeneous network systems.

However, in the network connection or location registration process of FIGS. 1 and 2, after the updated location information is transmitted to the MMEs 102 and 112 by the MSC / VLR 104, the MMEs 102 and 112 and the terminal devices The MSC / VLR 104 receives a voice using the CSFB from the MSC / VLR 104 prior to the predetermined time (T1, T2) since the signal processing procedure for the network connection / When the paging for the call connection is received, the MME 102 fails to deliver the paging message to the terminal device 100 and discards the paging message, thereby failing to connect the voice call.

Accordingly, in the CSFB voice service associated with WCDMA in the EPC network, when the CSFB service using the WCDMA network is performed in the EPC network according to the voice call request from the terminal device, the network connection / location registration is simultaneously performed in the EPC and the WCDMA network When the voice paging for the CSFB is received from the MSC at a point of time when the network connection / location registration procedure between the MME and the terminal device of the EPC network is not completed, the MME buffers the voice paging signal in the MME, An apparatus and method for preventing paging loss in an EPC network in which a voice paging signal is transmitted to a terminal device at the completion of an inter-network connection / location registration procedure, thereby preventing paging loss in an EPC network.

An apparatus for preventing paging loss in an EPC network, the apparatus comprising: a network connection unit for receiving a network connection / location registration request from a terminal device of an EPC network and receiving a paging signal for a CSFB from an MSC; And transmits the location registration request to the MSC according to the network connection / location registration request of the terminal device to perform a network connection / location registration procedure, and when the network connection / location registration procedure is not completed And a controller for buffering the paging signal and transmitting the buffered paging signal to the terminal apparatus upon receipt of the paging signal upon receipt of a voice call to the terminal apparatus.

When the paging signal is received from the MSC at the time when the network connection / location registration procedure is not completed, the control unit buffers the paging signal until the network connection / location registration procedure with the terminal apparatus is completed .

The controller may buffer the paging signal for a predetermined period of time when a paging signal is received from the MSC when the network connection / location registration procedure is not completed.

The predetermined time may be in the range of 0.1 to 10 seconds.

The controller may transmit the location registration request of the terminal to the MSC when the base station is changed upon power-on of the terminal or movement of the terminal.

In addition, the control unit performs the network connection / location registration procedure when receiving the location registration completion from the MSC.

According to another aspect of the present invention, there is provided a method for preventing paging loss in an EPC network, the method comprising: performing a network connection / location registration procedure for an MSC of a WCDMA network and a terminal apparatus in an MME of an EPC network; Receiving a paging signal from the MSC in response to an incoming call; buffering the paging signal and transmitting the paging signal to the terminal device when the network connection / location registration procedure of the terminal device is not completed upon receipt of the paging signal; .

In addition, the step of transmitting to the terminal device may include: checking whether the paging signal is received at a point in time when the network connection / location registration procedure of the terminal device is not completed; and if the paging signal is received, The method further comprises the steps of: buffering the network connection / location registration procedure of the terminal device until completion of the network connection / location registration procedure; and transmitting the buffered paging signal to the terminal device upon completion of the network connection / location registration procedure of the terminal device .

In addition, the step of transmitting to the terminal device may include: checking whether the paging signal is received at a point in time when the network connection / location registration procedure of the terminal device is not completed; and if the paging signal is received, Buffering the paging signal for a predetermined period of time; and transmitting the buffered paging signal to the terminal device after the lapse of the predetermined time.

The predetermined time may be in the range of 0.1 to 10 seconds.

The step of performing the network connection / location registration procedure may include: requesting location registration of the terminal apparatus from the MME to the MSC; receiving, from the MSC, And performing the network connection / location registration procedure by transmitting the updated location information according to the completion of the location registration request from the MME to the terminal device.

Also, the location registration request of the terminal device is performed when the power of the terminal device is turned on or when the base station is changed according to the movement of the terminal device.

In a CSFB voice service connected to WCDMA in an EPC network, when a CSFB service using a WCDMA network is performed in an EPC network in response to a voice call request from a terminal device, network connection / location registration is simultaneously performed in an EPC and a WCDMA network When the voice paging for the CSFB is received from the MSC at a time when the network connection / location registration procedure between the MME and the terminal in the EPC network is not completed, the MME buffers the voice paging signal in the MME, The voice paging signal is transmitted to the terminal device at the time of completing the connection / location registration procedure, thereby preventing paging loss in the EPC network.

1 is a conceptual diagram of paging signal processing in a network access procedure for a CSFB voice service in an EPC network,
2 is a conceptual diagram of paging signal processing in a location registration procedure for a CSFB voice service in an EPC network,
FIG. 3 is a network configuration diagram of a heterogeneous mobile communication hybrid system using a WCDMA network and an EPC network, to which an embodiment of the present invention is applied,
4 is a detailed block diagram of an MME according to an embodiment of the present invention.
5 is a flowchart of signal processing for preventing paging loss in an EPC network according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions in the embodiments of the present invention, which may vary depending on the intention of the user, the intention or the custom of the operator. Therefore, the definition should be based on the contents throughout this specification.

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

FIG. 3 is a network configuration diagram of a heterogeneous mobile communication hybrid system using a WCDMA network and an EPC network, to which an embodiment of the present invention is applied.

In FIG. 3, reference numerals 210 to 280 denote WCDMA networks, and reference numerals 310 to 380 denote EPC networks.

The WCDMA network includes a NodeB 210, an RNC (Radio Network Controller) 220, an SGSN 230, an HLR 240, a GGSN 250, a Charging Gateway 260, an MSC / VLR (Mobile Switching Center / A Visitor Location Register) 270, an SMSC (Short Message Service Center) 280, and the like.

Here, the Node B 210 and the RNC 220 correspond to a radio access network area, and the SGSN 230 and the GGSN 250 correspond to a packet-switched core network.

The HLR 240 is a line-based subscriber information database that stores a service profile related to information of a mobile communication subscriber. The HLR 240 is a subscriber information database that stores a MIN, a Mobile Identification Number (ESN) Number) and service type to store subscriber information.

The MSC / VLR 270 stores visitor location information, performs switching control for voice communication, and provides a connection function between various other devices and an external network.

Also, the MSC / VLR 270 transmits a paging signal for voice service using the CSFB to a terminal device belonging to the EPC network through interworking between the WCDAM network and the EPC network.

The SMSC 280 provides a short message service, which is less relevant to data call handling in accordance with the practice of the present invention, but is illustrated for reference purposes.

In the wireless access network area, a function of providing a high-speed packet data service by efficiently using limited radio resources and satisfying various QoS (Quality of Service) requirements in a multimedia system is performed.

The SGSN 230 and the GGSN 250 belonging to the packet-switched core network region exchange IP-based protocols for matching with a PDN (Packet Data Network) 410 such as the Internet to receive the packet- .

For this, the SGSN 230 is connected to various RNCs 220 to manage the mobility of the subscriber terminal device 110 and packet session management. The SGSN 230 establishes a PDP context with the GGSN 250, And transfers the protocol data unit using the protocol data unit. Also, the SGSN 230 can perform IP routing and can perform an interaction such as location registration of the terminal device 110. [

When a data call is requested from the terminal device 110, the SGSN 230 requests the subscriber profile from the HLR 240, receives the subscriber profile including the charge information from the HLR 240, A WCDMA network, or an EPC network. The terminal device 110 transmits a data call message to the GGSN 250 when the terminal device 110 is a WCDMA network subscriber. In the case of an EPC network subscriber, charge plan information is stored in the form of a provision value and a preset value by the HLR 240, and a data call message is transmitted to the PDN GW 350 of the EPC network.

The GGSN 250 is a gateway that directly connects to the PDN 410, maintains routing information with the SGSN 230 and the external network, and performs tunneling and IP routing functions. Meanwhile, the GGSN 250 establishes an accounting data delivery message or an accounting request message including the radio resource use time information and the usage amount information of the terminal device 110 and transmits the accounting request message to the CG 260. Also, the GGSN 250 allocates an IP to the terminal device 110 according to the data call message transmitted from the SGSN 230.

The EPC network includes an eNodeB 310, an S-GW 320, an MME 330, an HSS 340, a PDN GW 350, a policy and charging rule function (PCRF) 360, an OFCS (OFline Charging System) , An Online Charging Server (OCS) 380, and the like.

The eNodeB 310 is a device for supporting next generation technologies and services such as LTE, and includes radio frequency (RF) transmission of transmission signals, signal strength and quality measurement, baseband signal processing, and channel card resource management .

The S-GW 320 is a session control and user plane node that processes payload traffic according to a set session. The S-GW 320 interworks with the eNodeB 310 through the S1-U interface, Over, and sets PDN GW 350 and an evolved packet system bearer (EPS bearer), and delivers PDU (Packet Data Unit) using tunneling.

The PDN-GW 350 allocates the IP of the terminal device 110 and performs session control and interworking with the external Internet network and the non-3GPP network as the user plane, and transmits the S-GW 320 and the external network and routing information And has tunneling and IP routing functions. It also delivers the PDU to the S-GW 320 and the external network.

The MME 330 is a node for managing subscriber information and mobility of the terminal device 110, and is responsible for session management, idle subscriber management, paging, and subscriber authentication functions. That is, the MME 330 processes a control signal when there is a binding request from the terminal device 110 or another network node, for example, the PDN GW 350 or the S-GW 320, or a radio bearer setup request And performs functions such as configuration of an EPS bearer or an IP tunnel and mobility management.

On the other hand, in CSFB voice service connected with WCDMA in the EPC network, a CSFB service using a WCDMA network is performed in an EPC network in response to a voice call request from a terminal device, and a procedure for performing network connection / location registration simultaneously in an EPC and a WCDMA network When the voice paging for the CSFB is received from the MSC / VLR 270 at a time when the network connection / location registration procedure between the MME 330 of the EPC network and the terminal device 110 is not completed, As described above.

Accordingly, the MME 330 receives voice paging for the CSFB from the MSC / VLR 270 at a time when the network connection / location registration procedure between the MME 330 of the EPC network and the terminal device 110 is not completed A voice paging signal is transmitted to the terminal device 110 at the time when the network connection / location registration procedure between the MME 330 and the terminal device 110 is completed after the voice paging signal is buffered, .

The HSS 340 is a network node including a data base including subscriber information on the wireless communication system. The HSS 340 stores profile information, authentication and location related data of a service subscriber, The MME 330 transmits the subscriber profile including the payment plan information to the MME 330 at the request of the subscriber 330.

The PCRF 360 provides a dynamic QoS and a charging rule according to a service data flow to perform a communication policy and a charging process in the communication network.

The OCS 380 receives a billing information of a subscriber requiring real-time billing information and provides a credit management function such as a limit service. Then, the EPC GW (Evolved Packet Core GateWay) generates billing information of a packet flow based on the billing information provided by the OCS 380.

The OFCS 370 collects the billing information generated by the EPC GW and processes the billing data requested by the BS (billing system) and transmits the billing data. In addition, OFCS 370 accepts various billing protocols such as Radius, Diameter, GTPP, and provides unified BS interface.

4 illustrates a detailed block configuration of the MME 330 according to an embodiment of the present invention. The MME 330 includes a network connection unit 450, a paging transmission unit 452, a memory unit 456, a control unit 454 ) And the like.

Hereinafter, operation of each component of the MME 330 of the present invention will be described in detail with reference to FIG.

The network connection unit 450 interfaces the transmission / reception data between the eNodeB 310, the S-GW 320, the HSS 340, the MSC / VLR 270, and the like in the EPC network.

The paging transmitting unit 452 transmits a voice paging signal for the CSFB or a packet paging signal for data communication to the terminal device through the eNodeB 310 under the control of the controller 454. [

The memory unit 456 stores a program for the operation of the MME 330. [

The control unit 454 controls the overall operation of the MME 330 according to a program stored in the memory unit 456. According to the embodiment of the present invention, voice paging for the CSFB from the MSC / VLR 270 is received when the network connection / location registration procedure between the MME 330 of the EPC network and the terminal device 110 is not completed A voice paging signal is transmitted to the terminal device 110 at the time when the network connection / location registration procedure between the MME 330 and the terminal device 110 is completed after buffering the voice paging signal in the EPC network, .

FIG. 5 illustrates a paging signal processing flow for a CSFB voice service in an EPC network according to an embodiment of the present invention. Referring to FIGS. 3, 4, and 5, a conventional paging signal processing flow will be described.

When the UE 110 of the EPC network transmits a network connection request to the MME 330 due to the power-on of the terminal device 110 or the change of the base station due to the movement (S50) The network connection procedure according to TS 23.401 between the device 110 and the MME 330 is performed to connect the terminal device 110 to the MME 330 (S52).

When the access procedure to the terminal device 110 is completed, the MME 330 fetches the VLR number (S54), and transmits a location information update request of the terminal device 110 to the WCDMA network MSC / VLR 270 (S56).

Then, the MSC / VLR 270 establishes a connection with the MME 330 (S58), and updates the location information of the terminal device 110 on the CS domain in cooperation with the HSS 340 (S60).

The MSC / VLR 270 transmits the updated location information of the terminal device 110 to the MME 330 where the terminal device 110 is located when the location information of the terminal device 110 is updated (S62).

When the updated location information of the terminal device 110 is received by the MME 330 as described above, the network connection / location registration signal processing procedure for the terminal device 110 is performed according to TS 23.401 (S64).

When the location information update for the terminal device 110 is completed between the MME 330 and the MSC / VLR 270 as described above, the MSC / VLR 270 notifies the terminal device 110 of the voice call of the WCDMA network If there is a voice call request from the WCDMA network to the corresponding terminal device 110 after the time point at which the updated location information is transmitted, the MME (110) immediately belongs to the terminal device 110 270 (step S66).

At this time, in the related art, the paging is not transmitted to the terminal device 110 because the paging is transmitted to the terminal device 110 in which the MME 330 has not completed the network connection / location registration procedure, Same as.

Accordingly, in the MME 330 of the present invention, when paging according to the CSFB request is received from the MSC / VLR 270 before the network connection / location registration procedure of the terminal device 110 is completed, After the MME 330 buffers the paging from the MSC / VLR 270 until the network connection / location registration is completed and the terminal device 110 becomes ready to receive paging, the network connection / And provides the paging to the terminal device 110 that has completed the CSFB voice call.

That is, when the network connection / location registration procedure of the terminal device 110 is completed upon receiving the paging signal from the MSC / VLR 270 (S70), the MME 330 buffers the paging signal for a predetermined time (S68) , It is checked whether the network connection / location registration procedure of the terminal device 110 is completed (S70), and if it is completed, the buffered paging signal is transmitted to the terminal device 110 (S72).

As described above, according to the present invention, in a CSFB voice service associated with WCDMA in an EPC network, when a CSFB service using a WCDMA network is performed in an EPC network according to a voice call request from a terminal device, When the voice paging for the CSFB is received from the MSC at the time when the network connection / location registration procedure between the MME and the terminal device of the EPC network is not completed, the MME buffers the corresponding voice paging signal, It is possible to prevent a paging loss in the EPC network by transmitting a voice paging signal to the terminal device at the completion of the network connection / location registration procedure between the terminals.

While the invention has been shown and described with reference to certain embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Accordingly, the scope of the invention should not be limited by the described embodiments but should be defined by the appended claims.

In the CSFB voice service associated with WCDMA in the EPC network, paging from the MSC in the MME is performed until the state of the network access / location registration between the MME and the terminal device is completed and the terminal device is ready to receive paging. Buffering, and then providing the corresponding paging to the terminal device that has completed the network connection / location registration procedure, thereby improving the CSFB voice call reception quality. The present invention can be applied to the EPC network.

210: NodeB 220: RNC 230: SGSN
240: HLR 250: GGSN 260: CG
270: MSC / VLR 280: SMSC 310: eNodeB
320: S-GW 330: MME 340: HSS
350: PDN-GW 360: PCRF 370: OFCS
380: OCS

Claims (10)

A network connection unit for receiving a network connection or location registration request from a terminal of the EPC network and receiving a paging signal for the CSFB from the MSC,
A paging transmitter for transmitting the paging signal to the terminal,
Wherein the MS performs a network connection or location registration procedure by transmitting a location registration request to the MSC in response to a network connection or a location registration request of the terminal apparatus and upon receipt of the paging signal before completion of the network connection or location registration procedure, And a controller for storing the paging signal and transmitting the stored paging signal to the terminal apparatus after the completion of the network connection or the location registration procedure with the terminal apparatus is confirmed
An apparatus for preventing paging loss in an EPC network.
delete The method according to claim 1,
Wherein,
The MSC performs a network connection procedure for the terminal apparatus by receiving a network connection request from the terminal apparatus, and when the network connection procedure is completed, requests the MSC to register the location of the terminal apparatus, And transmits the updated location information to the terminal device to perform the network connection or the location registration procedure in the EPC network. Performing an MSC of a WCDMA network and a network connection or location registration procedure for a terminal apparatus in an MME of an EPC network,
Receiving a paging signal from the MSC upon receipt of a voice call from the MME to the terminal device;
Checking whether the paging signal has been received before completing a network connection or location registration procedure of the terminal apparatus;
Storing the paging signal if the paging signal has been received before completing a network connection or location registration procedure of the terminal device;
And transmitting the stored paging signal to the terminal apparatus after the completion of the network connection or location registration procedure with the terminal apparatus is confirmed
A method for preventing loss of paging in an EPC network. delete delete 5. The method of claim 4,
Wherein the performing the network connection or location registration procedure comprises:
Performing a network connection procedure for the terminal device when the MME receives a network connection request from the terminal device;
Requesting location registration of the terminal apparatus from the MME to the MSC when the network connection procedure is completed;
Receiving updated location information of the terminal device upon completion of the location registration request from the MSC;
Transmitting the updated location information according to the completion of the location registration request from the MME to the terminal device and performing the network connection or location registration procedure
The method of claim 1, delete delete delete

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