KR20130022964A - Paging system, apparatus for csfb voice service on epc network and method thereof - Google Patents

Abstract

PURPOSE: A paging system for a CSFB(Circuit Switched Fall Back) voice service in an EPC(Evolved Packet Core) network, a device thereof, and a method thereof are provided to increase a success rate of paging from a terminal in a WCDMA(Wideband Code Division Multiple Access) network to a terminal device in the EPC network by including MME(Mobility Management Entity) information in an ISD(Insert Subscriber Data) message between HLR-MSC(Home Location Register-Mobile Switching Center). CONSTITUTION: A communication unit(504) transmits a paging signal to a receiving-requested terminal device when receiving a request for receiving a voice signal between EPC-WCDMA networks. A control unit(502) receives MME information about an EPC network in which there is the terminal device from a HLR when receiving the request for receiving the voice signal. The control unit transmits paging to the MME through the communication unit. The MME information is included in an ISD message transmitted from the HLR. If there is not the terminal device in the EPC network, the control unit transmits the paging to an RNC of a WCDMA network. [Reference numerals] (500) Switch unit; (502) Control unit; (504) Communication unit; (508) Memory unit

Description

PAGING SYSTEM, APPARATUS FOR CSFB VOICE SERVICE ON EPC NETWORK AND METHOD THEREOF}

The present invention relates to a circuit switched fall back (CSFB) voice service in connection with Wideband Code Division Multiple Access (WCDMA) in an Evolved Packet Core (EPC) network, and particularly to a CSFB voice service in connection with WCDMA in an EPC network. Includes mobility management entity (MME) information in which the terminal device exists in an insert subscriber data (ISD) message between a location register (MSC) and a mobile switching center (MSC) to improve paging success rate from a WCDMA network to a terminal device located in an EPC network. Paging for CSFB voice services in an EPC network, which increases the paging success rate for CSFB voice services by quickly switching paging attempts to the WCDMA network when paging fails between WCDMA and EPC networks due to the movement of terminal equipment. A system, apparatus, and method are disclosed.

3rd Generation Partnership Project (3GPP) mobile communication systems based on Wideband Code Division Multiple Access (WCDMA) radio access technology are widely deployed around 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 interface, and adequate power consumption of the terminal are demanding requirements. In addition, the prevention of unnecessary latency in the network node and the 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, and cannibalization of existing mobile telephony voice call import model resulting from the introduction of VOIP, WCDMA for voice transmission or reception of LTE terminal devices proposed by 3GPP Circuit switched fallback (CSFB) technology is used to transition to the network and receive service.

1 illustrates a concept of paging signal processing between a WCDMA network and an EPC network for connecting a voice call among CSFB voice services in an EPC network.

Referring to FIG. 1, when a voice call is received from the terminal device 100 camped on the EPC network, the HLR determines where the MSC of the WCDMA network in the region where the terminal device 100 is located is located. The MSC provides a routing (routing) the incoming call to the terminal device (100). The MSC, which receives the voice call, searches for a VLR (visitor location register), confirms that the terminal device 100 is in the EPC network, and requests an incoming call, that is, a paging request, to the EPC network. As such, when receiving an incoming request from the MSC of the WCDMA network, the MME requests a corresponding terminal device located in its cell area to redirection to the WCDMA network.

Accordingly, the terminal device 100 in the EPC network moves to the WCDMA network and responds to paging from the MSC, thereby enabling voice receiving service in the WCDMA network. For this voice call service, SGs interface between MME between MSC of WCDMA network and core equipment of EPC network is configured, and service is provided through SGsAP protocol communication between heterogeneous networks.

2 illustrates a concept of paging signal processing between a WCDMA network and an EPC network for connecting an SMS call among CSFB voice services in an EPC network.

Referring to FIG. 2, when an SMS call is received from a subscriber camped on the EPC network, the SMSC determines where the MSC of the WCDMA network in the region where the terminal device 100 is located is determined, and sends the terminal device 100 to the terminal device 100 using the MSC. Incoming SMS call is routed and provided. Then, the MSC receiving the SMS call searches for the VLR, confirms that the subscriber is in the EPC network, and requests an incoming call, that is, a paging request, to the EPC network. As such, when receiving an incoming request from the MSC of the WCDMA network, the MME provides an SMS call to the corresponding terminal device 100 located in its cell area.

Republic of Korea Patent Publication No. 10-0948689 Date of registration March 24, 2010 discloses a technology for the connection control in a dedicated wireless connection state of the mobile communication system. Korean Patent Laid-Open Publication No. 10-2009-0079224 discloses a technique for optimizing handoff of a user device between a packet switched network and a circuit switched network on July 21, 2009.

However, in the CSFB (circuit switched fallback) method, in which EPC network transitions to WCDMA network and receives a service when voice is transmitted or received by LTE terminal device, various causes are caused in the process of paging for voice service in WCDMA-EPC interworking network. Therefore, when a problem such as inconsistency of information of a subscriber of a terminal device occurs, there is a problem in that paging for voice service fails.

That is, for example, if there is no subscriber information on the called terminal device due to deletion of the VLR or location registration failure in the MSC of the WCDMA network, the MSC cannot transmit an incoming call to the terminal device located in the EPC network. As a result, paging for voice services may fail.

In addition, when paging is attempted from the MSC to a terminal device in the EPC network according to an incoming voice call from the outside, the terminal device existing in the EPC network is moved to an adjacent WCDMA network, and the terminal device does not exist in the EPC network. Even though the incoming call cannot be transmitted to the terminal device, paging for the voice service may fail.

Therefore, in the CSFB voice service linked to WCDMA in the EPC network, the PDR success rate from the WCDMA network to the terminal located in the EPC network can be increased by including the MME information in which the terminal exists in the ISD message between the HLR-MSC. In addition, paging system and device for CSFB voice service in EPC network that can increase paging success rate for CSFB voice service by rapidly switching paging attempts to WCDMA network when paging failure between WCDMA network and EPC network due to the movement of terminal equipment. And to provide a method.

As described above, the present invention provides a paging system for voice service in an EPC network, comprising: an HLR for providing information on a terminal device existing in an EPC network; and the terminal device from the HLR when receiving a voice call incoming request for the terminal device. The MSC receives MME information of a located EPC network and transmits paging to the MME.

In addition, as a paging device for voice service in the EPC network, a communication unit for transmitting a paging signal to the terminal device that is called when the incoming call request between the EPC-WCDMA network, and the terminal device from the HLR when receiving the voice call call request And a controller for receiving MME information of a located EPC network and transmitting paging to the MME through the communication unit.

The MME information may be included in an ISD message transmitted from the HLR.

The controller may be further configured to transmit paging to the RNC of the WCDMA network when it is determined that the terminal apparatus does not exist in the EPC network.

The controller may be further configured to determine that the terminal apparatus does not exist in the EPC network by receiving a paging reject in response to the paging from the MME.

The present invention also provides a paging method for a voice service in an EPC network, when receiving a voice call to a terminal device existing in the EPC network, receiving MME information in the EPC network where the terminal device is located from an HLR, and the terminal device. And transmitting paging to an MME of the EPC network in which E is located, and receiving a response to the paging from the terminal device to connect a voice call.

The present invention also provides a paging method for a voice service in an EPC network, when receiving a voice call to a terminal device existing in the EPC network, receiving MME information in the EPC network where the terminal device is located from an HLR, and the terminal device. Transmitting paging to the MME of the EPC network in which is located; and transmitting paging to the RNC of the WCDMA network when a paging rejection is received from the MME.

In the CSFB voice service linked to WCDMA in the EPC network, the present invention includes the MME information in which the terminal device exists in the ISD message between the HLR and MSCs to increase the paging success rate from the WCDMA network to the terminal device located in the EPC network. When paging fails between WCDMA and EPC networks due to the movement of a terminal device, paging attempts are rapidly switched to WCDMA network, thereby increasing the paging success rate for CSFB voice services.

In addition, through the CSFB voice service linked with WCDMA in the above EPC network, it is possible to increase the competitiveness and to contribute to customer satisfaction by providing voice service equivalent to that of the 3rd generation WCDMA network in the 4th generation EPC network. .

In addition, even in the case of telecom operators, the introduction of the EPC network provides the utilization of the WCDMA network infrastructure, which can be expected to increase sales by reducing CAPEX and improving the success rate of voice services.

1 is a conceptual diagram illustrating a paging signal processing between a WCDMA network and an EPC network for connecting a voice call among CSFB voice services in an EPC network;
2 is a conceptual diagram illustrating paging signal processing between a WCDMA network and an EPC network for connecting an SMS call in a CSFB voice service in an EPC network;
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 format diagram of MME information in an ISD message according to an embodiment of the present invention;
5 is a detailed block diagram of an MSC according to an embodiment of the present invention;
6 is a flowchart illustrating a paging signal processing flow for a CSFB voice service when there is no subscriber information in an MSC in a WCDMA network according to an embodiment of the present invention;
7 is a flowchart illustrating a paging signal processing flow for a CSFB voice service in a case where a terminal device does not exist 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 become apparent with reference to the embodiments described in detail below with reference to 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.

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.

3 is a diagram illustrating a network configuration of a heterogeneous mobile communication mixed 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 NodeB 210, RNC (Radio Network Controller) 220, SGSN 230, HLR 240, GGSN 250, CG (Charging Gateway) 260, MSC / VLR (Mobile Switching Center / Visitor Location Register (270), Short Message Service Center (SMS) 280, and the like.

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

The HLR 240 is a line-based subscriber information database that stores a service profile of mobile subscriber information, and includes a terminal identification number (MIN) and a terminal unique number (ESN) of the terminal device 110. Number) and service type information to store subscriber information.

In addition, in case there is no subscriber information for the terminal equipment of the EPC network that needs to perform paging for voice service in the MSC of the WCDMA network, the HLR 240 is voiced to the MSC 270 according to an embodiment of the present invention. Provides information on the MME 330 of the EPC network in which the user element (UE) 110 to which the call is received exists.

That is, the HLR 240 transmits an Insert_Subscriber_Data (ISD) message transmitted in response to a restore_data message received from the MSC 270 according to a call processing procedure with the MSC 270 as shown in FIG. 4. Through MME-NAME received through combined EPS and IMSI Attach as an extension (extension) can be transmitted. At this time, the MME-NAME as shown in FIG. 4 follows the Fully Qualified Domain Name (FQDN) format.

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

In addition, according to an embodiment of the present invention, the MSC 270 receives an ISD message received from the HLR 240 when a paging signal for voice service using CSFB is transmitted to a terminal device belonging to the EPC network through interworking between the WCDAM network and the EPC network. The paging signal is accurately transmitted to the MME 330 of the EPC network in which the terminal device for transmitting the paging signal is analyzed by analyzing the MME-NAME information included in the MME-NAME information.

On the other hand, the terminal device 110 that was located in the EPC network may occur when the paging is not received by the terminal device 110 by moving to the WCDMA network, etc. while the MSC 270 transmits the paging to the MME 330. have. In this case, unlike the conventional paging method of repeatedly performing the paging unconditionally three or more times, when the terminal device 110 does not exist in the MME 330, paging rejection in response to the paging signal from the MSC 270 ( paging reject) signal, and if the MSC 270 receives a paging rejection, it recognizes that the terminal 110 does not exist in the MME 330 and immediately paging the RNC 220 of the WCDMA network. To transmit. Accordingly, unnecessary paging transmission from the MSC 270 to the MME 330 can be reduced to lower the paging failure rate.

The SMSC 280 provides a short message service, which is not related to data call processing according to an embodiment of the present invention, but is shown for reference.

In the radio access network area, a function of efficiently using limited radio resources is provided to provide a high speed packet data service and satisfy various quality of service (QoS) requirements in a multimedia system.

The SGSN 230 and the GGSN 250 belonging to the packet switched core network area may interwork with an IP-based protocol to match the packet data network (PDN) 410 such as the Internet so that the terminal device 110 may receive a packet switched service. To provide.

To this end, the SGSN 230 is connected to several RNCs 220 to manage the mobility and packet session management of the subscriber station 110, establish a PDP context with the GGSN 250, and perform tunneling. To carry out the protocol data unit. In addition, the SGSN 230 may perform IP routing and interact with location registration of the terminal device 110.

In addition, when a data call is requested from the terminal device 110, the SGSN 230 requests a subscriber profile from the HLR 240, receives a subscriber profile including plan information from the HLR 240, and the terminal device 110 receives the subscriber profile. It is determined based on the subscriber profile whether the subscriber is the subscriber of the WCDMA network or the EPC network, and the terminal device 110 transmits a data call message to the GGSN 250 when the terminal device 110 is a subscriber of the WCDMA network. In the case of subscribers of the EPC network, the plan information is stored in the form of provision values and preset values provided by the HLR 240, and transmits a data call message to the PDN GW 350 of the EPC network.

The GGSN 250 is a gateway that directly connects with the PDN 410 to maintain routing information between the SGSN 230 and the external network, and performs tunneling and IP routing functions. Meanwhile, the GGSN 250 sets a billing data transfer message or an accounting request including the radio resource usage time information and the usage information of the terminal device 110 and transmits the accounting request to the CG 260. In addition, the GGSN 250 allocates an IP to the terminal device 110 according to the data call message transmitted from the SGSN 230.

EPC network is eNodeB (310), S-GW (320), MME (330), HSS (340), PDN GW (350), PCRF (Policy & Charging Rule Function) (360), OFCS (OFline Charging System) (370) ), An online charging server (OCS) 380, and the like.

The eNodeB 310 is a device supporting next-generation technologies and services such as LTE, and performs functions such as radio frequency (RF) transmission and reception of signal strength and quality, baseband signal processing, and channel card resource management. To perform.

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 an S1-U interface and inter- LTE / 3GPP hand. It supports the over, configures the PDN GW 350 and EPS bearer (Evolved Packet System bearer) and delivers a packet data unit (PDU) using tunneling.

The PDN-GW 350 allocates IP of the terminal device 110 and performs routing control with the S-GW 320 and the external network for packet service as a session control and user plane that interworks with an external Internet network and a non-3GPP network. Maintains tunneling and IP routing functions. In addition, it delivers the PDU to the S-GW 320 and the external network.

The MME 330 is a node that manages 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 the control signal when there is a join request or a radio bearer setup request from the terminal device 110 or another network node such as the PDN GW 350 or the S-GW 320. It is responsible for various functions of a control plane such as a control plane, and performs functions such as setting up EPS bearer or IP tunnel and mobility management.

The HSS 340 is a network node including a database containing subscriber information for a wireless communication system. The HSS 340 stores profile information, authentication, and location data of a service subscriber, and the HSS 340 is an MME. In response to the request of 330, the subscriber profile including the plan information is transmitted to the MME 330.

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

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

OFCS 370 collects the billing information generated by the EPC GW, processes and transmits the billing data required by the billing system (BS). In addition, OFCS 370 accommodates various charging protocols such as Radius, Diameter, and GTPP to provide a unified BS interface.

5 illustrates a detailed block configuration of the MSC 270. The MSC 270 includes a switch unit 500, a communication unit 504, a control unit 502, a VLR 506, and the like.

The VLR 506 is a device for storing visitor information and manages information of the terminal device 110 that has moved to the MSC 502, and when the terminal device 110 exists in the EPC network, The SGs-state field is represented by, for example, SGs-associated.

The switch unit 500 connects incoming calls, such as voice calls, received by the terminal device 110 to the corresponding terminal devices, thereby forming a call path between the terminal devices.

The communication unit 504 performs an interface for a wireless signal transmitted and received between the terminal device 110 and the MSC 270, such as transmitting a paging signal indicating the reception of the incoming call when the incoming call is received by the terminal device 110.

The controller 502 stores visitor location information, performs switching control for voice communication, and provides a connection function between various other devices and an external network according to an operation program stored in the memory unit 508. Controls the overall operation of the MSC 270.

In addition, the controller 502 receives an ISD message received from the HLR 204 when a paging signal for voice service using a CSFB is transmitted to a terminal device belonging to an EPC network through interworking between a WCDAM network and an EPC network according to an embodiment of the present invention. The paging signal is accurately transmitted to the MME 330 of the EPC network in which the terminal device for transmitting the paging signal is analyzed by analyzing the MME-NAME information included in the MME-NAME information.

On the other hand, while the terminal device 110, which was located in the EPC network, transfers the paging to the MME 330, the terminal device 110 may move to the WCDMA network, etc., so that the terminal device 110 cannot receive the paging. In this case, unlike the conventional paging method in which the control unit 502 repeatedly performs paging unconditionally three times or more, when the paging rejection is transmitted from the MME 330, the corresponding terminal device 110 to the MME 330 Recognizes that does not exist, and immediately sends the paging to the RNC 220 of the WCDMA network. Accordingly, unnecessary paging transmission from the MSC 270 to the MME 330 can be reduced to lower the paging failure rate.

6 illustrates a paging signal processing flow for a CSFB voice service when there is no subscriber information in an MSC of a WCDMA network according to an embodiment of the present invention.

First, when a voice incoming call is received by the terminal device camped on the EPC network, a routing information transmission message (SRI) is transmitted from the MSC 275 of the originating WCDMA network to the HLR 240 (S600).

Then, the HLR 240 determines where the MSC 270 of the WCDMA network in the region where the corresponding UE 110 requested by the calling MSC 275 is located, and the UE 110. The Roaming Number Provided (PRN) message is transmitted to the corresponding MSC 270 (S602).

When receiving the roaming number providing message as described above, the MSC 270 searches for information on the corresponding terminal device 110 that is requested to be received from the VLR, and if there is no information about the terminal device 110 requested to the VLR, the HLR. The data recovery (restore_data) message is transmitted to the 240 to request information on the corresponding terminal device 110 (S604).

Then, when the HLR 240 receives the information request of the terminal device 110 from the MSC 270, the HLR 240 searches for information on the requested terminal device 110 and provides the retrieved information of the terminal device 110.

In this case, when there is no information on the terminal device 110 that is called by the VLR in the destination MSC 270 of the WCDMA network, even if the terminal device 110 is moved to the EPC network, the MSC 270 does so. You won't know. Accordingly, even when receiving the information on the terminal device 110, the incoming call request from the HLR 240, the terminal device 110 is actually moved to the EPC network, so it is recognized that the terminal device 110 has moved to the EPC network. If the failed MSC 270 transmits a paging signal to the RNC 220 as in the conventional case, paging may fail.

Accordingly, in the embodiment of the present invention, the information on the terminal device 110 in response to the restore_data message to the MSC 270 of the WCDMA network where the terminal device 110 requested by the HLR 240 is located is located. When transmitting an insert subscriber message (ISD) message including a message (S606) of the MME 330 in which the terminal device 110 received through the combined EPS and IMSI attach through the existing EPC network as shown in FIG. The MME-NAME indicating the information is transmitted as an extension.

As described above, when receiving the ISD message including the information of the MME 330 where the terminal device 110 is located from the HLR 240, the MSC 270 is located in the terminal device 110 to perform paging from the ISD message The terminal device 110 recognizes the information about the MME 330 of the EPC network, changes the information on the SGs-state field for recording information on the corresponding terminal device 110 in the VLR to SGs-associated, so that the terminal device 110 changes the information on the EPC network. Indicate that it is located in (S608).

Subsequently, when an IAM (initial address message) message is received from the calling MSC 275 (S610), the MSC 270 transmits paging to the MME 330 where the terminal device 110 requested to be called is located. In operation S612, the MME 330 performs paging to the terminal device 110 again (S614).

Accordingly, when the terminal apparatus 110 receives paging from the MME 330, the terminal apparatus 110 accesses the WCDMA network and transmits a paging response corresponding to paging for voice call reception to the MSC 270 of the WCDMA network. (S616).

Subsequently, when receiving the paging response from the terminal device 110, the MSC 270 transmits an ANM (answer message) message to the calling MSC 275 (S618) to perform a conversation between terminals. To be possible.

That is, as described in the signal processing flow of FIG. 6, in the present invention, the SGs-state for recording information on the terminal device in the VLR based on the MME information of the EPC network where the terminal device provided from the HLR is located in the receiving MSC. Change the information on the field to SGs-associated. Accordingly, when an IAM message is received from an originating MSC and attempts to paging to a corresponding MS, the MSC does not attempt to page with RNC since the information in the SGs-state field in the VLR is SGs-associated. Since the paging attempt to the MME will be able to successfully call the terminal device camping on the EPC network.

7 illustrates a paging signal processing flow for a CSFB voice service when a terminal device does not exist in an EPC network according to an embodiment of the present invention.

First, when a voice call is received by the terminal device 110 camped on the EPC network, a routing routing information message (SRI) is transmitted from the MSC 275 of the originating WCDMA network to the HLR 240 ( S700).

Then, the HLR 240 determines where the MSC 270 of the WCDMA network in the region where the corresponding terminal device 110 requested by the originating MSC 275 is located, and the terminal device 110 is located. A roaming number provision (PRN) message is transmitted to the MSC 270 (S702).

When receiving the roaming number providing message as described above, the MSC 270 searches for information on the corresponding terminal device 110 that is requested to be received from the VLR, and if there is no information about the terminal device 110 requested to the VLR, the HLR. In step S704, a data recovery (restore_data) message is transmitted to request information on the corresponding terminal device (110).

Then, when the HLR 240 receives the information request of the terminal device 110 from the MSC 270, the HLR 240 searches for information on the requested terminal device 110 and provides the retrieved information of the terminal device 110.

In this case, when there is no information on the terminal device 110 that is called by the VLR in the destination MSC 270 of the WCDMA network, even if the terminal device 110 is moved to the EPC network, the MSC 270 does so. You won't know. Accordingly, even when receiving the information on the terminal device 110, the incoming call request from the HLR 240, the terminal device 110 is actually moved to the EPC network, so it is recognized that the terminal device 110 has moved to the EPC network. If the failed MSC 270 transmits a paging signal to the RNC 220 as in the conventional case, paging may fail.

Accordingly, in the embodiment of the present invention, the information on the terminal device 110 in response to the restore_data message to the MSC 270 of the WCDMA network where the terminal device 110 requested by the HLR 240 is located is located. When transmitting an insert subscriber message (ISD) message including S706 (S706) of the MME 330 in which the terminal device 110 received through the combined EPS and IMSI attach through the existing EPC network as shown in FIG. The MME-NAME indicating the information is transmitted as an extension.

As described above, when receiving the ISD message including the information of the MME 330 where the terminal device 110 is located from the HLR 240, the MSC 270 is located in the terminal device 110 to perform paging from the ISD message The terminal device 110 recognizes the information about the MME 330 of the EPC network, changes the information on the SGs-state field for recording information on the corresponding terminal device 110 in the VLR to SGs-associated, so that the terminal device 110 changes the information on the EPC network. Indicate it is located in (S708).

Subsequently, when an IAM message is received from the originating MSC 275 (S710), the MSC 270 transmits paging to the MME 330 where the requested terminal device 110 is located (S712).

On the other hand, during the paging process as described above, the terminal device located in the EPC network moves to the WCDMA network or the like while the MSC 270 transmits the paging to the MME 330 to receive the paging to the terminal device 110. It can happen if it doesn't work. In this case, as described above, there has been a problem in that unnecessary paging attempts are performed because the paging is repeatedly performed unconditionally three times or more.

Therefore, in the present invention, when the terminal device 110 does not exist in the MME 330, the paging reject signal is transmitted in response to the paging signal from the MSC 270, and the MSC 270 transmits a paging reject signal. When the paging rejection is received, the MME 330 recognizes that the terminal 110 does not exist and immediately transmits the paging to the RNC 220 of the WCDMA network.

That is, when paging of the terminal device 110 is attempted from the MSC 270, the MME 330 does not transmit a paging failure when the terminal device 110 does not exist in its cell area and rejects paging. The paging reject message is transmitted to notify that the incoming terminal device 110 does not exist (S714).

Then, when the paging rejection message is received from the MME 330, the MSC 270 determines that the incoming terminal 110 has moved from the EPC network to the WCDMA network, etc., and continues paging to the MME 330. Rather than attempting, paging is transmitted from the second paging attempt to the RNC 220 of the WCDMA network (S716).

Accordingly, the RNC 220 that receives the paging from the MSC 270 performs paging to the terminal device 110 that has received the call (S718), and the terminal device 110 responds to the paging received from the RNC 220. The paging response is transmitted to the MSC 270 (S720).

Subsequently, when receiving the paging response from the terminal device 110 as described above, the MSC 270 transmits an ANM message to the calling MSC 275 (S722) so that a conversation between the terminal devices can be performed. .

Accordingly, when the actual terminal device does not exist in the EPC network, it is possible to reduce unnecessary paging attempts performed by the MSC in the MME to lower the paging failure rate.

As described above, the present invention can increase the paging success rate from the WCDMA network to the terminal located in the EPC network by including the MME information of the terminal device in the ISD message between the HLR-MSC in the CSFB voice service linked to the WCDMA in the EPC network. In addition, when the paging failure between the WCDMA network and the EPC network due to the movement of the terminal equipment, the paging attempt to be quickly switched to the WCDMA network to increase the paging success rate for the CSFB voice service.

Meanwhile, in the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present 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 present invention, in the CSFB voice service linked to the WCDMA in the EPC network, the MSD information of the terminal device is included in the ISD message between the HLR-MSC, so that when the paging failure between the WCDMA network and the EPC network, the paging attempt is quickly switched to the WCDMA network. By increasing the paging success rate for the CSFB voice service, it 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)

An HLR providing location information on a terminal device;
MSC receiving MME information of the EPC network in which the terminal device is located from the HLR and transmitting paging to the MME upon receiving a voice call call request to the terminal device.
Paging system for voice service in the EPC network comprising a. A communication unit which transmits a paging signal to a terminal device that has received an incoming call upon receiving an EPC-WCDMA voice call incoming call request;
Control unit for receiving the MME information of the EPC network in which the terminal device is located from the HLR when the voice call incoming request is received and transmits paging to the MME through the communication unit
Paging device for voice service in the EPC network comprising a. The method of claim 2,
The MME information,
Paging device for voice service in the EPC network, characterized in that included in the ISD message transmitted from the HLR. The method of claim 2,
The control unit,
If the terminal determines that the terminal does not exist in the EPC network, the paging device for a voice service in the EPC network, characterized in that for transmitting the paging to the RNC of the WCDMA network. The method of claim 2,
The control unit,
And a paging reject in response to the paging from the MME to determine that the terminal apparatus does not exist in the EPC network. Receiving MME information in the EPC network where the terminal device is located from an HLR when a voice call is received by a terminal device existing in the EPC network;
Transmitting paging to an MME of the EPC network where the terminal is located;
Receiving a response to the paging from the terminal device and connecting a voice call;
Paging method for voice service in the EPC network comprising a. The method according to claim 6,
The voice call,
A paging method for a voice service in an EPC network, characterized in that received from a WCDMA network. Receiving MME information in the EPC network where the terminal device is located from an HLR when a voice call is received by a terminal device existing in the EPC network;
Transmitting paging to an MME of the EPC network where the terminal is located;
Waiting for a response to the paging from the terminal located in the MME;
Transmitting paging to an RNC of a WCDMA network when a paging rejection is received from the MME while waiting for the response;
Paging method for voice service in the EPC network comprising a. The method of claim 8,
And if the paging rejection is not received from the MME, repeatedly transmitting the paging to the MME for a predetermined time period. The method of claim 8,
The voice call,
A paging method for a voice service in an EPC network, characterized in that received from a WCDMA network.

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