KR101529972B1 - Method and apparatus for reprocessing call and method for servicing call waiting tone - Google Patents

Abstract

In the IMS network, when call processing is required during call termination processing for a called mobile communication terminal apparatus, the call is handed over to a legacy network to process a call failure. To this end, The method comprising the steps of: receiving a call connection request to a terminal device, determining whether call processing is necessary after transmitting an incoming call connection request message to the called mobile communication terminal device; Generating a message by adding information for routing information to another network and an indicator capable of recognizing a handover in another network, and transmitting the message to another network; .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method and apparatus for processing a call,

The present invention relates to a call processing method and apparatus. And more particularly, to a call processing method and apparatus for processing a VoLTE (Voice over Long Term Evolution) call failure in a legacy network, and a method of providing a call connection sound service in call processing.

As is well known, the ALL-IP network can provide interworking services with an Internet network using IP (Internet Protocol), and can provide solutions suitable for integrated multimedia services including voice, data, and real- ), The cost reduction effect can be obtained through the packet transmission.

As a core technology for providing a new service in the All-IP based communication environment, an IP Multimedia Subsystem (hereinafter referred to as " IP Multimedia Subsystem ") defined as a core technology for providing various services to subscribers based on the ALL- Quot; IMS "). Such an IMS can provide IP services over a packet network regardless of the access network format, and can provide services that require transmission of multimedia data such as one-to-one video calls as well as general call services.

As is known, in 3GPP Release 8, EPC (Evolved Packet Core), which is a network architecture, is described as one of mobile communication systems. The EPC is a collection of network nodes for the 3GPP LTE 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. A wireless communication system including an EPC and an E-UTRAN may be referred to as an evolved packet system (EPS) and corresponds to an LTE mobile communication system currently in service in Korea.

In the early stage of constructing such an LTE mobile communication system, a mixed communication environment with a legacy network such as a WCDMA (Wideband Code Division Multiple Access) mobile communication system appears. In such a communication environment, the LTE mobile communication system can access the LTE network, A dual mode mobile communication terminal device capable of connecting to the mobile communication terminal can be operated. In the early stage of the LTE mobile communication service, a WCDMA mobile communication system was used to provide a voice communication service to a dual mode mobile communication terminal, and an LTE mobile communication system was used to provide a data communication service.

Unlike this, it is VoLTE service that uses LTE mobile communication system not only for data communication but also for voice communication. These VoLTE services are also called High Definition (HD) voice services. According to the VoLTE service, it is possible to provide a cleaner HD-class voice call service in case of voice call, and users can share contents such as map, music, news, photo while displaying the same screen as the other party in real time during a call .

However, since the service area of the LTE network is limited, there is a problem that the continuity of voice calls is not ensured in areas where the radio wave environment is poor, such as leaving the limited area or the service cell border area. In order to solve this problem, it is a trend to provide voice call continuity in cooperation with a legacy network. In this case, a technique of handing over voice traffic to a packet switched network of a legacy network in order to provide call continuity when entering the LTE pharmacopoeia during a VoLTE call is a packet switched handover, SRVCC (Single Radio Voice Call Continuity) is a technique for handing over voice traffic to a circuit switched network.

A processing procedure of the VoLTE call for VoLTE service according to the related art will be described as follows.

First, when a VoLTE call is generated in the calling mobile communication terminal apparatus, paging is performed in units of TA (Tracking Area), and the called mobile communication terminal apparatus performs ringing (ringing) And when the ringing 180 reaches the source mobile communication terminal device, a ring signal is generated.

In the calling side mobile communication terminal device, a ring signal is generated by the background execution itself.

Thereafter, when the called mobile communication terminal device receives the call, the 200 OK arrives at the calling mobile communication terminal device, thereby connecting the calling call between the calling mobile communication terminal device and the called mobile communication terminal device.

However, when the destination mobile communication terminal device is out of LTE coverage during a call connection request, a call failure may occur due to mismatch of the location registration state of the destination mobile communication terminal device.

Korean Patent Publication No. 10-2013-0015602, published on February 14, 2013.

According to the embodiment of the present invention, when an incoming call connection to the destination mobile communication terminal apparatus fails in the IMS network, the call is handed over to the legacy network, thereby preventing a call failure.

In addition, according to the embodiment of the present invention, when an incoming call connection to the destination mobile communication terminal device fails in the IMS network, the call connection source service can be controlled when the connection is handed over to the legacy network.

The problems to be solved by the present invention are not limited to those mentioned above, and another problem to be solved can be clearly understood by those skilled in the art from the following description.

According to an aspect of the present invention, there is provided a method of transmitting a call connection request message to a called mobile communication terminal apparatus, the method comprising: determining whether a call reception failure occurs after a call connection request message is transmitted to the called mobile communication terminal apparatus, Generating a message by adding information for routing to another network and an indicator capable of recognizing handover in the other network to the information of the called mobile communication terminal device when the incoming failure occurs; And transmitting the message to another network.

In the call processing method of the present invention, the step of determining whether the call termination failure occurs may include determining whether a response is received within a predetermined period of time after transmitting an incoming call connection request message to the called mobile communication terminal device, Or whether or not the called mobile communication terminal apparatus is registered in the IMS network or whether the location registration request of the called mobile communication terminal apparatus is generated in the other network.

In the call processing method of the present invention, the indicator may be a parameter for causing the called mobile communication terminal apparatus to receive an incoming call from another network even if the destination mobile communication terminal apparatus is in a state in which the called mobile communication terminal apparatus is again capable of receiving an incoming call.

According to another aspect of the present invention, there is provided a mobile communication system including a determination unit for determining whether an incoming call failure occurs upon receipt of a call connection request to a called mobile communication terminal apparatus, And a call re-processing unit for requesting the other network for an incoming call processing using an indicator capable of recognizing that the other network is a fallback call processing.

In the call processing apparatus of the present invention, the call re-processing request unit may include: a message generating unit for adding information for routing to the other network and the indicator to generate a message suitable for the other network; And the like.

In the call processing apparatus of the present invention, the determination unit may determine whether a response to the incoming call connection request message or the incoming call connection request message after a predetermined time period has elapsed after transmitting an incoming call connection request message to the called mobile communication terminal apparatus, It is possible to determine whether the call processing is necessary based on the presence or absence of registration of the mobile communication terminal apparatus in the IMS network or the location registration request of the called mobile communication terminal apparatus in the other network.

According to another aspect of the present invention, there is provided a method of providing a call connection service, comprising the steps of: when a call connection request is received by a called mobile communication terminal device, service a call connection sound source according to a service subscription type of a called party and a caller; Stopping the service of the call connection sound source when the call termination related signal in the IMS network is received; and if the fallback call process in the other network starts in response to the call termination failure, And controlling the service of the call connection sound source according to the service subscription type. The present invention also provides a method of providing a call connection sound source service in call re-processing.

In the method of providing a call connection sound source service of the present invention, the step of determining the service subscription type determines whether the service subscription type is a coloring service.

In the method for providing a call connection sound source service of the present invention, controlling the service of the call connection sound source may include providing only the sound source for coloring among the call connection sound sources to the caller's mobile communication terminal device when the called party is subscribed to the coloring service Or provide a ringback tone to the caller's mobile communication terminal device when the called party or caller is subscribed only to a service other than the coloring service.

According to another aspect of the present invention, there is provided a method of providing a call connection sound source, the call connection sound source including a sound source for coloring registered by a called party, to a calling mobile communication terminal apparatus, Stopping a service of the call connection sound source when a signal related to an incoming call failure in the IMS network is received during service of a call connection sound source; And a callback processing step of, when the fallback call processing in the other network is started in response to the incoming failure, reproducing the coloring sound source on the basis of the stored pause point, And provides a method of providing a call connection sound service.

The present invention recognizes a failure of an incoming call attempt according to an abnormality of a mobile communication terminal device registered in an IMS network, recognizes the failure, and handles the incoming call to another network, for example, a legacy network to process an incoming call. Can be effectively prevented.

In addition, the present invention can solve the problem of overlapping services for VoLTE services by controlling the call connection sound source service in fallback signal processing.

1 is a network configuration diagram of a mobile communication service system capable of employing a call processing apparatus and method according to an embodiment of the present invention;
2 is a block diagram illustrating a call processing apparatus according to an embodiment of the present invention.
3 is a flowchart illustrating an operation process of a call processing apparatus according to an embodiment of the present invention;
4 is a flowchart illustrating an example of a call process in a mobile communication service system employing a call processing apparatus according to an embodiment of the present invention.
5 is a block diagram illustrating an internal configuration of an apparatus for providing a call connection sound service according to an embodiment of the present invention;
FIG. 6 is a flowchart illustrating an operation of an apparatus for providing a call connection sound service according to an embodiment of the present invention; FIG.

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.

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 with reference to the accompanying drawings.

1 is a network configuration diagram of a mobile communication service system capable of employing a call processing apparatus and method according to an embodiment of the present invention. 1 illustrates a case where a WCDMA mobile communication network is operated as a legacy network, the legacy network is not limited thereto. For example, other asynchronous mobile communication networks such as GSM (Global System for Mobile) and other synchronous mobile communication networks such as CDMA2000 and the like can be mixed with LTE mobile communication network.

According to the mobile communication service system shown in FIG. 1, dual mode called party and originating mobile communication terminals 300 and 350, which can be connected to an LTE network and can also be connected to a legacy network such as a WCDMA network, To provide VoLTE services.

The called party and originating mobile communication terminal apparatuses 300 and 350 can perform the role of the base station constituting the WCDMA mobile communication network in the service area 111 of the eNodeB 110 performing the role of the base station constituting the LTE mobile communication network And can be operated in the service overlap area included in the service area 211 of the NodeB 210. [ For example, the mobile communication terminal devices 300 and 350 may be implemented in various forms such as a smart phone, a notepad, a tablet computer, and the like.

the eNodeB 110, the MME 120, the Home Subscriber Server 130, the Serving Gateway 140, the PGW 150, the MSC 160, Charging Rule Function 170 and the like can constitute an LTE mobile communication network.

The eNodeB 110 communicates with the called party and originating mobile communication terminal devices 300 and 350 to serve as a base station for ensuring mobility. The eNodeB 110 may include a radio bearer control, a radio admission control, a connection mobility control, a dynamic resource allocation to the mobile communication terminal 300, And performs the same radio resource management function. In addition, IP header compression and encryption of user data streams, routing of user plane data to SGW 140, scheduling and transmission of paging messages, scheduling and transmission of broadcast information, And performs measurement and measurement report settings for mobility and scheduling.

The MME 120 takes charge of signal control between the eNodeB 110 and the SGW 140 and determines the routing for the transmission data of the mobile communication terminal 300. [ The MME 120 performs paging message distribution to the eNodeB 110, non-access spectrum (NAS) signaling, intra-network handover control, tracking area list management, and the like. In addition, the MME 120 performs selection of the SGW 140 and the PGW 150, selection and change of the MME 120 for handover, terminal authentication, and the like. This MME 120 is controlled when there is a combination request or a radio bearer setup request from the destination and originating mobile communication terminal apparatuses 300 and 350 or another network node such as the PGW 150 or the SGW 140 And receives subscriber profile information, authentication, and location-related data from the HSS 130 and transmits the subscriber profile information to an EPS bearer (Evolved Packet System bearer) or an IP tunnel IP tunnel configuration, mobility management, and so on.

The HSS 130 is a network node including a data base including subscriber information for the LTE mobile communication network and stores subscriber profile information, authentication and location related data.

The SGW 140 is a user plane node that performs session control for processing payload traffic according to a set session. U-interface with the eNodeB 110, supports handoff in the 3GPP, sets up the EPS bearer with the PGW 150, and delivers PDU (Packet Data Unit) using tunneling. The SGW 140 selects the PGW 150 based on the subscriber profile, and generates billing data for mutual settlement with the PGW of the home network when the call is an inbound roaming call.

The PGW 150 is a user plane node that assigns IPs of the called party and originating mobile communication terminal devices 300 and 350 and performs session control in cooperation with the external Internet network and the non-3GPP network. Maintains routing information with the SGW 140 and the external network for packet service, and performs tunneling and IP routing functions. In addition, the PDU is delivered to the SGW 140 and the external network. The PGW 150 performs a charging process in the case of a local call.

The MSC server 160 provides a session data protocol for voice and video for an additional function by the IMS (IMS: IP Multimedia Subsystem) 400.

The PCRF 170 provides dynamic QoS and billing rules according to the service data flow to perform communication policies and billing processing in the communication network.

In order to provide a VoLTE service corresponding to the HD voice service, an IMS (IMS) 400 includes a call session control function (CSCF) 410, an interworking media gateway (IMG) 420, a BGCF A Breakout Gateway Control Function 430, a Media Gateway Control Function (MGCF) 440, a Telephony Application Server (TAS) 450, and the like.

The CSCF 410 is an infrastructure system that performs call processing and performs basic functions for multimedia session control based on SIP (Session Initiation Protocol). The CSCF 410 handles subscriber registration, authentication, billing, service triggering and routing, caller location inquiry, and decompression and decompression of SIP messages. The CSCF 410 processes a P-CSCF (Proxy-CSCF) (Serving-CSCF) 414, and an I-CSCF (Interrogating-CSCF) 416.

The P-CSCF 412 acts as an initial contact point for the mobile communication terminal 300 in the IMS network 400 and can perform QoS control of the access network through interworking with the PCRF 170 . In addition, the P-CSCF 412 can perform message encryption, compression, and decompression between terminals. In the embodiment of the present invention, the P-CSCF 412 may transmit a VoLTE service incoming call connection request to the called mobile communication terminal device 300.

The S-CSCF 414 interfaces with the BGCF 440 in order to perform SIP registrar function, session control for registered users and session state management, interworking with the service platform to provide various services, and routing messages transmitted to the PSTN can do. That is, in the embodiment of the present invention, when an incoming call connection request is transmitted to the destination mobile communication terminal device 300 through the P-CSCF 412, the message received from the TAS 450 is routed to the BGCF 440).

The I-CSCF 416 serves as a contact point for one provider network and plays a role for protecting the self-network path information when the provider network is interworked. The I-CSCF 416 is the first contact point with another network and receives the call connection request message from the network interworking with another network, for example, the originating mobile communication terminal apparatus 350, in the IMS network 400 for the first time .

The IMG 420 serves as a gateway between the BGCF 440 and the CGS 260 and converts signaling and media for interworking with the LTE mobile communication network connected to the CSCF 410 and the WCDMA mobile communication network.

The MGCF 430 supports conversion of signaling between the SIP and the ISDN (ISDN User Part) used in the circuit switched network, and controls the IMG 420.

When the BGCF 440 transitions from the IMS network 400 to the legacy network, that is, when a breakout occurs, the BGCF 440 performs a function of interworking with the legacy network and searches for the MGCF 430 to transmit a message.

The TAS 450 is a server for providing a telephone telephony service and provides various additional services such as a caller display service, a call / incoming call prohibition, a call forwarding service, and a call connection sound service. Here, the types of call connection sound service include coloring plus, coloring, ring plus, but are not limited thereto. The coloring plus is an announcement sent before providing the sound source registered with the coloring, and the coloring is the announcement sent prior to the call connection between the calling mobile communication terminal device 350 and the called mobile communication terminal device 300, And the ring plus may be defined to inform that the subscriber of the called party, i.e., the called mobile communication terminal device 300 is a subscriber of the corresponding communication service.

On the other hand, the TAS 450 can be interlocked with a call processing apparatus (reference numeral 500 in FIG. 2) mounted with a call processing apparatus (reference numeral 500 in FIG. 2) or installed separately, and can not receive a VoLTE incoming call The called mobile communication terminal apparatus 300 can be handed over to the PSTN incoming.

The TAS 450 receives a call connection request message from the call processing device (reference numeral 500 in FIG. 2) in order to perform handover to the legacy network when VoLTE incoming of the destination mobile communication terminal device 300 fails, The call connection request message may be transmitted to the legacy network and the called mobile communication terminal apparatus 300 may be handed over.

In addition, the TAS 450 interworks with the HLR 250 of the legacy network in the process of terminating the call with the called mobile communication terminal device 300, so that the terminating mobile communication terminal device 300 can perform the coverage of the legacy network And stops the incoming call processing according to the recognition of the event. After receiving the call connection request message from the call processing device (reference numeral 500 in FIG. 2), it transmits the call connection request message to the legacy network, The communication terminal apparatus 300 can be handed over. That is, the HLR 250 in the legacy network notifies the TAS 450 of the occurrence of an event as it receives the location registration request of the called mobile communication terminal device 300 through the SGSN 230. Upon receiving the event, the TAS 450 suspends the processing of the incoming call when an incoming call is being processed, receives a call connection request message from the call processor (500 in FIG. 2) to perform a handover to the legacy network, The called mobile communication terminal 300 can be handed over by transmitting the provided call connection request message to the legacy network.

Meanwhile, the TAS 450 may include a call connection sound source service provision device (800 in FIG. 5), or may interwork with a separate call connection sound source service provision device 800. That is, when the call processing is required, the TAS 450, when the fall-back call processing is required in response to the VoLTE incoming failure of the destination mobile communication terminal device 300, requires the caller and the called party The service provider can control the call connection service according to the service subscription type. The control procedure of the call connection sound source service will be described in detail with reference to FIG. 5 to FIG.

In the embodiment of the present invention, only one IMS network 400 is shown. However, the IMS network 400 is divided into a called IMS network and a calling IMS network, and is interworked with the called party and originating mobile communication terminal devices 300 and 350, It may process outgoing calls or provide additional services.

A Node B 210, an RNC 220, an SGSN 230, a Mobile Switching Center (MSC) 240, a Home Location Register (HLR) 250, a Cellular Gateway Switch (CGS) 260, a Gateway General Packet a radio service support node 270 and the like may constitute a WCDMA mobile communication network. Here, the Node B 210 and the RNC 220 correspond to a radio access network area, the MSC 240 and the CGS 260 correspond to a circuit switching core network, and the SGSN 230 and the GGSN 270 exchange packets. Corresponds to the core network.

The NodeB 210 secures a frequency used for connection with the mobile communication terminal devices 300 and ensures a stable connection with the mobile communication terminal devices 300.

The RNC 220 controls a plurality of NodeBs 210, allocates communication resources to each of the NodeBs 210, and performs a handover function.

The SGSN 230 is connected to a plurality of RNCs 220 to manage the mobility of the mobile communication device 300 and the packet session management. The SGSN 230 can perform IP routing, You can do the same interaction.

The MSC 240 stores visitor location information, receives subscriber profile information, authentication and location related data from the HLR 250, and performs switching control for voice communication.

The HLR 250 is a home location register for registering the location of the mobile communication terminal. The HLR 250 stores and manages location registration requests in the legacy network through the SGSN 230, And notifies the TAS 450 in the network 400.

The CGS 260 serves as a gateway for connecting a WCDMA mobile communication network and a general communication network, enabling communication with another communication system connected to a general communication network, and serves as a gateway between the MSC 240 and the IMS network 400. In other words, the CGS 260 can receive a request, for example, an invite message, for interworking with the IMG 430 of the IMS network 400 and handing over from the IMS network 400 to the legacy network.

The GGSN 270 directly connects with the IP network and serves as a gateway for connecting the IP domain and the PS domain of the WCDMA network. The GGSN 270 maintains routing information with the SGSN 230 and the external network, performs tunneling and IP routing Function.

2 is a block diagram of a call processing apparatus according to an embodiment of the present invention.

The call processing unit 520 includes a message generation unit 522 and a call processing unit 520. The call processing unit 520 includes a message generation unit 522, And a transmitting unit 524.

The determining unit 510 determines whether or not the incoming call fails after receiving a call to the called mobile communication terminal device 300 after receiving the call connection request message from the calling mobile communication terminal device 350 for receiving the VoLTE communication service can do. That is, the determination unit 510 can determine whether or not an incoming call failure occurs in the IMS network 400. Here, it is judged whether or not the incoming fails based on the fallback trigger condition. If the fallback trigger condition is not received within a predetermined time after transmitting the 180 ring to the destination mobile communication terminal device 300 or if a 499 or 408 response is received according to the idle state of the destination mobile communication terminal device 300 The presence or absence of information reception due to the registration of the destination mobile communication terminal device 300 in the IMS network 400 or the location registration event from the HLR 250 may correspond to the reception. Each of these fallback trigger conditions can be selectively activated depending on the operation of the operator.

The call processing request unit 520 transmits the information of the called mobile communication terminal device 300 to the CGS 260 of the legacy network when call processing is required, that is, when a fallback trigger condition is generated, Can be requested.

For this, the message generating unit 522 of the call re-processing request unit 520 may include a routing number and a fallback indicator in a VoLTE incoming call to generate a fallback call connection request message, that is, an INVITE message. Here, the routing number is information for an incoming call in a legacy network, for example, 82-999. The fallback indicator is information (O-SFI) indicating that the fallback call processing service is an example, and an example thereof is 'O-SFI: CS-Fallback (CSFB)'.

For example, by using a VoLTE incoming call connection request message (sip: 01012345678 call processing method .ims.net) composed of the telephone number of the called mobile communication terminal apparatus 300 and an identifier informing the incoming call of the IMS network 400 If the message generating unit 520 fails to receive a call to the called mobile communication terminal apparatus 300 or an event related to the location registration request of the called mobile communication terminal apparatus 300 is generated from the HLR 250, + 82-99901012345678 "by adding the routing number" 82-999 "to the incoming call connection request message and adding a fallback indicator to the generated Tel-URL to generate a fallback call connection request message '+ + 82-99901012345678, O-SFI: CS-Fallback '.

The fallback call connection request message generated by the message generator 522 is transmitted to the S-CSCF 414 of the CSCF 410 by the transmission unit 524 and the S-CSCF 414 transmits the fallback call connection request message After determining that the legacy network is an incoming call, the callback request message for the backbone is routed through the BGCF 440 to the IMG 420.

Accordingly, the IMG 420 deletes the routing number from the fallback call connection request message and transmits it to the CGS 260. The CGS 260 uses the fallback indicator in the fallback call connection request message to process the incoming call Generates an SRI message, and transmits it to the HLR 250 to request information about the called mobile communication terminal device 300.

The HLR 250 determines that the fallback incoming call process corresponds to the fallback incoming call processing through the fallback indicator in the SRI message and transmits the routing information of the MSC 240 in response to the SRI message regardless of the registration information of the called mobile communication terminal device 300 And provides the number to the CGS 260.

The CGS 260 accesses the MSC 240 based on the routing number received from the HLR 250 and transmits an incoming call connection request message to the called mobile communication terminal device 300.

As described above, in response to the failure of the VoLTE call, a fallback indicator is added to the fallback call connection request message in the fallback call processing, so that the incoming mobile communication terminal device 300 is notified of the incoming call processing even in the state registered in the IMS network 400 Can be switched to a legacy network.

3 is a flowchart illustrating a call processing method according to an embodiment of the present invention.

As shown in the figure, the call processing method according to the embodiment is a method in which the calling mobile communication terminal device 350 registers in the LTE network, that is, the called mobile communication terminal device 300 registered in the HSS 130, When the call connection request message is received from the calling mobile communication terminal device 350 in step 610, the TAS 450 transmits the call connection request message to the called mobile communication terminal device 300 An incoming call connection request message is transmitted (step 620). At this time, the call connection request message may be received through the I-CSCF 416 and transmitted to the TAS 450. The TAS 450 transmits a call connection request message to the S-CSCF 414 and the P- To the destination mobile communication terminal device 300 via the Internet.

Thereafter, the call processor 500 determines whether a fallback trigger condition is generated (step 630). That is, if a response according to the call connection request message is not received from the called mobile communication terminal device 300 for a preset time or a message according to the idle state of the called mobile communication terminal device 300, for example, a 499 or 408 response message Or if the destination mobile communication terminal device 300 is not registered in the HSS 130 or if the event information according to the location registration request of the destination mobile communication terminal device 300 is received from the HLR 250 It is determined whether a fallback trigger condition is generated.

As a result of the determination in step 630, if the callback trigger condition is satisfied, the call processor 500 adds a routing number for processing the legacy network incoming call to the call connection request message, adds a fallback indicator, and transmits a fallback call connection request message And transmits the generated fallback call connection request message to the CGS 260 through the IMG 420 (step 640). In more detail, the fallback call connection request message to which the routing number and the fallback indicator are added is transmitted to the S-CSCF 414. The S-CSCF 414 transmits the fallback call connection request message to the legacy And then routes it to IMG 420 through BGCF (440).

Then, in the legacy network, an incoming call process for the called mobile communication terminal device 300 is performed based on the fallback call connection request message (step 650). In more detail, the IMG 420 removes the routing number in the fallback call connection request message of the SIP type, generates an ISUP-type fallback call connection request message with the fallback indicator as a header, and transmits the fallback call connection request message to the CGS 260 do. Therefore, the CGS 260 sets the fallback indicator information in the call connection request message transmitted from the IMG 420 as 'O-SFI' information of the SRI message to the HLR 250 for processing the incoming call, And is provided with a routing number for the MSC 240 in response. Then, the CGS 260 transmits a call connection request message to the called mobile communication terminal device 300 through the MSC 240 corresponding to the routing number provided from the HLR 250, and performs the incoming signal processing . Thereby, a CS fallback call between the originating mobile communication terminal device 350 and the destination mobile communication terminal device 300 is generated.

On the other hand, if it is determined in step 630 that the call is not in the fallback trigger condition, that is, if a normal response is received from the called mobile communication terminal device 300, the calling mobile communication terminal device 350 and the called mobile communication terminal device 300) sets a VoLTE call (step 660).

4 is a flowchart illustrating an example of a call process in a mobile communication service system employing a call processing apparatus 500 according to an embodiment of the present invention.

An example of a call process by the mobile communication system will be described with reference to FIGS. 1 to 4. FIG.

In this example, when the called mobile communication terminal device 300 is registered in the LTE network, the calling TAS (not shown) or the calling mobile communication terminal device 350 A process after the call connection request is received from the legacy network to which the device 350 belongs to the IMS network 400 will be described.

First, in the IMS network 400 managing the destination mobile communication terminal apparatus 300, a call connection request is transmitted from a node in the legacy network or the LTE network in which the source mobile communication terminal apparatus 350 is located via the I-CSCF 416 Message, i.e., a SIP INVITE message (701). Accordingly, the I-CSCF 416 sends a call connection request message to the S-CSCF 414 (step 703).

The TAS 450 then receives 705 a call connection request message through communication with the S-CSCF 414 and then transmits the call connection request message to the called mobile communication terminal device 400 in the IMS network 400, (707) that the service is a call termination service for the service provider (300). The TAS 450 in the IMS network 400 then transmits a call connection request message to the called mobile communication terminal device 300 through the S-CSCF 414 and the P-CSCF 412 for the incoming call connection (709).

Thereafter, when the response to the call connection request message is not received from the called mobile communication terminal device 300 for a preset time, the call processor 500 determines that the incoming call is unsuccessful (711) Message, for example, a message for handover to a legacy network (713). That is, the call processor 500 adds a routing number for requesting call processing to the legacy network to the telephone number of the called mobile communication terminal device 300 in the call connection request message, and adds a fallback indicator And generates a fallback call processing request message.

The fallback call processing request message is then transmitted 715 to the S-CSCF 414 and the S-CSCF 414 determines that the call processing request of the legacy network is based on the calling number in the fallback call processing request message 717) and transmits it to the IMG 420 through the BGCF 440 (719). After the IMG 420 detects the fallback request, the IMG 420 deletes the routing number in the fallback call processing request message and generates a message 721 with the O-SFI information as a fallback indicator, and transmits the message to the CGS 260 (723) .

Accordingly, the CGS 260 generates an SRI message using the O-SFI information and transmits it to the HLR 250 (725). Accordingly, the HLR 250 recognizes 727 that it is a fallback call processing request based on the O-SFI information, and then transmits the rounding number of the MSC 240 for the fallback call processing to the CGS 260 (729).

The CGS 260 then connects to the S-CSCF 414 in the IMS network 400 by requesting 731 the incoming call processing by accessing the MSC 240 based on the routing number transmitted from the HLR 250. [ And the MSC 240 (733).

Meanwhile, in the embodiment of the present invention, when call processing is required, the call connection sound source service apparatus 800 can control the call connection sound source service according to the service subscription type of the called party or caller, Will be described with reference to FIG.

5 is a block diagram illustrating an internal configuration of an apparatus 800 for providing a call connection sound service according to an embodiment of the present invention.

Prior to the explanation of the call connection sound source service providing device 800, the call connection sound source is a ring connection sound provided to the mobile communication terminal device when the call connection is made, and the type is a coloring sound source, a ring back tone, a coloring plus sound source, But is not limited thereto. Here, the coloring sound source means a sound source registered by the user, and the coloring plus sound source means an announcement item registered by the user.

On the other hand, the types of call connection sound service include coloring service, coloring plus service, and ring plus service. Here, the coloring service is to provide music or video as a ringback tones, the coloring plus service is to provide a ring tones as a ringback tones registered by the user other than music or video, and the ring service is related to the communication service company of the subscriber The ring-plus service provides a sound source registered by a specific communication service company when a subscriber of the calling-side mobile communication terminal device 350 is subscribed to a specific communication service company, and the ring back- Means providing the default sound source previously registered by the manufacturer.

The user can subscribe to one or more services using the call connection sound service, and can provide various call connection tones to the calling side mobile communication terminal unit 350 when a call connection is made according to the type of the service. For example, when the subscriber of the called mobile communication terminal device 300 subscribes to the coloring service and the coloring plus service, the announcement registered in the coloring plus service is provided to the calling mobile communication terminal device 350 as a ringing tone Once the announcement is over, you will be provided with the sound sources registered with the coloring service.

As shown in FIG. 5, the call connection sound source service providing apparatus 800 checks the service subscription type of the called party and the caller through interworking with the TAS 450 upon generation of an outgoing call, and then transmits the corresponding call connection sound source service When the TAS 450 of the IMS network 400 operates for fallback call processing, it is necessary to control the call connection sound source service when the fallback call processing is required during the provision of the call connection sound service, A service control unit 820 for receiving a service subscription type, a service subscription type for each subscriber, and a database 830 for storing information such as a sound source and announcement information registered by the subscriber.

When a call connection failure related signal is received from the TAS 450 after the call connection sound source service is started, the service control unit 820 searches the database 830 for the service subscription type of the caller and the called party, and then starts a fallback call process The TAS 450 can be controlled to provide the call connection sound source to the calling mobile communication terminal device 350 according to the searched service subscription type. That is, when the called party is subscribed only to the coloring plus service, when the fallback call process is started, the TAS 450 is controlled so that only the ringback tone is provided to the calling mobile communication terminal device 350, The TAS 450 is controlled so that only the coloring sound source is provided to the calling side mobile communication terminal device 350. When the caller enters the color plus ring service, And if the called party is not a subscriber, the TAS 450 can be controlled so that the ring back tone is provided to the calling side mobile communication terminal device 350 when the fallback call processing starts.

According to this control, when the TAS 450 starts the fallback call processing, it can control the transmission of 180 messages. That is, when the called party subscribes only to the coloring-plus service, or when only the caller subscribes to the ring-plus service, 180 message is transmitted to the calling mobile communication terminal device 350. If only the coloring service is subscribed, The originating mobile communication terminal apparatus 350 does not transmit. Upon receiving the message 180, the calling mobile communication terminal device 350 transmits the ringback tone to the call connection sound source.

On the other hand, the service control unit 820 can provide a sound source for coloring based on the pause point. That is, in the embodiment of the present invention, when a signal related to an incoming call failure is received from the TAS 450, the service control unit 820 stops the sound source service for coloring at the time the signal is received, As a pause point. When the fallback call process is started, that is, when the TAS 450 transmits a fallback call process request message to the CGS 260 of the legacy network, the service control unit 820 reproduces a sound source for coloring based on the pause point, Side mobile communication terminal apparatus 350 according to the present invention.

Meanwhile, in the embodiment of the present invention, the TAS 450 of the IMS network 400 or the TAS 450 of the IMS network 400 is installed in the TAS 450. However, Server. In this case, the call connection sound source service providing device 800 receives an ISUP type message set to 'CSFB' indicating that the OSFI is a fallback call processing request. Accordingly, the service control unit 820 can transmit only the sound source registered with coloring without sending out the announcement registered with coloring plus, ring plus, and ring plus of the called party.

A concrete operation process of the call connection sound source service providing apparatus 800 having the above configuration will be described with reference to FIG.

6 is a flowchart illustrating an operation of an apparatus 800 for providing a call connection sound service according to an embodiment of the present invention.

As shown in the figure, when an outgoing call is first received from the originating mobile communication terminal apparatus 350 (step 901), while the call processing procedure is performed in the IMS network 400, And a call connection sound source in the form of a combination of announcement, coloring sound source, and ring back tone registered in Coloring Plus according to the service subscription type of the called party to the calling mobile communication terminal device 350 (step 903).

Thereafter, when the fallback call process is started due to the failure of the incoming call (step 905), the call connection sound source service providing device 800 receives a message indicating that the fallback call processing service, that is, a message whose OSFI is set to 'CSFB' Step 907).

Accordingly, the call connection sound source service providing apparatus 800 searches the database 830 for the service subscription type of the calling party and the called party (step 909), and determines whether or not to join the coloring service (step 911).

As a result of the determination in step 911, when joining the coloring service, the call connection sound source service providing device 800 reproduces only the sound source for coloring in the fallback call process (step 913) 350).

On the other hand, if it is determined in step 911 that the subscriber is not subscribed to the coloring service, the call connection sound source service providing device 800 controls the TAS 450 to transmit the ringback tone. Accordingly, the TAS 450 provides the 180 ring message to the calling side mobile communication terminal device 350 and transmits the 180 ring message to the calling side mobile communication terminal device 350 until the call between the called side mobile communication terminal device 300 and the calling side mobile communication terminal device 350 is connected And outputs the ringback tone to the mobile communication terminal device 350 (step 915).

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It is easy to see that this is possible. In other words, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention.

Therefore, the scope of protection of the present invention should be construed in accordance with the following claims, and all technical ideas within the scope of equivalents should be interpreted as being included in the scope of the present invention.

According to the embodiment of the present invention, when an incoming call fails in the IMS network, an incoming call to the legacy network is fallbacked, thereby improving call service quality in the VoLTE service. The present invention including this technical configuration can be applied to VoLTE (or LTE) mobile communication network, thereby realizing the reliability enhancement of VoLTE or LTE service and the reliability enhancement of billing application service.

In addition, according to the embodiment of the present invention, it is possible to solve the problem in providing a call connection sound source service according to the VoLTE service by controlling the call connection sound source service in fallback signal processing.

300: Destination mobile communication terminal device 350: Originating mobile communication terminal device
500: call processor 510: judging unit
520: call process requesting unit 522: message generating unit
524:
800: Telephone connection service provider
810: Service providing unit 820: Service control unit
830:

Claims (10)

When receiving a call connection request to the called mobile communication terminal device, determining whether call processing is necessary after transmitting an incoming call connection request message to the called mobile communication terminal device;
Generating a message including information for routing to another network and an indicator capable of recognizing a fallback call processing in the other network, to the information of the called mobile communication terminal apparatus when the call processing is necessary;
And sending the message to the other network
Call processing method. The method according to claim 1,
Wherein the step of determining whether call processing is necessary comprises:
A response message to the incoming call connection request message or a response message to the IP Multimedia Subsystem (IMS) of the called mobile communication terminal apparatus after a predetermined time period has elapsed after transmitting an incoming call connection request message to the called mobile communication terminal apparatus, Whether there is registration in the network or whether there is a location registration request of the destination mobile communication terminal apparatus in the other network
Call processing method. The method according to claim 1,
Wherein the indicator is a parameter for causing the called mobile communication terminal apparatus to receive an incoming call from the other network even if the called mobile communication terminal apparatus is in a state in which the called mobile communication terminal apparatus can be re-
Call processing method. A determination unit for determining whether call processing is necessary after transmitting a call connection request message to the called mobile communication terminal apparatus upon receipt of a call connection request to the called mobile communication terminal apparatus;
A message generating unit for generating a message including information for routing to another network and an indicator for recognizing that the other network is a fallback call processing when the call processing is necessary; And a call processing request unit including a transmission unit,
Wherein the call-
And requests the other network to process the incoming call
Call processing device. delete 5. The method of claim 4,
Wherein,
A response message to the incoming call connection request message or a response message to the IP Multimedia Subsystem (IMS) of the called mobile communication terminal apparatus after a predetermined time period has elapsed after transmitting an incoming call connection request message to the called mobile communication terminal apparatus, It is determined whether or not call processing is necessary based on the presence or absence of registration in the network or the occurrence of a location registration request of the called mobile communication terminal apparatus in the other network
Call processing device. When the call connection request is received by the called mobile communication terminal device, service the call connection sound source according to the service subscription type of the called party and the caller;
Stopping the service of the call connection sound source when a signal for call processing in an IMS (IP Multimedia Subsystem) network is received during service of the call connection sound source;
Determining a service subscription type of the called party and a calling party when a fallback call process is started in the other network according to the call processing;
And controlling the service of the call connection sound source according to the service subscription type
A method for providing a call connection sound service when a call is processed. 8. The method of claim 7,
Wherein the step of determining the service subscription type comprises:
And determines whether the service subscription type is a coloring service
A method for providing a call connection sound service when a call is processed. 9. The method of claim 8,
The step of controlling the service of the call connection sound source may include providing only the sound source for coloring among the call connection sound sources to the caller's mobile communication terminal device when the called party is subscribed to the coloring service, The ring back tone is provided to the mobile communication terminal device of the caller
A method for providing a call connection sound service when a call is processed. Providing a call connection sound source including a coloring sound source registered by a called party to a calling side mobile communication terminal device when a call connection request is received by the called mobile communication terminal device;
Stopping the service of the call connection sound source when a signal for call processing in an IMS (IP Multimedia Subsystem) network is received during service of the call connection sound source;
Setting a point where the service of the call connection sound source is stopped to a pause point of the coloring sound source;
If the fallback call process is started in the other network according to the call processing, the calling mobile communication terminal device reproduces the coloring sound source based on the pause point,
A method for providing a call connection sound service when a call is processed.

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