KR101507369B1 - MOBILE VoIP SERVER SYSTEM, METHOD OF PROVIDING LOCATION INFORMATION FOR MOBILE VoIP SERVICE AND APPARATUS FOR THE SAME - Google Patents

Abstract

The purpose of the present invention is to provide location information on a called party for a mobile VoIP service. Disclosed are a mobile VoIP server system, a method for providing location information for a mobile VoIP service, and an apparatus for the same. A location server includes: a server interface unit for receiving a request for location information from a signaling server, and providing a location information response corresponding to the request for location information to the signaling server; and a request processing unit for generating location information of a called signaling server required to perform a call setup for transmitting/receiving, by the signaling server, a voice packet in response to the request for location information, and including the generated information in location information response.

Description

TECHNICAL FIELD [0001] The present invention relates to a mobile Internet telephone server system, a location information providing method for a mobile Internet telephone service,

The present invention relates to a mobile Internet telephone server system, a method for providing location information for a mobile Internet telephone service, and an apparatus therefor, and is capable of appropriately distributing server load based on a server resource availability, efficiently linking with a messenger server A mobile Internet telephone server system providing location information, a location information providing method for mobile Internet telephone service, and an apparatus therefor.

In general, a Voice over Internet Protocol (VoIP) service digitizes an analog voice signal, compresses the digitized signal, and then uses a signaling protocol such as H.323, Session Initiation Protocol (SIP), or Media Gateway Control Protocol (MGCP) After the signal processing, voice communication is performed by being transmitted over a Transmission Control Protocol / Internet Protocol (TCP / IP) network such as a wired or wireless Internet network by RTP (Real-time Transport Protocol) . Unlike the Public Switched Telephone Network (PSTN), which is a circuit switched telephone system in which a VoIP service can use an existing IP network as it is and requires a line to be exclusively connected during the talk time, The use of resources can be efficiently used, and the use thereof is rapidly increasing.

In addition, since VoIP service integrates data communication network and voice communication network, communication cost can be reduced and it is becoming an alternative of PSTN. Recently, with the spread of broadband Internet, the Internet call center, Internet UMS (Unified Messaging System) And is used in various fields such as enterprise telephone network.

As the spread of mobile terminal devices such as smart phones is expanding and packet-based communication technologies such as LTE are developed, there is an increasing need to make voice calls through mobile terminals to packet-based data networks, and mobile messenger services Mobile internet telephone service is becoming popular.

Korean Patent Publication No. 2009-0102140 discloses a server technology for VoIP service. However, Korean Patent Laid-Open Publication No. 2009-0102140 does not provide a solution for a case where a server is not a mobile Internet phone service, a load is loaded on a server, etc., and does not know location information of a server corresponding to a called party And the like.

Accordingly, there is an urgent need for a new mobile Internet telephone service server technology suitable for a mobile Internet telephone service, properly managing a server load, and capable of properly setting up a call even when the location information corresponding to a called party is unknown.

SUMMARY OF THE INVENTION It is an object of the present invention to efficiently provide incoming call or location information for a mobile Internet telephone service.

It is another object of the present invention to make a call setup even when signaling server location information corresponding to a called party is not registered in a location server.

It is another object of the present invention to store the context information in a database upon forwarding a push message and transmit a location information response message promptly after registration in case of inducing registration of a called party through push message transmission in cooperation with a messenger server.

It is also an object of the present invention to enhance security of a location server by providing location information only to IP servers registered with a location server.

According to another aspect of the present invention, there is provided a location server for a mobile Internet telephone service, the location server comprising: a signaling server, which is generated from a signaling server list and generated by considering a resource availability of a signaling server and a connection location of a caller, A server interface unit for receiving a location information request of the location information request and providing a location information response corresponding to the location information request to the signaling server; And a request processing unit for generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the location information in the location information response do.

In this case, the location server may further include a messenger server interface unit for transmitting a push request for registration of any one of the incoming signaling server and the called party.

At this time, the request processing unit may include the location information of the incoming signaling server obtained by the registration performed based on the push request in the location information response.

At this time, the push request can be used when the invite message is transmitted to the called party but there is no response for a predetermined time, and when the address information of the incoming signaling server is not registered.

At this time, the request processing unit may store the context information in the database after the push request is transmitted, and if the registration is completed, the request processing unit may instantly generate location information of the incoming signaling server using the context information.

At this time, the server interface unit determines whether or not the IP corresponding to the connection request is the registered IP in response to the TCP (Transmission Control Protocol) connection request from the signaling server or the provisioning server, The connection request can be accepted or disconnected.

At this time, the request processing unit transmits a push request through the messenger server interface unit in response to the authentication request from the signaling server or the provisioning server, and transmits the push request through the authentication corresponding to the authentication request Can be performed.

At this time, the location server may further include a subscriber management unit that performs a function of creating, changing, inquiring, and deleting the subscriber database.

In this case, the request processing unit may allow the subscriber management unit to store location information of the subscriber in response to a registration request from the signaling server or the provisioning server.

In this case, the location information may correspond to IP and Port information.

At this time, the location server may be connected to any one or more of the provisioning server, the signaling server, and the relay server through one of two or more L4 switches, and may operate in conjunction with a separate database server.

A method for providing location information for an Internet telephony service according to the present invention is a method for providing location information from a signaling server selected from a signaling server list generated in consideration of a resource availability of a signaling server and a connection location of a caller, ; Generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the generated location information in a location information response; And providing the location information response corresponding to the location information request to the signaling server.

At this time, the location information providing method may further include transmitting a push request for registration of any one of the incoming signaling server and the called party.

In this case, the step of generating the location information and including it in the location information response may include the location information of the destination signaling server obtained by the registration performed based on the push request in the location information response.

At this time, the push request can be used when the invite message is transmitted to the called party but there is no response for a predetermined time, and when the address information of the incoming signaling server is not registered.

In this case, the step of generating location information and incorporating the location information into the location information response may include storing the context information in the database after the push request is transmitted, and if the registration is completed, using the context information, Can be generated.

At this time, in the step of receiving the location information request, it is determined whether the IP corresponding to the connection request is registered IP in response to a TCP (Transmission Control Protocol) connection request from the signaling server, The connection request can be accepted or disconnected.

Also, an Internet telephone server system according to an embodiment of the present invention includes: a relay server for transmitting / receiving a voice packet between a calling party and a called party; A signaling server for performing a call setup for transmitting / receiving the voice packet; A provisioning server for providing a relay server list and a signaling server list for connection of the caller in consideration of the resource availability of the relay server and the signaling server and the IP of the caller; And a location server for providing the location information of the called signaling server corresponding to the called party in response to the request of the signaling server.

According to the present invention, it is possible to efficiently provide the called party or location information for the mobile Internet telephone service.

In addition, the present invention can set a call even when signaling server location information corresponding to a called party is not registered in a location server.

In addition, when the registration of the called party is induced through the push message transmission in cooperation with the messenger server, the context information may be stored in the database upon sending the push message, and the location information response message may be transmitted promptly after registration.

In addition, the present invention can enhance the security of the location server by allowing the location server to provide location information only to registered IP servers.

1 is a block diagram illustrating a mobile Internet telephone server system according to an embodiment of the present invention.
2 is an operational flowchart illustrating an example of a call processing scenario of the mobile Internet telephone server system shown in FIG.
3 is a flowchart illustrating another example of a call processing scenario of the mobile Internet telephone server system shown in FIG.
4 is a flowchart illustrating another example of a call processing scenario of the mobile Internet telephone server system shown in FIG.
5 is a block diagram showing the location server shown in FIG.
6 is a flowchart illustrating a method of providing location information for a mobile Internet telephone service according to an embodiment of the present invention.
7 and 8 are views showing load balancing and fault management functions of a location server.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

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

1 is a block diagram illustrating a mobile Internet telephone server system according to an embodiment of the present invention.

Referring to FIG. 1, a mobile Internet telephone server system 100 according to an embodiment of the present invention includes a provisioning server 110, a signaling server 120, a relay server 130, and a location server 140.

As shown in FIG. 1, the mobile Internet telephone server system may further include a messenger server 150.

The mobile Internet telephone client 170 includes a Wi-Fi network client 171 connected to the mobile Internet telephone server system via a Wi-Fi network and a mobile data network client 173 connected to the mobile Internet telephone server system through the 3G / 4G network do.

At this time, the WiFi network client 171 and the mobile data network client 173 may be connected to a personal computer (PC), a notebook computer, a mobile phone, a tablet PC, a navigation, a smart phone, a PDA (Personal Digital Assistants), PMP (Portable Multimedia Player), or DVB (Digital Video Broadcasting).

In this case, the 3G / 4G network shown in FIG. 1 is a concept covering both existing networks and networks that can be developed in the future. For example, a 3G / 4G network is a network that provides high-capacity data transmission and reception services through Internet Protocol (IP) (3G) mobile communication network including Wibro (Wireless Broadband) network, WCDMA, HSDPA (High Speed Downlink Packet Access) network, 3.5G mobile communication network including LTE network, A fourth generation mobile communication network, and a satellite communication network.

The provisioning server 110 is connected to the mobile Internet telephone client 170 in cooperation with the location server 140, the signaling server 120, the relay server 130 and the mobile Internet telephone client 170 corresponding to the caller or the called party. Provides relay server list and signaling server list, and performs server resource management and client authentication functions. At this time, the client authentication function may be performed in conjunction with the location server 140.

That is, the provisioning server 110 provides a relay server list and a signaling server list for the caller's connection considering the resource availability of each of the signaling server 120 and the relay server 130 and the connection position of the caller. At this time, the connection position may correspond to the IP (IP).

At this time, the provisioning server 110 periodically collects and manages the resource usage of each of the signaling server 120 and the relay server 130 in cooperation with the signaling server 120 and the relay server 130. At this time, the resource usage may be the number of connection sessions to IP-specific ports.

In addition, the provisioning server 110 may transmit an appropriate server list in consideration of the connection location of the terminal and the resource availability of each of the signaling server 120 and the relay server 130 in response to the request of the terminal. At this time, the provisioning server 110 can acquire the connection position of the terminal based on the IP of the terminal.

The provisioning server 110 performs user authentication on a message from the mobile Internet telephone client 170 corresponding to a caller and performs authentication with the signaling server 120 and the relay server 130 Related information.

At this time, the provisioning server 110 may include a predetermined number of relay servers and signaling servers close to the connection location in the relay server list and the signaling server list.

1, the provisioning server 110 is connected to the mobile Internet telephone client 170 via one of two or more L4 switches, and the L4 switches can perform load balancing and traffic automatic switching have.

The location server 140 provides the location of the incoming signaling server corresponding to the called party in response to the request of the signaling server 120. [

At this time, the location server 140 transmits a push request for registration of either the called signaling server or the called party to the messenger server 150, and acquires the registration request based on the registration performed based on the push request The location of the incoming signaling server.

When the location server 140 transmits a push request to the messenger server 150 and a push response is received from the messenger server 150, the location server 140 transmits a location-information-answer (LIA) And may store context information for transmitting the message. When the registration of the incoming signaling server is completed after storing the context information, the stored context information can be searched to quickly perform the response processing for the location inquiry.

At this time, the location server 140 is connected to one or more of the provisioning server 110, the signaling server 120, and the relay server 130 through one of two or more L4 switches, Can operate.

The relay server 130 transmits / receives a voice packet between a caller and a called party for an mVoIP call.

The signaling server 120 performs a call setup for transmitting / receiving the voice packet.

In this case, the signaling server 120 transmits a location-information-request (LIR) message to the location server 140 for mVoIP call setup, Info-Answer (LIA) message.

In addition, the signaling server 120 may send an Invite message to the called party in response to the Invite message from the sender. At this time, the signaling server 120 can transmit the invite message to the called party through the incoming signaling server. At this time, the called party can send a message to the relay server 130 to register its IP to the relay server 130 based on the invite message.

At this time, the signaling server 120 may communicate with the caller or the called party according to the TCP / IP protocol.

At this time, the signaling server 120 is connected to the mobile Internet telephone client 170 through one of two or more L4 switches, and the L4 switches can perform load balancing and traffic auto switching.

At this time, the signaling server 120 can perform automatic connection cancellation for subscribers who have not attempted to set up a call for more than a predetermined time in the connected subscribers.

The relay server 130 performs port binding when peer-to-peer (P2P) connection through an ICE (Interactive Connectivity Establishment) between a sender and a receiver is impossible and transmits a packet between a sender and a receiver Can be relayed.

At this time, the relay server 130 may be selected from the relay servers in the relay server list in a round robin manner.

2 is an operational flowchart illustrating an example of a call processing scenario of the mobile Internet telephone server system shown in FIG.

Referring to FIG. 2, the caller (originator terminal) 210 requests the relay server 130 to bind the sender IP (S211). The relay server 130 performs a caller IP binding on the basis of the caller IP binding (S131), and transmits a caller IP binding response to the caller 210 (S132).

At this time, the relay server 130 may be selected from the relay server list provided by the provisioning server in consideration of the resource availability of the relay servers and the connection position of the sender 210.

At this time, the relay server list may include a predetermined number of relay servers close to the connection location, and the resource availability is high.

The originator 210 having received the IP binding response transmits an invite message for establishing a call with the called party 220 to the originating signaling server 121 (S212).

At this time, the outgoing signaling server 121 may be selected from the signaling server list provided by the provisioning server in consideration of the resource availability of the signaling servers and the connection location of the sender 210.

At this time, the signaling server list may include a predetermined number of signaling servers close to the connection location, wherein the resource availability is high.

The originating signaling server 121 receiving the Invite message transmits a Location-Info-Request (LIR) message to the location server 140 (S120) and transmits a Trying message (S121).

The location server 140 receiving the location information request message transmits a location-information-answer (LIA) message including the location information of the incoming signaling server 123 to the originating signaling server 121 (S 141) .

According to an embodiment, the incoming signaling server 123 may be identified by a registration performed by a push request sent from the location server 140 via the messenger server.

Since the originating signaling server 121 grasps the location (IP) of the destination signaling server 123 through the location information response message, it transmits an Invite message to the called party (called terminal 220) via the incoming signaling server 123 (S122).

The called party 220 receiving the Invite message transmits a tracing message to the incoming signaling server 123 at step S221 and the incoming signaling server 123 relays the tracing message to the originating signaling server 121 ).

Also, the receiver 220 recognizes the address of the relay server 130 through the invite message and requests the relay server 130 to bind the receiver IP (S223). The relay server 130 performs the IP binding on the called party (S133) and transmits the called party IP binding response to the called party 220 (S134).

The called party 220 transmits a ringing message to the calling signaling server 121 upon receiving the called party IP binding response at step S224 and the calling signaling server 121 relays the message to the calling party 210. [

Thereafter, a P2P connection session between the caller 210 and the called party 220 via the ICE (Interactive Connectivity Establishment) or a relay connection session via the relay server 130 is established (S230) -up and the ACK of the sender 210 are transmitted / received (S240).

3 is a flowchart illustrating another example of a call processing scenario of the mobile Internet telephone server system shown in FIG.

Referring to FIG. 3, a sender (sender terminal) 310 requests a sender IP binding to the relay server 130 (S211). The relay server 130 performs a caller IP binding on the basis of the caller IP binding (S131) and transmits a caller IP binding response to the caller 310 (S132).

At this time, the relay server 130 may be selected from the relay server list provided by the provisioning server in consideration of the resource availability of the relay servers and the connection position of the sender 310.

At this time, the relay server list may include a predetermined number of relay servers close to the connection location, and the resource availability is high.

The originator 310 having received the IP binding response transmits an invite message for establishing a call with the called party 320 to the originating signaling server 321 (S212).

At this time, the outgoing signaling server 321 may be selected from the signaling server list provided by the provisioning server in consideration of the resource availability of the signaling servers and the connection location of the sender 310.

At this time, the signaling server list may include a predetermined number of signaling servers close to the connection location, wherein the resource availability is high.

The originating signaling server 321 receiving the invite message confirms that the called party 320 is a registered user and transmits the invite message to the called party 320 without transmitting the location information request message to the location server (S322).

The originating signaling server 321 transmits a tricking message to the sender 310 after transmitting the invite message (S321).

The called party 320 receiving the invite message transmits a tracing message to the originating signaling server 321 (S321).

Also, the receiver 320 recognizes the address of the relay server 130 through the invite message and requests the relay server 130 to bind the receiver IP (S323). The relay server 130 performs the IP binding on the called party (S133) and transmits the called party IP binding response to the called party 220 (S134).

The called party 320 transmits a ringing message to the originating signaling server 321 upon receiving the called party IP binding response in step S324 and the originating signaling server 321 relays the ringing message to the originator 310. [

Thereafter, a P2P connection session between the caller 310 and the called party 320 via the ICE (Interactive Connectivity Establishment) or a relay connection session via the relay server 130 is established (S330) -up and the ACK of the sender 310 are transmitted / received (S340).

4 is a flowchart illustrating another example of a call processing scenario of the mobile Internet telephone server system shown in FIG.

Referring to FIG. 4, the sender (originator terminal) 410 requests the relay server 130 to bind the sender IP (S211). The relay server 130 performs the sender IP binding and transmits the sender IP binding response to the sender 410 (S132).

At this time, the relay server 130 may be selected from the relay server list provided by the provisioning server in consideration of the resource availability of the relay servers and the connection position of the sender 410.

At this time, the relay server list may include a predetermined number of relay servers close to the connection location, and the resource availability is high.

The originator 410 having received the IP binding response transmits an invite message for establishing a call with the called party 420 to the originating signaling server 421 (S212).

At this time, the originating signaling server 421 may be selected from the signaling server list provided by the provisioning server in consideration of the resource availability of the signaling servers and the connection location of the originator 410.

At this time, the signaling server list may include a predetermined number of signaling servers close to the connection location, wherein the resource availability is high.

The originating signaling server 421 having received the Invite message transmits a Location-Info-Request (LIR) message to the location server 440 in operation S420 and transmits a Trying message (S121).

The location server 440 receiving the location information request message transmits a push request to the messenger server 450 to generate a location-information-answer (LIA) message including the location information of the incoming signaling server 423 (S441).

Upon receiving the push request, the messenger server 450 pushes the message to the called party 420 (S442), and transmits the push response to the location server 440 (S443).

The called party 420 having received the message push transmits a push response to the messenger server 450 (S444).

In addition, the called party 420 receiving the message push performs the authentication procedure for the location server through the incoming signaling server 423 (S445), and performs the registration process through the incoming signaling server (S446).

The location server 440 transmits a location information response message including the location information of the incoming signaling server 423 to the originating signaling server 421 and the originating signaling server 422, (S441).

Since the originating signaling server 421 grasps the location (IP) of the incoming signaling server 423 through the location information response message, the originating signaling server 421 transmits the invite message to the called party (called terminal 420) via the incoming signaling server 423 (S422).

The called party 420 having received the invite message transmits a negotiation message to the incoming signaling server 423 and the incoming signaling server 423 relays the negotiation message to the originating signaling server 421 at step S423.

Also, the receiver 420 recognizes the address of the relay server 130 through the Invite message and requests the relay server 130 to bind the receiver IP (S425). The relay server 130 performs the receiver IP binding and transmits the receiver IP binding response to the receiver 420 (S134).

The called party 420 transmits a ringing message to the originating signaling server 421 upon receiving the called party IP binding response at step S424 and the originating signaling server 421 relays the ringing message to the calling party 410. [

Thereafter, a P2P connection session between the sender 410 and the called party 420 via the ICE (Interactive Connectivity Establishment) or a relay connection session via the relay server 130 is established, and the pick- And an ACK of the sender 410 are transmitted / received (S440).

5 is a block diagram showing the location server 140 shown in FIG.

5, the location server 140 includes a server interface unit 510, a request processing unit 520, a subscriber management unit 530, and a messenger server interface unit 540.

According to the embodiment, the subscriber management unit 530 and the messenger server interface unit 540 may be integrated with other components or not.

The server interface unit 510 receives a location information request from the signaling server and provides a location information response corresponding to the location information request to the signaling server.

At this time, the signaling server may be one selected from the signaling server list generated by the provisioning server in consideration of the resource availability of the signaling server and the connection position of the sender.

The server interface unit 510 determines whether the IP corresponding to the connection request is a registered IP in response to a TCP connection request from the signaling server or the provisioning server, Accept the connection request, and disconnect the connection request if it is not the registered IP.

The server interface unit 510 functions as a TCP server and performs a TCP connection management function for each client (provisioning server, signaling server, and relay server).

In addition, the server interface unit 510 has a function of responding to a keep alive message transmitted from each server when a login succeeds after a TCP connection with a provisioning server, a signaling server, and a relay server, The message can be processed.

In response to the request for location information, the request processing unit 520 generates location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet by the signaling server, and includes the location information in the location information response .

At this time, the request processing unit 520 can process authentication, registration, unregistration, location inquiry, push request, and the like.

The messenger server interface unit 540 transmits a push request for registration of any one of the incoming signaling server and the called party.

At this time, the request processing unit 520 may include the location information of the incoming signaling server obtained by the registration performed based on the push request in the location information response.

At this time, the request processing unit 520 transmits a push request through the messenger server interface unit in response to the authentication request from the signaling server or the provisioning server, and responds to the authentication request by the registration performed based on the push request Authentication can be performed.

At this time, the push request may be used when the invite message is transmitted to the called party but there is no response for a predetermined time, and when the address information of the incoming signaling server is not registered.

At this time, the request processing unit 520 stores the context information in the database after the push request is transmitted, and when the registration is completed, the request processing unit 520 can instantly generate the location information of the incoming signaling server using the context information have. That is, the request processing unit 520 may determine whether the corresponding ID is included in the context information after registration, and may promptly transmit the location information response when it is determined that the corresponding ID is included in the context information.

The subscriber management unit 530 performs a function of creating, changing, inquiring, and deleting the subscriber database. At this time, location information corresponding to the subscriber may be stored in the subscriber database. In this case, the location information may correspond to IP and Port information.

The request processing unit 520 may cause the subscriber management unit 530 to store location information of the corresponding subscriber in response to the registration request from the signaling server or the provisioning server.

In this case, the location information may correspond to IP and Port information.

The location server shown in FIG. 5 is connected to one or more of the provisioning server, the signaling server, and the relay server through one of two or more L4 switches, and can operate in conjunction with a separate database server.

6 is a flowchart illustrating a method of providing location information for a mobile Internet telephone service according to an embodiment of the present invention.

Referring to FIG. 6, a location information providing method for a mobile Internet telephone service according to an embodiment of the present invention receives a location information request from a signaling server (S610).

At this time, the signaling server may be one selected from the signaling server list generated by the provisioning server in consideration of the resource availability of the signaling server and the connection position of the sender.

In this case, the step S610 determines whether the IP corresponding to the connection request is registered IP in response to a TCP (Transmission Control Protocol) connection request from the signaling server, The connection request can then be accepted or disconnected.

In addition, a method of providing location information for a mobile Internet telephone service according to an embodiment of the present invention includes the steps of: (a) receiving a location information request message from a signaling server in response to a location information request, The location information of the incoming signaling server is generated and included in the location information response (S620).

Although not shown in FIG. 6, a location information providing method for a mobile Internet telephone service according to an embodiment of the present invention includes transmitting a push request for registration of at least one of the incoming signaling server and the called party As shown in FIG.

At this time, the step S620 may include the location information of the incoming signaling server obtained by the registration performed based on the push request in the location information response.

At this time, the push request may be used when the invite message is transmitted to the called party but there is no response for a predetermined time, and when the address information of the incoming signaling server is not registered.

In this case, the step S620 may store the context information in the database after the push request is transmitted, and if the registration is completed, the location information of the incoming signaling server may be generated instantly using the context information .

In addition, the method of providing location information for a mobile Internet telephone service according to an embodiment of the present invention provides the location information response corresponding to the location information request to the signaling server (S630).

7 and 8 are views showing load balancing and fault management functions of a location server.

Referring to FIG. 7, it can be seen that the location server system operates as a pair of two location servers 1010 and 1020 in an active-standby configuration.

When a failure occurs in the location server 1010, automatic switching is performed to the location server 1020. To this end, the data of the location server 1010 can be replicated to the location server 1020 in real time.

The location server system initially implements the fault management with the configuration shown in FIG. 7, and can migrate to the database server system when a large capacity subscriber needs to be accommodated thereafter.

8, the location server system includes L4 switches 1110 and 1120, location servers 1130-1, 1130-2, ..., 1130-N and database servers 1140 and 1150 .

It can be seen that the location servers 1130-1, 1130-2, ..., 1130-N are connected to the terminal or another server through one of the two or more L4 switches 1110, 1120, respectively.

At this time, the L4 switches 1110 and 1120 can distribute the traffic to the location servers 1130-1, 1130-2, ..., and 1130-N, and can perform traffic automatic switching in case of a server failure .

As described above, the connection with the location server is made through the L4 switches 1110 and 1120, so that the load distribution can be induced and the failure can be quickly responded to by the automatic traffic switching.

Further, the location servers 1130-1, 1130-2, ..., 1130-N may operate in conjunction with one of the two or more database servers 1140, 1150, respectively. The location servers 1130-1, 1130-2, ..., and 1130-N may operate in conjunction with the database server 1150 when a failure occurs in the database server 1140, respectively.

Each step shown in Fig. 6 can be performed in the order shown in Fig. 6, or in reverse order or simultaneously.

The location information providing method for mobile Internet telephone service according to the present invention may be implemented in the form of a program command which can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks, and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Includes all types of hardware devices that are specially configured to store and execute magneto-optical media and program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions may include machine language code such as those generated by a compiler, as well as high-level language code that may be executed by a computer using an interpreter or the like. Such a hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the mobile Internet telephone server system, the location information providing method for the Internet telephone service and the apparatus therefor according to the present invention are not limited to the configuration and method of the embodiments described above, The embodiments may be configured such that all or some of the embodiments are selectively combined so that various modifications can be made.

According to the present invention, the mobile internet telephone server system can be configured by appropriately distributing functions for the mVoIP service while properly distributing server load. Furthermore, by appropriately distributing the load of the server system, it is possible to reduce the cost of constructing the server system and appropriately allocate the role of each operation subject of the server system, thereby reducing the cost of maintenance of the server system. By sending a push message, location information of an unregistered subscriber can be provided, which can contribute to the activation of the mVoIP service.

100: Mobile Internet Phone Server System
110: Provisioning server
120: Signaling server
130: Relay server
140: Location server
150: Messenger server
170: Mobile Internet Phone Client
171: Wi-Fi network client
173: 3G / 4G network client
510: Server Interface Unit
520:
530: Subscriber Management Section
540: messenger server interface part

Claims (19)

delete The provisioning server receives a location information request from the signaling server selected from the signaling server list, which is generated in consideration of the resource availability of the signaling server and the connection location of the sender, and transmits a location information response corresponding to the location information request to the signaling server A server interface unit provided to the server;
A request processing unit for generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the location information in the location information response; And
And a messenger server interface unit for transmitting a push request for registration of at least one of the incoming signaling server and the called party. The method of claim 2,
The request processing unit
Wherein the location information includes the location information of the incoming signaling server obtained by the registration performed based on the push request in the location information response. The method of claim 3,
The push request
Wherein the location server is used when the Invite message is sent to the called party but there is no response for a predetermined time and when the address information of the incoming signaling server is not registered. The method of claim 2,
The request processing unit
Wherein the context information is stored in a database after the push request is transmitted and when the registration is completed, the location information of the called signaling server is generated instantly using the context information Location server. The provisioning server receives a location information request from the signaling server selected from the signaling server list, which is generated in consideration of the resource availability of the signaling server and the connection location of the sender, and transmits a location information response corresponding to the location information request to the signaling server A server interface unit provided to the server; And
And a request processing unit for generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the generated location information in the location information response ,
The server interface unit
Determines whether an IP (IP) corresponding to the connection request is registered IP in response to a TCP connection request from the signaling server or the provisioning server, and transmits a connection request according to whether the IP is a registered IP Accepting or disconnecting the mobile Internet telephone service. The method of claim 2,
The request processing unit
And transmits the push request through the messenger server interface unit in response to the authentication request from the signaling server or the provisioning server and performs authentication corresponding to the authentication request by the registration performed based on the push request. Location Server for Mobile Internet Phone Service. The method of claim 2,
The location server
And a subscriber management unit for performing a function of creating, changing, inquiring and deleting a subscriber database. The method of claim 8,
The request processing unit
Wherein the subscriber management unit stores the location information of the subscriber in response to a registration request from the signaling server or the provisioning server. The method of claim 2,
The location information
IP < / RTI > and Port information. ≪ Desc / Clms Page number 13 > The provisioning server receives a location information request from the signaling server selected from the signaling server list, which is generated in consideration of the resource availability of the signaling server and the connection location of the sender, and transmits a location information response corresponding to the location information request to the signaling server A server interface unit provided to the server; And
And a request processing unit for generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the generated location information in the location information response ,
Wherein the location server is connected to at least one of the provisioning server, the signaling server, and the relay server through one of two or more L4 switches, and operates in cooperation with a separate database server. Location server. delete Receiving a request for location information from the signaling server selected from a signaling server list generated by the provisioning server in consideration of a resource availability of the signaling server and a connection location of a sender;
Generating location information of an incoming signaling server necessary for performing a call setup for transmitting / receiving a voice packet in response to the location information request and including the generated location information in a location information response;
Providing the location information response corresponding to the location information request to the signaling server; And
And transmitting a push request for registration of at least one of the incoming signaling server and the called party. 14. The method of claim 13,
The step of generating and incorporating the location information into the location information response
Wherein the location information includes the location information of the incoming signaling server obtained by the registration performed based on the push request in the location information response. 15. The method of claim 14,
The push request
Wherein the method is used when the Invite message is sent to the called party but there is no response for a predetermined time and when the address information of the incoming signaling server is not registered. 14. The method of claim 13,
The step of generating and incorporating the location information into the location information response
Wherein the context information is stored in a database after the push request is transmitted and when the registration is completed, the location information of the called signaling server is generated instantly using the context information How to provide location information. 14. The method of claim 13,
The step of receiving the location information request
Determines whether the IP corresponding to the connection request is an IP registered in response to a TCP connection request from the signaling server, accepts a connection request according to whether the IP is a registered IP, And disconnecting the mobile terminal from the mobile terminal. A recording medium on which a program for executing the method according to any one of claims 13 to 17 is recorded. A relay server for transmitting / receiving a voice packet between a calling party and a called party;
A signaling server for performing a call setup for transmitting / receiving the voice packet;
A provisioning server for providing a relay server list and a signaling server list for connection of the caller in consideration of the resource availability of the relay server and the signaling server and the IP of the caller; And
And a location server for providing location information of an incoming signaling server corresponding to the called party in response to a request from the signaling server,
The location server
And a messenger server interface unit for transmitting a push request for registration of any one of the incoming signaling server and the called party.

Images