KR100895283B1 - Apparatus and call setup method for providing mobile voip service - Google Patents

Abstract

A method for offering the mobile VoIP service and a call connection method are provided to offer the service having the same quality as that of the existing PSTN while a terminal is moving, in case the terminal uses the mobile VoIP service in a BcN(Broadband Convergence Network). A local IP address is obtained from a originating-side terminal(S310). When an SIP(Session Initiation Protocol) message including a call connection request is received from the originating-side terminal, the call connection request is transmitted to a destination-side terminal(S330-1~S330-5,S350-1~S350-5). The call session is established between the originating-side terminal and destination-side terminal by referring to the local IP address.

Description

Mobile AP service providing device and call connection method {APPARATUS AND CALL SETUP METHOD FOR PROVIDING MOBILE VoIP SERVICE}

The present invention relates to a VoIP service, and more particularly, to an apparatus for providing a mobile Voice over Internet Protocol (VoIP) service and a call connection method.

Recently, the network is being formed through the Internet, and its use is also increasing. As a result, the telephone service provided through the existing PSTN is being converted to Voice over Internet Protocol (VoIP).

VoIP is a communication service technology that converts voice data into Internet Protocol (IP) data packets to enable calls over a general telephone network. VoIP uses session protocols such as Session Initiation Protocol (SIP) to create, modify, and terminate sessions. SIP is designed to be used regardless of the type of session created, and can be used for session control of various types of multimedia services as well as Internet telephony.

The existing SIP-based VoIP network consists of UA (User Agent), SIP Register Server, and SIP Proxy Server. SIP-based VoIP is composed of Internet-based telephone network using fixed terminal device. However, there are problems such as mobility, carrier network protection, management, and billing for use as a session control structure in the next generation network integration environment.

IP Multimedia Subsystem (IMS) of 3rd Generation Partnership Project (3GPP) is a structure that compensates for the shortcomings to provide SIP-based session control infrastructure to provider networks. IMS works with network transport layer for easy delivery of IP multimedia services and makes it easy to develop various application services. Especially, third-party service providers, not network operators, use IMS to connect with IMS. It enables to develop interlocked services.

SUMMARY OF THE INVENTION The present invention is derived from such a background, and aims to increase mobility between networks in a broadband integrated network in a VoIP service, and to maintain a seamless connection even during the movement of a service using terminal.

The technical problem is a step of obtaining a local IP address (Local IP Address) from the calling terminal in accordance with the present invention; Receiving a Session Initiation Protocol (SIP) message including a call connection request from the calling terminal and transmitting a call connection request to a receiving terminal; If there is a response from the originating terminal to the call connection request, setting up a call session between the originating terminal and the receiving terminal with reference to the originating terminal local IP address, wherein the originating terminal is already assigned. In addition to the fixed IP address (Permanent IP Address) is achieved by a call connection method for providing a mobile VoIP service, characterized in that the local IP address is assigned from a Dynamic Host Configuration Protocol (DHCP) server.

In the obtaining of the local IP address, the fixed IP address may be obtained together with the local IP address from the calling terminal, and the stored local IP address and the fixed IP address may be matched and stored.

On the other hand, the technical problem is obtained by obtaining a local IP address of the calling terminal and stored in accordance with the fixed IP address already assigned to the calling terminal, the mobility control unit for recognizing the location of the calling terminal; And transmitting a SIP message including a call connection request to a receiving terminal according to the call connection request of the calling terminal, acquiring the location information of the calling terminal from the mobility control unit according to a response from the receiving terminal, and setting up a call session. It is also achieved by a mobile VoIP service providing apparatus characterized by including a call service control unit.

According to the present invention, in using a mobile VoIP service in a broadband integrated network, a high quality service of the existing PSTN level is possible while moving, and an IP-based seamless service can be provided.

Accordingly, it is possible to improve the profitability of the service provider and provide convenience to the service subscriber.

The foregoing and further aspects of the present invention will become more apparent through the preferred embodiments described with reference to the accompanying drawings. Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through these embodiments.

1 is a block diagram of a mobile VoIP service providing apparatus according to an embodiment of the present invention.

As shown in FIG. 1, the apparatus for providing VoIP service according to the present invention includes a mobility control unit 20 and a call service control unit 30.

The calling terminal 10a and the called terminal 10b may be implemented as a mobile phone, a cellular phone, etc. as a multi-band mobile communication terminal (terminal) that can be connected to various wireless access networks. In this embodiment, the calling terminal 10a and the called terminal 10b have a multi band / multi mode function. In addition, the originating terminal 10a has both a newly assigned local IP address and a fixed IP address that does not change each time the access network is changed. At this time, the fixed IP address is downloaded in the form of software from the mobility control unit 20 which will be described later.

When the network changes, the originating terminal 10a obtains a newly assigned local IP address from a Dynamic Host Configuration Protocol (DHCP) server and transmits it to the mobility control unit 20.

The originating terminal 10a generates and transmits a SIP message including a call connection request.

Session Initiation Protocol (SIP) is a protocol corresponding to H.323 of ITU-T and controls multimedia sessions or calls. SIP is a simple text-based application layer control protocol that is easy to implement and compatible with other services.

In this embodiment, the SIP message received from the originating terminal 10a is a SIP Invite message, which includes a Session Description Protocol (SDP) including network QoS information.

DHCP is a protocol that allows you to configure IP and other information related to a host, the details of which are described in the RFC 2131 document. DHCP is a protocol that allows network administrators to centrally manage and assign IP addresses on an organization's network. DHCP centrally manages and assigns IP addresses to network administrators, and automatically transmits new local IP addresses when terminals 10a and 10b are connected to other locations in the network.

The mobility control unit 20 controls the mobility of the terminal and forms an IMS interface with the network control unit 40 to be described later for allocating network resources according to the movement of the terminal. The mobility control unit 20 obtains the local IP address of the originating terminal from the originating terminal 10a, matches it with the fixed IP address that has already been allocated to the called terminal, stores it, and manages it.

The call service control unit 30 is a component for processing a call signal of a user, and includes a call session control function (CSCF) server. The CSCF handles subscriber registration, authentication, billing, service-specific triggering and routing to the application server, caller location lookup, compression and decompression of SIP messages, and performs user session setup, adjustment, and management. It is linked with HSS (Home Subscriber Server) which stores subscriber profile information, authentication and location related data. This is an infrastructure system that performs basic functions for SIP-based multimedia session control and can be divided into P-CSCF (Proxy-CSCF), I-CSCF (Interrogating-CSCF), and S-CSCF (Serving-CSCF). .

The P-CSCF is the first point of access to the user terminal in the IMS network, and serves as a proxy between the user terminal and the I-CSCF during SIP registration. In addition, the SIP call setup serves as a proxy between the terminal and the S-CSCF, and performs security management (IPsec in the UNI section) between the P-CSCF and each user terminal.

The I-CSCF is the first point point of one provider network, where the called terminal finds the registered S-CSCF or finds the originating S-CSCF of the user who roams into the service area of the current provider network. In addition, it performs a Topology Hiding Inter-network Gateway (THIG) function to prevent exposure of configuration, capacity, and topology information of the operator's network to the outside. In this embodiment, the I-CSCF grasps the network to which the called terminal 10b belongs from the interworking HSS, and transmits a SIP message including a call connection request to the registered S-CSCF.

The S-CSCF registers that the server controls the session of the user terminal in the home subscriber server (HSS), and acquires and stores subscriber information of the user terminal. In addition, session control and state management are performed for the registered UE. It interworks with other application servers to provide various services, or forwards SIP request and response messages to the Breakout Gateway Control Function (BGCF) to route messages sent through the PSTN. In the present embodiment, the S-CSCF grasps the information of the called terminal 10b based on the received SIP message, and selects the P-CSCF in the network, including the SIP message including the call connection request received from the calling terminal 10a. Via the transmission to the destination terminal 10b.

According to a further aspect, the apparatus for providing mobile VoIP service according to an embodiment of the present invention further includes a network control unit 40. The network control unit 40 performs allocation and release of network resources for the call according to the QoS information received from the call service control unit 30. In this embodiment, the network control unit 40 reserves network resources by sending a resource allocation message to network nodes existing on the path of voice traffic based on the QoS setting information.

2 is a flowchart of a method for providing mobile VoIP service according to an embodiment of the present invention.

First, if there is a call connection request from the called terminal (S200), the local IP address is obtained and managed together with the fixed IP address of the called terminal (S210). At this time, a SIP message including a call connection request is received from the called terminal.

Thereafter, the receiving terminal is identified according to the information included in the received SIP message, and the call connection request is transmitted to the receiving terminal (S200). And waits for a response from the receiving terminal (S230). At this time, the response from the receiving terminal may be a SIP 200 OK message (S240). If a response to the call connection request is received from the receiving terminal, it generates QoS setup information (S250). The network resource for the call session is allocated according to the generated QoS configuration information (S260). Thereafter, the call session is set up by transmitting the SIP 200 OK message received from the called terminal to the calling terminal (S270). At this time, the calling terminal can find out by referring to the acquired local IP address.

Hereinafter, the flow of signals in the mobile VoIP service providing method will be described in more detail with reference to FIG. 3.

3 is a flowchart of a signal in a method for providing mobile VoIP service according to an embodiment of the present invention.

First, the calling terminal is assigned a local IP address from the DHCP (25) (S300). The local IP address is a value assigned differently according to the network to which the calling terminal 10a belongs, and the value may be changed every time the calling terminal moves. The originating terminal 10a transmits the obtained local IP address to the mobility control unit 20 (S310).

Then, the mobility control unit 20 matches, stores, and manages the static IP address already assigned to the calling terminal 10a and the newly allocated local IP address together (S320). The originating terminal 10a adds a Session Description Protocol (SDP) including a codec and network QoS information to the SIP INVITE message to form a call connection, and transmits it to the call service control unit (S330-1).

More specifically, the originating terminal (10a) transmits the SIP INVITE message to the I-CSCF via the P-CSCF (a) that acts as a proxy at the time of call setup of the network to which it is registered (S330-2). Then, the I-CSCF requests the location information of the called terminal to the interworking HSS, and confirms the network to which the called terminal is registered by receiving the response (S340). Then, the SIP INVITE message received from the P-CSCF (a) is transmitted to the S-CSCF and the P-CSCF (b) in which the called terminal 10b is registered according to the confirmation result (S330-3, S300-4). . The P-CSCF transmits the received SIP INVITE message to the called terminal 10b registered thereto (S330-5). In one embodiment, the destination terminal 10b information may be determined by referring to the URL address of the new parameter included in the SIP INVITE message transmitted from the source terminal 10a.

At this time, when the SIP INVITE message arrives at the called terminal 10b, the called terminal 10a transmits a ring signal to the calling terminal 10a.

When a response to the call connection request is input from the called terminal 10b, the called terminal 10b transmits a SIP 200 OK message, which is a response of the SIP INVITE message, to the P-CSCF (b) to which it is registered (S350). -5). The SIP 200 OK message is transmitted to the reverse side of the path where the SIP INVITE message is transmitted. That is, P-CSCF (b) to S-CSCF (S350-4), S-CSCF to I-CSCF (S350-3), and I-CSCF to P-CSCF (a) (S350-2) do.

Upon receipt of the SIP 200 OK message, the P-CSCF (a) performs network resource allocation to ensure QoS. The P-CSCF (a) generates QoS setup information based on the SDP in the SIP 200 OK message received from the destination terminal 10b for the information to reserve the network resource. The generated QoS setting information is transmitted to the network control unit 40 via the mobility control unit 20 (S360). Then, the network control unit 40 transmits a resource allocation message to network nodes existing on the path of voice traffic based on the QoS setting information to reserve network resources.

The P-CSCF (a) forwards the SIP 200 OK message to the calling terminal 10a after allocating network resources (S350-1), and accordingly, the RTP through the path established between the calling terminal 10a and the called terminal 10b. (Real-Time Transport Protocol) channel is formed.

4 is a flowchart of a signal in a call release method according to an embodiment of the present invention.

In order to release the call, the first terminal desiring to release the call transmits a SIP Bye message to the call service control unit 30 (S400-1). In more detail, the SIP Bye message includes a P-CSCF (a) (S400-2), an I-CSCF (S400-3), a counterpart terminal, that is, a second terminal in which the first terminal is registered in the call service control unit 30. The terminal is sequentially transmitted through the registered S-CSCF and P-CSCF (b) S400-4.

In addition, the SIP Bye message is transmitted to the second terminal which is a call counterpart (S400-5). The second terminal transmits the SIP 200 OK message via the P-CSCF (b) (S410-5), S-CSCF (S410-4), and I-CSCF (S410-3) in response to the received SIP Bye message. To the P-CSCF (a) (S410-2).

The P-CSCF (a) sends QoS release information to the mobility control unit 20 to reclaim the resources that were allocated to each network node for the corresponding call session. The mobility control unit 20 forwards the QoS release information received from the call service control unit 30 to the network control unit 40. The network control unit 40 recovers the resources of the network node that has been allocated for the call session connection between the first terminal and the second terminal based on the received QoS release information.

After the resource is recovered, the call connection between the first terminal and the second terminal is released by the P-SCSF (a) transmitting a SIP 200 OK message to the first terminal (S410-1).

The present invention can be used in the field of call connection and related applications in the apparatus for providing broadband mobile VoIP service between heterogeneous networks using SIP messages.

1 is a block diagram of an apparatus for providing mobile VoIP service according to an embodiment of the present invention;

2 is a flowchart of a method for providing mobile VoIP service according to an embodiment of the present invention;

3 is a flowchart of a signal in a method for providing mobile VoIP service according to an embodiment of the present invention.

4 is a flowchart of a signal in a call release method according to an embodiment of the present invention.

<Explanation of symbols for main parts of the drawings>

20: mobility control unit 25: DHCP

30 call service control unit 40 network control unit

Claims (8)

In the call connection method for providing mobile Voice over Internet Protocol (VoIP) service, Obtaining a local IP address from the calling terminal; Receiving a Session Initiation Protocol (SIP) message including a call connection request from the calling terminal and transmitting a call connection request to a receiving terminal; If there is a response from the originating terminal to the call connection request, setting up a call session between the originating terminal and the receiving terminal with reference to the originating terminal local IP address, wherein the originating terminal is already assigned. Method of connecting a call for providing a mobile VoIP service, characterized in that a local IP address is allocated from a Dynamic Host Configuration Protocol (DHCP) server in addition to a fixed IP address. The method of claim 1, wherein the obtaining of the local IP address comprises: And obtaining the fixed IP address together with the local IP address from the calling terminal, and storing and matching the obtained local IP address with the fixed IP address. The method of claim 2, The SIP message is a call connection method for providing a mobile VoIP service, characterized in that the SIP Invite message, including the Session Description Protocol (SDP) containing the network QoS information. 3. The method of claim 2, wherein the step of setting up the call session is Receiving a SIP 200 OK message in response to a call connection request from the receiving terminal; Generating QoS setup information based on the SDP in the SIP 200 OK message; Allocating network resources based on the QoS configuration information; And setting up a call session by transmitting the SIP 200 OK message to the calling terminal after the resource allocation. A mobility control unit for acquiring a local IP address of a calling terminal, storing the matching IP address with a fixed IP address already assigned to the calling terminal, and recognizing a location of the calling terminal; And A call for setting up a call session by transmitting a SIP message including a call connection request to a receiving terminal according to a call connection request of the calling terminal, acquiring the location information of the calling terminal from the mobility control unit according to a response from the receiving terminal. A mobile VoIP service providing apparatus comprising a service control unit. The method of claim 5, And the SIP message is a SIP Invite message including a Session Description Protocol (SDP) including network QoS information. The method of claim 5, And the call service control unit locates a receiving terminal according to the received call connection request, and transmits the SIP message to a call service control unit in which the receiving terminal is registered. The method of claim 5, And a network control unit for allocating and releasing network resources for the corresponding call according to the QoS information received from the call service control unit.

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