KR100723873B1 - Method and apparatus for providing qos service in multi-protocol lable switching network system - Google Patents

Abstract

Disclosed are a multi-protocol label switching network system and method for providing high quality service. In the multi-protocol label switching network system, the method for providing a high-quality service according to the present invention includes a preset step in which the network management server establishes a bidirectional MPLS tunnel in consideration of QoS parameters of the service between the calling and receiving MPLS edge routers before starting the network service. And a service step of providing a high quality service between the calling terminal and the receiving terminal by controlling the calling and receiving MPLS edge routers to open / close the bidirectional MPLS tunnel at the request of the calling terminal. By providing MPLS tunnel in advance when providing high quality service in the network and opening / closing the MPLS tunnel gate at the service level, high quality service connection can be made at high speed and scale.

Description

Method and Apparatus for Providing High Quality Service in Multiprotocol Label Switching Network System {Method and Apparatus for Providing QoS Service in Multi-Protocol Lable Switching Network System}

1 is a diagram schematically showing an MPLS network system for providing a high quality service according to the present invention.

FIG. 2 is a diagram illustrating a high quality service providing process performed in the system shown in FIG. 1 in detail.

FIG. 3 is a diagram illustrating an embodiment of a method of opening / closing an MPLS tunnel gate by an originating and / or receiving MPLS edge router in the system shown in FIG. 1.

4 is a diagram illustrating an embodiment of a method of opening / closing an MPLS tunnel gate by an originating and / or receiving MPLS edge router in the system shown in FIG. 1.

5 is a block diagram illustrating a high quality service providing apparatus of the present invention.

The present invention relates to an IP / MPLS network system, and more particularly, to a multi-protocol label switching (MPLS) network system and a method for providing a high quality service.

Conventional routing-based IP networks have many difficulties in providing high quality services due to connectionless characteristics. Therefore, in order to provide a high quality service, it is necessary to improve the existing routing scheme. For this purpose, a new routing / switching technique called MPLS has been proposed and applied to the network.

Unlike conventional IP, MPLS creates a tunnel through signaling and transmits packets quickly, and provides a foundation for using an IP network more effectively. As such, since the MPLS scheme uses signaling, efforts have been made in various ways to achieve a high quality service that operates on a signaling basis such as VOIP in conjunction with the signaling of MPLS.

However, the speed of MPLS signaling is too slow to be used for Internet telephony and the scalability is limited. Therefore, the limitation of the MPLS signaling has a lot of problems for practical application.

The technical problem to be achieved by the present invention is to set up the MPLS tunnel in advance in the network and to set / release only the access rights of the tunnel when the actual service is connected, so that a large amount of service connection is established at high speed when connecting a high quality service in the MPLS network. To provide a high quality service providing method and apparatus in a multi-protocol label switching network system.

The method for achieving the above object comprises a source terminal connected to the source MPLS edge router and the destination MPLS edge router via a server having a control channel for controlling the source MPLS edge router and the destination MPLS edge router, respectively; A method for providing a high quality service to a receiving terminal, the method comprising: a preset step of establishing a bidirectional MPLS tunnel in consideration of QoS parameters of a service between the calling party and the receiving MPLS edge router before starting a network service; And a service step of providing a high quality service between the calling terminal and the receiving terminal by controlling the calling and receiving MPLS edge routers to open / close the bidirectional MPLS tunnel at the request of the calling terminal.

An apparatus for achieving the above object is a device for providing a high quality service in a multi-protocol label switching network system comprising a calling MPLS edge router and a receiving MPLS edge router connected to the calling terminal and the receiving terminal, respectively, A setting unit having a control channel controlling a side MPLS edge router and a receiving side MPLS edge router and controlling to establish a bidirectional MPLS tunnel to which a service QoS parameter is applied between the originating side and the receiving side MPLS edge router before network service starts; And a control channel for controlling the calling and receiving MPLS edge routers, and controlling the calling and receiving MPLS edge routers to open / close the bidirectional MPLS tunnels according to the request of the calling terminal. And a service unit that provides a high quality service between receiving terminals.

Hereinafter, a high quality service providing method in a multiprotocol label switching network system according to the present invention will be described with reference to the accompanying drawings.

1 is a diagram schematically showing an MPLS network system for providing a high quality service according to the present invention, wherein the calling high quality service terminal 101, the calling MPLS edge router 102, the network management server 103, the signaling server 104, the receiving MPLS edge router 105 and the receiving high quality service terminal 106.

Referring to FIG. 1, the network management server 103 and the signaling server 104 exist on a network of a network management area, and control to control the calling MPLS edge router 102 and the receiving MPLS edge router 105. It has channels 207 and 208. The network management server 103 establishes a two-way MPLS tunnel to the source and destination MPLS edge routers 102 and 105 in a preset step before network service is started. At this time, the network management server 103 establishes an MPLS tunnel in consideration of QoS parameters of the service, and allows MPLS tunnels in which service QoS parameters are considered between all edge routers of the network. In addition, the signaling server 104 may transmit and receive messages to and from the sender and receiver high quality service terminals 101 and 106 through IP, and through this, the sender and receiver high quality service terminals 101 and 106 may use a signaling server ( 104) a high quality service connection request or a high quality service release request message can be sent. When the signaling server 104 receives a high quality service connection / release request from the calling party and receiving high quality service terminals 101 and 106, the signaling server 104 opens / closes the gates to the calling and receiving MPLS edge routers 102 and 105. Performing the request provides a high quality service connection between the calling party and the receiving party. Between the MPLS edge routers 102 and 105, the MPLS tunnel to which the service QoS parameter is applied by the network management server 103 is established in the preset step, and the high-quality service is applied according to the gate open / close request from the signaling server 104. Open / close the MPLS tunnel.

FIG. 2 is a diagram illustrating a high quality service providing process performed in the system shown in FIG. 1 in detail.

Referring to FIG. 2, the network management server 103 considers the QoS parameters of the service between the calling and receiving MPLS edge routers 102 and 105 in a preset step 200 before the network service starts after network installation as described above. To establish a two-way MPLS tunnel. Specifically, when the network management server 103 requests the MPLS tunnel setting from the MPLS edge router 102 to the MPLS edge router 105 in consideration of QoS parameters (step 202), the MPLS edge router is configured. 102 sets an MPLS tunnel in consideration of QoS parameters to the receiving MPLS edge router 105 (step 204). In addition, when the network management server 103 requests the MPLS tunnel establishment from the MPLS edge router 105 to the MPLS edge router 102 in consideration of the QoS parameters (step 206), the MPLS edge router (step 206) may be used. 105 sets an MPLS tunnel in consideration of QoS parameters to the calling MPLS edge router 102 (step 208). Through this process, a bidirectional MPLS tunnel is established between the calling and receiving MPLS edge routers 101 and 105 in consideration of the QoS parameters of the service. In addition, through this preset step 200, MPLS tunnels considering service QoS parameters are established between all edge routers of the network.

When the preset step 200 as described above is completed, a high quality service is provided through a high quality service request step 217 requesting the MPLS tunnel gate opening and a high quality service release request step 220 requesting the MPLS tunnel gate closing. (215). First, referring to the high quality service request step 215, the calling high quality service terminal 101 transmits a message for requesting service connection to the signaling server 104 existing in the network before transmitting traffic (operation 222). ). The signaling server 104 uses the connection request message information provided from the calling high quality service terminal 101 to open the gate so that a packet having specific header information can use the MPLS tunnel to the calling MPLS edge router 102. Instruction (step 224). The calling MPLS edge router 102 opens the gate of the MPLS tunnel for the packet having the specific header information according to the instruction of the signaling server 104 (step 226). In the case of a one-way service from the calling party to the called party, the calling MPLS edge router 102 may open the MPLS gate. However, in the case of a bidirectional service, the signaling server 104 instructs the receiving MPLS edge router 105 to open an MPLS tunnel for a packet having specific header information toward the calling MPLS edge router 102 (S228). step). The receiving MPLS edge router 102 opens the MPLS tunnel gate for the packet having the specific header information toward the calling MPLS edge router 102 according to the instruction of the signaling server 104 (step 230). Through this process, a bi-directional MPLS tunnel between the receiving side and the calling side MPLS edge routers 105 and 102 may be completed (232) to provide a high quality service.

Subsequently, when the high quality service release step 220 is described, the calling high quality service terminal 101 transmits a message requesting service release to the signaling server 104 when traffic transmission is completed (step 234). . The signaling server 104 instructs the calling MPLS edge router 102 to close the MPLS tunnel toward the receiving MPLS edge router 105 for the packet having the specific header information (step 238). The calling MPLS edge router 102 closes the gate of the MPLS tunnel for the packet having the specific header information according to the instruction of the signaling server 104 (step 240). In the case of a one-way service from the calling party to the called party, the calling MPLS edge router 102 may close the corresponding MPLS gate. However, in the case of a bidirectional service, the signaling server 104 instructs the receiving MPLS edge router 105 to also close the MPLS tunnel for the packet with the specific header information toward the calling MPLS edge router 102 (the second). Step 242). The receiving MPLS edge router 102 closes the MPLS tunnel gate toward the calling MPLS edge router 102 for the packet with the specific header information according to the instruction of the signaling server 104 (step 244). Through this process, the gate of the two-way MPLS tunnel between the receiving side and the originating MPLS edge router 105, 102 is closed (232) and the high quality service is terminated.

As described above, in the MPLS network system according to the present invention, in order to provide a high quality service, the network management server 103 establishes the MPLS tunnel including the QoS parameters of the service in the preset step 200. In the service step 215, when the calling or receiving high quality service terminal 101,106 makes a service connection request to the signaling server 104, the signaling server 104 opens a gate to the calling or receiving MPLS edge router 102,105. By simply requesting / closing, an MPLS tunnel with QoS is connected between the receiving side and the originating side, thereby providing a high quality service. That is, in the MPLS network system according to the present invention, since MPLS signaling does not occur in the service phase to provide QoS, a faster and higher quality service can be provided.

In addition, the MPLS network system according to the present invention can provide not only a single high quality service such as an internet phone but also service connection for several high quality services to which different QoS parameters are applied. That is, in the preset step 200, the network management server 103 may set MPLS tunnels to which QoS is applied between all MPLS edge routers using service QoS parameters for each high quality service. When configuring MPLS tunnels, multiple QoS classes may be applied to one tunnel, or different MPLS tunnels may be configured for each service. The scheme of the present invention is not limited to this tunnel operation scheme. If the MPLS tunnel is set up in this way, in the service step 215, when there is a request for high quality service connection, the corresponding tunnel is found and the gate is opened / closed to provide services of various quality grades.

FIG. 3 is a diagram illustrating an embodiment of a method of opening / closing an MPLS tunnel gate by an originating and / or receiving MPLS edge router 102 and 105 in the system shown in FIG. 1. The FTN (FEC to NHLFE) table is illustrated in FIG. Shows how to open / close the MPLS tunnel gate. In FIG. 3, for convenience of description, the calling-side high quality service terminal 101 provides a service to the receiving-side high quality service terminal 106.

2 and 3, after the MPLS tunnel setup is performed between all MPLS edge routers (steps 202 to 210) in the preset step 200, the signaling server 104 performs a caller high quality service terminal ( Upon receiving the message requesting service connection from 101, the signaling server 104 provides specific header information to the calling MPLS edge router 102 using the information of the transmitted message to receive a packet having the specific header information. Request 300 to open the MPLS tunnel toward the side MPLS edge router 105 (300). Herein, the specific header information is five tuple information consisting of a destination / destination IP address, a destination / destination port, and a protocol. The calling MPLS edge router 102 adds and stores 5 tuple information provided from the signaling server 104 to the FTN table (310). Thereafter, the calling MPLS edge router 102 extracts 5-tuple information from the header of the received packet, and if the extracted 5-tuple information is stored in its FTN table, the packet passes through the MPLS tunnel. Meanwhile, when the signaling server 104 receives a message for requesting service disconnection from the calling high quality service terminal 101, the signaling server 104 transmits 5 tuple information on the corresponding service to the calling MPLS edge router 102. Request to close the MPLS tunnel toward the receiving MPLS edge router 105 while providing (320). The calling MPLS edge router 102 closes the corresponding MPLS tunnel by deleting 330 tuple information provided from the signaling server 104 from the FTN table (330), and terminates the high quality service using the MPLS tunnel.

FIG. 4 is a diagram illustrating an embodiment of a method of opening / closing an MPLS tunnel gate by the source and / or receiving MPLS edge routers 102 and 105 in the system shown in FIG. Point) field is used to open / close the MPLS tunnel gate. In FIG. 4, for convenience of description, the calling-side high quality service terminal 101 provides a service to the receiving-side high quality service terminal 106.

 Referring to FIGS. 2 and 4, after the MPLS tunnel setup is performed between all MPLS edge routers (steps 202 to 210) in the preset step 200, DSCP-MPLS for each service is not shown in FIG. 2. Tunnel mapping information (FTN using DSCP) is preset (400). When the signaling server 104 receives the message requesting the service connection from the calling high quality service terminal 101 in the service step 215, the signaling server 104 uses the information of the transmitted message to send the MPLS edge router. Request 102 to open the MPLS tunnel to the receiving MPLS edge router 105 for the packet with the specific header information (410). Herein, the specific header information is five tuple information consisting of a destination / destination IP address, a destination / destination port, and a protocol. If the calling MPLS edge router 102 is set to DSCP marking a packet having 5 tuple information provided from the signaling server 104 (420), the DSCP marked packet passes through the MPLS tunnel. Meanwhile, when the signaling server 104 receives a message for requesting service disconnection from the calling high quality service terminal 101, the signaling server 104 sends 5 tuple information about a service to the calling MPLS edge router 102. In step 430, the terminal requests to close the MPLS tunnel toward the receiving MPLS edge router 105 for the packet. The originating MPLS edge router 102 releases DSCP marking on the packet with the 5-tuple information provided from the signaling server 104 (440), thereby closing the corresponding MPLS tunnel and terminating the high quality service using the MPLS tunnel. . The described method is a case where the edge router simultaneously performs DSCP marking and MPLS tunnel forwarding using the same. However, if it is difficult for an edge router to simultaneously perform two operations, the signaling server may control the DSCP marking equipment in front of the edge router.

5 is a block diagram of an apparatus for providing a high quality service in a multi-protocol label switching network system according to an embodiment of the present invention. As shown in FIG. 1, the multiprotocol label switching network system includes a calling MPLS edge router and a receiving MPLS edge router connected to a calling terminal and a receiving terminal, respectively.

The setting unit 41 has a control channel for controlling the source MPLS edge router and the destination MPLS edge router, and establishes a bidirectional MPLS tunnel to which the service QoS parameters are applied between the source MPLS edge router and the network service before the network service starts. To control. The service unit 52 has a control channel for controlling the calling and receiving MPLS edge routers, and controls the calling and receiving MPLS edge routers to open / close the bidirectional MPLS tunnels according to the request of the calling terminal. And it provides a high quality service between the receiving terminal. Detailed functions of the setting unit 51 and the service unit 52 will be understood with reference to the description of FIGS. 2 to 4.

The invention can also be embodied as computer readable code on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage, and the like, and are implemented in the form of a carrier wave (for example, transmission over the Internet). It includes being. The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. And functional programs, codes and code segments for implementing the present invention can be easily inferred by programmers in the art to which the present invention belongs.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the above-described specific preferred embodiments, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

As described above, according to the method for providing high quality service in a multi-protocol label switching network system according to the present invention, a method of pre-setting an MPLS tunnel when providing a high quality service in an MPLS network and opening / closing an MPLS tunnel gate in a service step By using it, high quality service connection can be made at high speed and scale.

Claims (8)

A server having a control channel controlling a calling MPLS edge router and a receiving MPLS edge router provides a high quality service to a calling terminal and a receiving terminal connected to the calling MPLS edge router and the receiving MPLS edge router, respectively, through a server. In the way, A preset step of establishing a bidirectional MPLS tunnel in consideration of QoS parameters of a service between the calling and receiving MPLS edge routers before starting a network service; And And providing a high quality service between the calling terminal and the receiving terminal by controlling the calling and receiving MPLS edge routers to open / close the bidirectional MPLS tunnel at the request of the calling terminal. To provide high quality service. The method of claim 1, wherein the service step, When a message for requesting a service connection is transmitted from the originating terminal, specific header information is provided to the calling and receiving MPLS edge routers using the information of the transmitted message, thereby providing the packet with the specific header information. Requesting to open / close the MPLS tunnel in the receiving and originating MPLS edge router directions; And The sending and receiving MPLS edge router stores the information of the packet to be received from the sending and receiving terminal for the MPLS tunnel open request in the FTN table to open the gate so that the packet uses the MPLS tunnel, And closing the gate so that the packet is not transmitted to the MPLS tunnel by deleting corresponding information from the FTN table for the MPLS tunnel close request. 3. The method of claim 2, wherein the specific header information is 5 tuple information consisting of a destination / destination IP address, a destination / destination port, and a protocol. The method of claim 1, wherein the preset step, Controlling the calling MPLS edge router to establish an MPLS tunnel in consideration of the service QoS parameter from the calling MPLS edge router to the receiving MPLS edge router; Controlling the receiving MPLS edge router to establish an MPLS tunnel in consideration of the service QoS parameter from the receiving MPLS edge router to the calling MPLS edge router; And Setting a FTN such that a specific DSCP uses an MPLS tunnel. The method of claim 4, wherein the service step, When a message for requesting service connection is transmitted from the originating terminal, specific header information is provided to the calling and receiving MPLS edge routers using the header information of the transmitted message, thereby providing a packet having the specific header information. Requesting to open / close an MPLS tunnel to the receiving and originating MPLS edge routers; The MPLS edge router of the sending side and the receiving side sets the DSCP marking in the DSCP field of the packet when the packet having the specific header information is received for the MPLS tunnel open request so that the packet is transmitted to the MPLS tunnel, thereby opening the gate. And disabling DSCP marking for the MPLS tunnel cloth request to close the gate so that the packet is not transmitted to the MPLS tunnel. 6. The method of claim 5, wherein the specific header information is five tuples of a destination / destination IP address, a destination / destination port, and a protocol. The method of claim 5, A marking network device is provided at the front end of the calling MPLS edge router, and the marking network device opens / closes a request to the marking network device, and the marking network device receives specific header information in response to the gate open / close request. A method of providing high quality service, characterized in that the MPLS tunnel is opened / closed by setting / releasing DSCP marking in the DSCP field of a packet having a packet. An apparatus for providing a high quality service in a multi-protocol label switching network system including a calling MPLS edge router and a receiving MPLS edge router connected to a calling terminal and a receiving terminal, respectively, A control channel for controlling the calling MPLS edge router and the receiving MPLS edge router, and controlling to establish a bidirectional MPLS tunnel to which service QoS parameters are applied between the calling and receiving MPLS edge routers before network service starts; part; And The source and destination MPLS edge routers have control channels, and the source and destination MPLS edge routers are controlled to open / close the bidirectional MPLS tunnel at the request of the source terminal. High quality service providing apparatus comprising a service unit for providing a high quality service between the receiving terminal.

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