KR20030097255A - Asymmetric digital subscriber line interworking connection control system in asynchronous transfer mode network and method therefor - Google Patents

Abstract

PURPOSE: A system and a method for controlling an ADSL(Asymmetric Digital Subscriber Line) interworking connection in an ATM(Asynchronous Transfer Mode) communication network are provided to effectively operate an ADSL network and a very high speed communication network by calling operation functions with respect to an ADSL subnetwork management system and an ATM subnetwork management system and setting, deleting and changing the ADSL interworking connection according to the called result. CONSTITUTION: An ADSL subnetwork management system(230) controls an ADSL interworking subnetwork connection. ATM subnetwork management systems(240a,240b) control an ATM subnetwork connection. A very high speed NMS(Network Management System)(211) sets a path, in which a corresponding trail is passed, according to an operation calling signal with respect to an ADSL interworking trail. The very high speed NMS(211) calls an operation function with respect to the subnetwork connection to the ADSL subnetwork management system(230) and the ATM subnetwork management systems(240a,240b), and controls connection with an ADSL termination point.

Description

Asymmetric digital subscriber line interworking connection control system in asynchronous transfer mode network and method therefor}

The present invention relates to an ADSL interworking connection control system and method in an asynchronous transmission mode communication network, wherein an ADSL Subscriber Link Termination Point (LTP) and the Internet of a layer network in an asynchronous transmission mode high speed communication network having a hierarchical structure. The present invention relates to an ADSL interworking connection control system and method in an asynchronous transmission mode communication network for establishing, deleting, and changing a connection of a router interworking point-to-point fixed access circuit (PVC).

1 is a conceptual diagram illustrating a relationship between a conventional virtual path layer network and a virtual channel layer network.

Referring to FIG. 1, the configuration of an Asynchronous Transfer Mode (ATM) high-speed communication network is largely divided into a virtual channel (VC) which becomes a client of the virtual path (VP) layer network 3 and the virtual path layer network 3. ; Virtual Channel) It consists of a layer network (1) and a physical layer network (9). The virtual channel layer network 1 is composed of a link connecting the switches 2a to 2c and the switches 2a to 2c. Here, the virtual path layer network 3 and the virtual channel layer network 1 have a client / server relationship. Each layer network is composed of several sub-networks (SNW), and the partial network is connected by a link (8). Each hierarchical network manages the partial network mapped to the ADSL exchange management device as a separate partial network type for the ADSL interworking connection, and this ADSL partial network is interworked with the ADSL link endpoint (7) and the high-speed communication network, which are the ADSL subscriber sections. Has a link endpoint 7. Here, one end-to-end connection of each hierarchical network unit is connected to several exchanges of the sub-network unit, and the connection of the hierarchical network unit is called a trail, and the connection of the sub-network unit is a partial network connection (SNC). Connection is called. In the virtual path layer network 3, each switch 4a to 4d is connected to the virtual path layer network trail 5b, and is connected to the virtual path layer network trail endpoint 6 through the user-manganese trail 5a. In addition, in the physical layer network, the user terminals 10a to 10c are connected to the switches 11a to 11d through a link.

As described above, the trail may be divided into a virtual path trail (VP Trail) generated in the virtual path layer network and a virtual channel trail (VC Trail) generated in the virtual channel layer network. However, since the conventional ADSL switch management device does not use a high speed communication network when providing an ADSL connection service, an apparatus for controlling an operation of an ADSL interlocking trail of a virtual channel layer network via a high speed information communication network should be accommodated. For this new type of network management device, a system and method are needed to enable the creation, deletion, and modification of ADSL subnetwork connections in high-speed communication networks. In addition, there is a need for a part for managing an ADSL-linked virtual channel trail by interworking an ADSL partial network with an asynchronous transmission mode partial network connection.

The present invention was created to solve the above problems, and calls an operation function for the ADSL partial network management device and the asynchronous transmission mode partial network management device that the ADSL interworking line passes, and through the high-speed communication network according to the result. Its purpose is to set up, delete and change ADSL interworking connections so that ADSL network and high speed communication network can be operated effectively.

1 is a conceptual diagram illustrating a relationship between a conventional virtual path layer network and a virtual channel layer network.

2 is a configuration diagram of a virtual channel trail of an ADSL interworking connection control system in an asynchronous transmission mode communication network according to the present invention.

3 is a block diagram of an ADSL interworking connection control system in an asynchronous transmission mode communication network according to the present invention;

4 is a flowchart of a method for generating an ADSL-linked virtual channel trail according to the present invention;

5 is a flowchart of a method for deleting an ADSL-linked virtual channel trail according to the present invention.

6 is a flowchart of a method for changing an ADSL-linked virtual channel trail bandwidth according to the present invention.

ADSL interworking connection control system in an asynchronous transmission mode communication network of the present invention for achieving the above object, the ADSL partial network management device for controlling the ADSL interworking partial network connection, and the asynchronous transmission mode for controlling the asynchronous transmission mode partial network connection Set the path through the corresponding trail according to the operation call signal for the partial network management device and the ADSL interlocking trail, and call the operation function for the partial network connection to the ADSL partial network management device and the asynchronous transmission mode partial network management device. And a high speed network management device for controlling the connection with the system.

In addition, the ADSL interworking connection control method in the asynchronous transmission mode communication network, the first step of determining the asynchronous transmission mode partial network and the ADSL subnetwork to call by checking the path that the trail passes according to the operation call signal for the ADSL interlocking trail; And a second step of identifying a type of a sub-network connection of a trail to be generated, a third step of calling an operation function for an asynchronous transmission mode partial network or an ADSL sub-network connection according to the type of the sub-network connection, And generating a trailing endpoint of the asynchronous transmission mode partial network and the ADSL subnetwork connection to generate an ADSL interworking virtual channel trail.

Hereinafter, with reference to the accompanying drawings will be described in detail an embodiment of the present invention.

3 is a block diagram of an ADSL interworking connection control system in an asynchronous transmission mode communication network according to the present invention.

Referring to FIG. 3, the system of the present invention manages a session of a communication service and outputs a connection establishment, deletion, and change of a trail and a connection path inquiry request signal, and a network service apparatus 200. Ultra-high speed network management device 210 for setting, deleting, and changing the ADSL-linked trail according to a trail control signal or an inquiry request signal applied from the network, and outputting a response to the requested connection operation to the network service device 200, and routing. A device 220, an ADSL subnetwork management device 230 for controlling an ADSL interworking subnetwork connection, and an asynchronous transmission mode subnetwork management device 240a, 240b for controlling an asynchronous transmission mode subnetwork connection.

Here, the ultra-high speed network management device 210 is composed of a trail module 212, a connection path module 211, a trail transmission endpoint module 213 and a trail reception endpoint module 214.

The present invention having such a configuration invokes operations on the virtual channel partial network connection and the ADSL partial network connection to create, delete, and change the ADSL interworking trail in the asynchronous transmission mode virtual channel layer network.

First, when a trail is generated in the trail module 212 of the ultra-high speed network management device 210, the route is passed through the routing device 220 in advance to identify a partial network on the corresponding path. When the network trailing point (NWTTP) of the trail is set on the ADSL partial network in the corresponding trail path, the ADSL interworking network management device 230 requests the ADSL interworking partial network connection to be set. In addition, when the partial network endpoint of the trail in the trail path is on the asynchronous transmission mode partial network, the asynchronous transmission mode partial network management device 240a requests the asynchronous transmission mode partial network connection establishment. According to the result, the ADSL-linked virtual channel trail is configured.

When the trail module 212 of the ultra-high speed network management device 210 deletes a trail, the path information of the ADSL-linked trail is searched for an asynchronous transmission mode partial network connection and an ADSL partial network connection, which are the lower partial network connections of the corresponding trail. The ADSL interworking network management device 230 requests the deletion of the ADSL interworking partial network connection. In addition, the asynchronous transmission mode partial network management device (240a) is requested to delete the asynchronous transmission mode partial network connection, and according to the result deletes the ADSL interlocking trail.

When the trail module 212 of the ultra-high speed network management device 210 wants to change the bandwidth of the trail, the asynchronous transmission mode partial network connection and the ADSL partial network, which is a subpartial network connection of the corresponding trail, are retrieved by searching the path information of the ADSL interlocked trail. Find the connection. The ADSL interworking network management device 230 requests the ADSL interworking partial network connection change. In addition, the asynchronous transmission mode partial network management device (240a) requests the asynchronous transmission mode partial network connection change, and changes the bandwidth of the ADSL interlocking trail according to the result.

In addition, the trail module 212 of the ultra-high speed network management device 210 receives an operation for the ADSL interlocking trail from the network service device 200 to determine the path that the trail will pass through the routing device 220. The trail module 212 calls a connection operation to the asynchronous transmission mode partial network connection management device 240a and the ADSL part management device 230 on the corresponding path. The connection path module 211 manages path information of the ADSL linked trail generated by the trail module 212. In addition, the trail transmission endpoint module 213 manages the transmission endpoint of the ADSL associated trail, and the trail reception endpoint module 214 manages the reception endpoint of the ADSL associated trail.

The operation process of the present invention having such a configuration will be described in detail by dividing into a method of creating, deleting, and changing an ADSL-linked virtual channel trail.

4 shows a method for setting an ADSL-linked virtual channel trail in a virtual channel layer network of a high speed communication network.

First, the ultra-high speed network management apparatus 210 receives from the network service apparatus 200 two points where the ADSL interlocking trail is to be set in the form of an address recognized by the network service user, and receives the ADSL interlocking trail setting request signal. Step 300), and finds the link endpoint that the trail is to be terminated by the address authorized from the network service device 200 (step 301). At this time, by checking the administration state of the link endpoint where the trail is to be established, the endpoint of the link In step 302, it is determined whether the trail can be set (step 303). If the trail cannot be set, the network service device 200 notifies the trail connection cannot be established. Step 307) If the trail can be established, determine whether the trail transmission point is an ADSL link endpoint or the receiving point is an ADSL link endpoint to determine the AD of that trail. In step 304, a trail object is generated to generate an identifier (Trail ID) for the corresponding trail. (Step 305) Next, the connection property requested by the network service apparatus 200 is determined. Selects a path that satisfies the control path, and outputs a connection admission control (CAC) signal to the routing device 220 which allocates a requested bandwidth and a virtual channel identifier for the phase link through which the corresponding trail path passes. The connection path module 211 checks the type of the corresponding partial network on the selected path (step 308). Then, it is determined whether the lower partial network connection of the trail to be generated is an ADSL partial network connection (step 309). In case of the ADSL partial network connection, the ADSL interworking partial network connection setup signal is output to the ADSL partial network management device 230 (step 310). The asynchronous transmission mode partial network connection setup signal is output to the management device 240a. (Step 312) The Tx and Tx end points of the trail are controlled according to the control of the trail transmission end point module 213 and the trail reception end point module 214. (Step 311) Then, the path information of the partial network connection is requested to the asynchronous transmission mode partial network management device 240a. (Step 313) After the asynchronous transmission mode partial network path information is applied, asynchronous transmission is performed. Allocates the bandwidth and virtual path identifier or virtual channel identifier for the endpoint of the link where the link and trail endpoints on the path of the mode partial network are located (step 314). Complete the ADSL-linked virtual channel trail generation and complete the network service. The device 200 is notified of the trail generation and the generated trail identifier (step 315).

5 illustrates a method for deleting an ADSL-linked virtual channel trail in a virtual channel layer network of a high speed communication network.

First, the ultra-high speed network management device 210 receives a request for deleting an ADSL-linked virtual channel trail from the network service device 200. (Step 400) Next, control of the trail transmission endpoint module 213 and the trail reception endpoint module 214. In accordance with the control, the transmission / reception end point of the corresponding trail is checked, and the control state of the link on the path through which the trail passes under the control of the connection path module 211 determines whether the trail can be deleted (step 401). In this case, it is determined whether the trail can be deleted (step 402). If the trail cannot be deleted, the network service device 200 notifies the trail cannot be deleted (step 405). Check the ADSL partial network connection and the asynchronous transmission mode partial network connection (step 403). Then, determine whether the ADSL partial network is connected (step 404). If not, request the asynchronous transmission mode partial network management device 240a to delete the asynchronous transmission mode partial network connection (step 408). As a result of the determination of the ADSL partial network connection, if the ADSL partial network is connected, the ADSL partial network management device ( 230, a request is made to delete the ADSL partial network connection. (Step 406) Subsequently, according to the result of the connection path module 402, the path of the corresponding trail is deleted and the corresponding route allocated by the routing device 220 is established. Return the link bandwidth and virtual channel identifier (step 407). The link endpoint where the trail endpoint is present returns the bandwidth and deletes the trailing transmit and receive endpoint of the trail (step 409). The object information is deleted (step 410), and the network service device 200 is notified of the trail connection deletion (step 411).

6 illustrates a method for changing a bandwidth of an ADSL-linked virtual channel trail in a virtual channel layer network of a high speed communication network.

First, the ultra-high speed network management device 210 receives a bandwidth change request from the network service device 200 (step 500). And, according to the trail transmission endpoint module 213 and the trail reception endpoint module 214, transmission of the corresponding trail is performed. Check the receiving endpoint and check the management status of the link on the path through the trail according to the connection path module 211 to see if the bandwidth of the trail is changeable (step 501). It is determined whether or not it is possible (step 502), and if it is impossible to change the trail bandwidth, the network service apparatus 200 notifies that the trail bandwidth cannot be changed (step 505). Change the bandwidth of the phase link in step 503. Then, check the lower ADSL partial network connection and the asynchronous transmission mode partial network connection of the trail. (Step 504) Next, it is determined whether the ADSL partial network connection is established (step 506), and when the ADSL partial network is connected, the ADSL partial network management device 230 requests the bandwidth change of the ADSL partial network connection. 507) 705, and when the ADSL subnetwork is not connected, requests the asynchronous transmission mode subnetwork management apparatus 240a to change the bandwidth of the asynchronous transmission mode subnetwork connection (step 509). 213 and the trail receiving endpoint module 214 change the bandwidth for the trail transmit / receive endpoint of the trail according to the result (step 508). After changing the bandwidth information of the trail object, the network service device ( 200 to notify the trail bandwidth change (step 510).

As described above, the present invention can be expected to increase the profitability of the ADSL-linked connection service by providing an ADSL-linked connection service to the asynchronous transmission mode network from the network operator.

In addition, by adopting the ADSL network in the high-speed communication network for the ADSL connection service, it is possible to expect more efficient use of the entire network resources by simultaneously using the high-speed communication network when providing the ADSL interworking connection service.

Claims (9)

An ADSL partial network management device for controlling an ADSL interworking partial network connection; An asynchronous transmission mode partial network management device for controlling the asynchronous transmission mode partial network connection; And Set the path through the trail according to the operation call signal for the ADSL interlocking trail, and call the action function for the partial network connection to the ADSL partial network management device and the asynchronous transmission mode partial network management device to establish a connection with the ADSL endpoint. ADSL interworking connection control system in an asynchronous transmission mode communication network characterized in that it comprises a high speed network management device for controlling. The apparatus of claim 1, wherein the high speed network management device A trail module configured to set a path through which a corresponding trail passes according to the operation call signal, and call a partial network connection operation to the ADSL partial network management device and the asynchronous transmission mode partial network management device to generate path information of an ADSL linked trail; A connection path module configured to manage path information of an ADSL linked trail generated by the trail module; And And an ADSL interworking connection control system in an asynchronous transmission mode communication network, characterized in that it comprises a trail transmission and reception endpoint module for generating an end point of a link where the ADSL interlocking trail is terminated. The method of claim 1, A network service device for transmitting an operation call signal for setting, deleting, and changing a trail connection to the high speed network management device; And And an routing device configured to set a path through which the ADSL interlocking trail passes. A first step of determining an asynchronous transmission mode subnetwork and an ADSL subnetwork to call by checking a path through the corresponding trail according to an operation call signal for the ADSL interworking trail; A second step of identifying a type of a lower subnetwork connection of a trail to be generated; A third step of calling an operation function for the asynchronous transmission mode partial network or ADSL partial network connection according to the type of the lower partial network connection; And generating a trailing endpoint of the asynchronous transmission mode partial network and the ADSL subnetwork connection to generate an ADSL interworking virtual channel trail. The method of claim 4, wherein the first step Receiving an operation call signal for the ADSL interlocking trail together with addresses of both ends of the trail to be generated; Verifying that a trail can be generated by translating the addresses at both ends of the trail into a link endpoint identifier; Determining a type of virtual channel trail according to the link endpoint identifier and generating a trail identifier; And And determining a trail path according to the trail identifier and confirming a type of a partial network connection to be requested. The method of claim 4, wherein the fourth step Creating trail endpoints of the asynchronous transmission mode subnetwork and ADSL subnetwork connections; Requesting path information of the asynchronous transmission mode partial network connection; And And allocating bandwidth of a link and a link endpoint through which the asynchronous transmission mode partial network connection passes. A first step of determining whether the ADSL-linked virtual channel trail can be deleted according to an input of a deletion request signal for the ADSL-linked virtual channel trail; A second step of identifying a type of a lower subnetwork connection of a corresponding trail; Requesting deletion of an ADSL partial network or an asynchronous transmission mode partial network connection according to the type of the lower partial network connection; And And a fourth step of deleting the corresponding ADSL-linked virtual channel trail information. 8. The method of claim 7, wherein the fourth step is Returning the bandwidth of the link through which the trail passes; And And returning the bandwidth of the link endpoint at which the corresponding trail endpoint exists and deleting the trail endpoint from the ADSL interworking connection control method in the asynchronous transmission mode communication network. Determining whether the ADSL-linked virtual channel trail is changeable according to an input of a change request signal for the ADSL-linked virtual channel trail; Changing a link bandwidth of a subnetwork through which the trail passes; A third step of identifying a type of lower part network connection of the trail; Requesting to change an ADSL partial network or an asynchronous transmission mode partial network connection according to the type of the lower partial network connection; And And a fifth step of changing a bandwidth of a link endpoint having an endpoint of a link and a trail through which the partial network connection passes.