KR20000026640A - Method for forming multicast tree for screen conference service through internet - Google Patents

Abstract

PURPOSE: A method for forming multi cast tree for a screen conference service through an internet is provided to maximize service quality and to effectively use resources by considering link resources of a network and a transmission retardation when a multi cast node is selected. CONSTITUTION: In a method for forming multi cast tree for a screen conference service through an internet, when a new customer request a connection to a screen conference through a nearest connection node of the internet, a server for the screen conference approves the connection. Then, an optimum multi cast node is selected in accordance with a determining result whether the connection node is included in a current multi cast tree. When the connection node is included in the current multi cast tree, a new multi cast node is selected.

Description

How to construct a multicast tree for video conferencing services on the Internet.

The present invention relates to a method of constructing a multicast tree for providing a videoconferencing service on the Internet.

A conventional method for constructing a multicast tree for a videoconferencing service includes a Core Based Tree (CBT) method used in Protocol Independent Multicast-Sparse Mode (PIM-SM). The method is as follows.

1 is an explanatory diagram of a conventional CBT multicast tree configuration. It is assumed that a network is composed of eight nodes, and that node 5 is selected as a core node for videoconferencing server and multicasting. In this case, all of the clients 1,2,3,4 are multicasting via the core node. Therefore, the resulting multicast tree is represented by a thick line in FIG. 1, and in this case, all customers must unconditionally access a predetermined core node (node 5), which is inefficient in terms of link resources and transmission delay time.

That is, the conventional CBT method is a method in which each customer shares one multicast tree, and is mainly suitable for video conferencing services on the Internet, but each customer centers on only one or two core nodes selected in advance. Because multicasting is performed, that is, once a customer who wants to participate in a video conference communicates with other customers only through a pre-selected core node, there is a problem of inefficient use of link resources and delay of transmission delay time.

In order to solve the above problems, the present invention provides a videoconferencing service customer newly connected to an existing videoconferencing session through the nearest node on the Internet in real time according to the service request order. Video conferencing on the Internet, which optimizes the use of link resources and minimizes transmission delay by selecting a new optimal multicast node and forming a new multicast tree according to the result of judging whether it belongs to a multicast tree in operation. Its purpose is to provide a multicast tree construction method for services.

1 is an explanatory diagram of a conventional Core Based Tree (CBT) multicast tree configuration;

2 is a flow diagram of an embodiment of a method for constructing a multicast tree for a videoconferencing service on the Internet according to the present invention;

3 is an explanatory diagram of a multicast tree construction method according to the present invention;

In order to achieve the above object, the present invention provides a method for constructing a multicast tree for a videoconferencing service on the Internet, wherein a new customer who joins the videoconferencing session requests access through the nearest node on the Internet, A first step of receiving access approval; And selecting an optimal multicast node in real time according to the service request order to the video conferencing service customer who has received the access approval according to the determination result of whether the access node belongs to the currently operating multicast tree. A second step of constructing the multicast tree.

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

2 is a flowchart illustrating a method of constructing a multicast tree for a videoconferencing service according to the present invention.

As shown in the figure, the method for constructing a multicast tree for a videoconferencing service according to the present invention firstly comprises a case in which a new customer joins a videoconferencing session in a currently operating multicast tree (21). It connects to the nearest node (22). This is called a connection node.

A newly arrived customer requests a connection to a video conference server through a connection node. If there is not enough network resources to accommodate the new customer, the server will reject the connection request by sending an unreachable message to the customer. Otherwise, if the connection is allowed, the videoconferencing server will send the appropriate multicast tree configuration information with the connection approval message.

The present invention relates to multicast tree configuration information to be transmitted to a customer who has been granted access, and is only applicable when a connection request of an arriving customer is approved. Next, it is determined whether the access node belongs to the currently operated multicast tree (23).

As a result of the determination, if the connection node belongs to the current multicast tree, the connection node is selected as the multicast node of the connection requesting customer (24). In this case, no additional link resources are required for multicasting.

As a result of the determination, if the access node does not belong to the current multicast tree, a new multicast node is selected among the nodes on the currently operated multicast tree, and the method is as follows (25).

The network information needed to select a new multicast node is the network topology, the current multicast tree, and the link cost of each link. The network topology consists of a set of nodes such as routers and switches and a link connecting each node. The currently operated multicast tree includes location information and multicasting information of customers currently using video conferencing services. The link cost of each link is determined by the distance between the two nodes and the transmission delay time, which is used for selecting the shortest path and calculating the maximum transmission delay time between the two nodes.

The method of selecting a new multicast node calculates the following two values for each node in the currently operating multicast tree when a new customer arrives at the access node, and assigns the node with the smallest sum of the two values to the new customer. Is to select a multicast node. The first is the shortest path cost from the access node to each node in the currently running multicast tree, where the shortest path is given between the access node and each node in the currently running multicast tree, given the network topology and each link cost. The shortest path can be obtained by the existing "Dijkstra" algorithm. The second is the maximum path length of all path lengths from the access node to other existing customers via the multicast tree when each node on the currently operating multicast tree is used as a multicast node. Indicates the transmission delay time.

After the new multicast node is selected, the shortest path from the access node to the newly selected multicast node is added to the currently running multicast tree, and the change information, that is, the new multicast, is applied to each node on the currently running multicast tree. The node notifies 26 that the node has been selected and that the new multicast tree has been configured.

Then finish the multicast tree configuration, and the network waits for other new customers.

3 is an explanatory diagram of a multicast tree structure according to the present invention, and assume that node 5 is a videoconferencing server node.

First, customer 1 connects to node 1, exchanges a connection request message with server node 5, and then holds a video conference session. At this time, the currently operated multicast tree is composed of node 1 and node 5 (31).

Thereafter, when the customer 2 joins the video conference through the access node 2, the node 5 is selected as the multicast node by the multicast node selection method of FIG. 2, and then the shortest path between the node 5 and the node 2 is established. It is added to the multicast tree currently in operation (32, 33). Thus, node 1, node 5, node 6, and node 2 form a new multicast tree (31, 32, 33).

After that, when the customer 3 accesses through the access node 3, the access node 5 is also selected as the multicast node for the customer 3 as described above, so that the new multicast tree is node 1, node 5, node 6, node 2, node 3 It consists of (31, 32, 33, 34).

In the same manner as described above, node 6 is multicast selected for customer 4, and a new multicast tree is constructed by adding the shortest path between node 6 and node 4 to the currently operating multicast tree (31, 32, 33, 34, 35).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains, and the above-described embodiments and accompanying It is not limited to the drawing.

According to the present invention as described above, the customer who wants to participate in the videoconferencing communicates with other customers using only the pre-selected core node as the multicast node, and thus the conventional CBT method has a problem of inefficiency and transmission delay of link resource usage. In contrast, by selecting an optimal multicast node for each destination customer, the network can be scaled up and economically remarkably. Also, when selecting a multicast node, the network resource and link delay time are considered. There is an excellent effect that can significantly increase the efficient use and quality of service.

Claims (6)

A method of constructing a multicast tree for a video conferencing service on the Internet, A first step in which a new customer participating in the videoconferencing session requests access through the nearest node on the Internet, and receives access approval from the videoconferencing server; And In accordance with the service request order to the video conferencing service customer who has received the above connection approval, a multicast node is selected by selecting an optimal multicast node according to the determination result of whether the connection node belongs to the currently operating multicast tree. Second Step to Construct a Cast Tree Method of constructing a multicast tree for a video conferencing service, including. The method of claim 1, The second step, Determining whether the access node belongs to a currently operating multicast tree; A fourth step of selecting a new multicast node when the access node belongs to a currently operating multicast tree according to the determination result of the third step; And A fifth step of constructing a new multicast tree by adding a shortest path from the access node to the newly selected multicast node to a currently operating multicast tree; Method of constructing a multicast tree for a video conferencing service, including. The method of claim 2, The fourth step, Calculating a shortest path cost from the access node to each node on the currently operating multicast tree; A seventh step of calculating, for each node on the currently operating multicast tree, a maximum path length of all path lengths from the access node to other existing customers using each node as a multicast node; And An eighth step of selecting a node having the smallest sum of two values calculated in the sixth and seventh steps as a new multicast node; Method of constructing a multicast tree for a video conferencing service, including. The method of claim 3, wherein In the sixth step of calculating the shortest path cost, A method of constructing a multicast tree for a videoconferencing service, comprising calculating a shortest path cost using a network topology and each link cost. The method according to any one of claims 2 to 4, The fifth step, A ninth step of adding a shortest path from the access node to a newly selected multicast node to a currently operating multicast tree; And At each node on the currently running multicast tree, the new multicast node is selected and the shortest path between the access node and the new multicast node is added to the currently running multicast tree to form a new multicast tree. Tenth step of notifying change information such as points Method of constructing a multicast tree for a video conferencing service, including. In the Internet video conferencing service providing system having a processor, A first function for a newly joined customer to a videoconferencing session requesting access through the nearest node on the Internet, and receiving access authorization from the videoconferencing server; And selecting an optimal multicast node in real time according to the service request order to the video conferencing service customer who has received the access approval according to the determination result of whether the access node belongs to the currently operating multicast tree. Second function of constructing multicast tree A computer-readable recording medium having recorded thereon a program for realizing this.