KR19980054739A - Virtual Line Formation Method of Packet Switched Network - Google Patents

Abstract

In a packet switching network in which a plurality of packet exchangers operate as nodes, a method of forming a virtual line path by flooding method checks whether a packet is a destination node when receiving a flood search request packet, or outputs a received packet to an adjacent node while checking whether it is a destination node. Storing the node information, assigning the logical channel if it is the destination node, outputting it to the data terminal, discarding the received flood search request, and checking if it is the destination node when receiving the flood response request packet, and then assigning the logical channel A flood response packet is output to the node linked to the node, and if the destination node is output to the data terminal, only nodes according to the link number recorded in the flood search request packet receive the flood response packet to allocate a logical channel. do.

Description

Virtual Line Formation Method of Packet Switched Network

The present invention relates to a method for forming a virtual circuit path in a packet switched network, and more particularly, to a method for simplifying a call setup procedure using a flooding method.

In general, packet switchers operating as nodes in a packet switching network are connected to data terminal equipment (hereinafter referred to as DTEs), and the data generated from the connected DTEs are assembled into packets and transmitted in the packet switching network. It breaks up the packet sent by the exchange and delivers it to the corresponding DTE. In addition, the packet exchangers analyze the forwarded packet and deliver it to the adjacent packet switch if it is not its own packet. Accordingly, in the packet switching network, each packet exchanger forms a virtual path in call set-up, and delivers the packet to the destination DTE.

The conventional flooding method used to initially establish a virtual circuit in the packet switching network is that if a source node outputs a flood search request packet to all nodes adjacent to the source node. The neighboring nodes receiving the packet analyze the received packet to determine whether the node is a destination node or output a call request packet to all neighboring nodes. In this way, the flood search request packet is delivered to the destination node through all the links of the packet switched network. The destination node transmits a call request packet to a called DTE, and the called DTE outputs a call accepted packet to the destination node. The destination node receiving the packet then forwards the call response packet to the calling party DTE along the path of the nodes via the flood search request packet to form a virtual line path.

However, in the conventional method of forming a wired line using flooding, the flood search request packet is propagated through all the links, and logical channels are allocated one by one to the destination node. However, since the virtual circuit is set up in only one path of all paths from the source node to the destination node, the logical channel allocated to the remaining paths becomes unnecessary. Therefore, the logical channel is cleared by outputting a clear request packet to all the links except the established path of the virtual line so that the nodes having the logical channel can be deleted.

As described above, the flooding method used when forming the virtual circuit path in the conventional packet switching network, therefore, the conventional flooding allocates a logical channel while the flood search request packet is propagated, thus providing logical linking to all links constituting all packet switched networks. Channel assigns Therefore, the conventional flooding method wastes resources by allocating unnecessary logical channels, and has a problem of increasing a call volume by sending a release request packet to erase the logical channel.

Accordingly, an object of the present invention is to provide a method for forming a virtual line path while allocating a logical channel only to nodes in a path through which a response packet passes through a packet switched network.

In order to achieve the above object, a method of forming a virtual line path in a packet switching network according to the present invention is a method of forming a path of a virtual line by flooding in a packet switching network, and determines whether the node is a destination node when receiving a flood search request packet. Otherwise, the received packet is output to the neighbor node, and the packet receiving node information is stored. If the destination node is allocated, the logical channel is allocated, output to the data terminal, and then the received flood search request is discarded. It checks whether this destination node is allocated or not, allocates a logical channel and outputs a flood response packet to the next linked node, and if it is a destination node, outputs it to a data terminal, and responds according to the link number recorded in the flood search request packet. Only nodes receive flood response packets to establish logical channels. It characterized by Got.

1 is a diagram illustrating a configuration of a packet switched network for explaining a process of setting up a call according to a flood search according to an embodiment of the present invention.

FIG. 2 is a diagram illustrating a form of a packet transmitted in a call request and a response operation in a packet switched network as shown in FIG. 1.

FIG. 3 is a flowchart illustrating a process of processing call request packets, response packets, and the like, of each node of the packet-switched network as shown in FIG.

In the embodiment of the present invention, the logical channel is allocated as the flood search response packet is propagated, but the logical channel is allocated as the flood search request packet is propagated, thereby assigning the logical channel only to the link on which the virtual line is formed. In this case, logical links are not allocated to the remaining links except for the link in which the virtual line path is formed, thereby eliminating the need to transmit a release request packet.

1 is a diagram illustrating the configuration of a packet switched network for each node to describe a call set-up procedure by a flood search according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a packet configuration of each node in a flood search request and a flood response in the packet switched network as shown in FIG. 1, and illustrates that logical channels are assigned only to corresponding nodes in a flood response.

FIG. 3 is a diagram illustrating an operation of processing a packet received by each node in the packet switching network as shown in FIG. 1. FIG. 3A is a flowchart illustrating an operation of each node when receiving a flood search request packet. FIG. 3B is a flood response. Each node assigns logical channels in a flowchart illustrating an operation of processing the received packets by each node upon packet reception.

1 to 3, a flooding method processed in a packet switched network according to an embodiment of the present invention will be described. 1, it is assumed that the DTEa connected to the node a is the calling terminal and the DTEd connected to the node d is the called terminal.

First, each node a-h illustrated in FIG. 1 processes the received flood search request packet in the same process as 3a of FIG. 3 when the flood search request packet is received. Referring to the flowchart shown in FIG. 3A, when the flood search request packet is received, it is detected in step 309, and the packet received is analyzed in step 311 to check whether it is a destination node. In this case, if the destination node of the flood search request packet is not itself, the flood search request packet received in step 313 is transmitted to an adjacent node and terminated. If the destination of the received flood search request packet is itself, the logical channel is allocated in step 315. In step 317, the flood search packet is converted into a call request packet and transmitted to the called party's DTEb.

As described above, when each node processes the flood search request packet, when the DTEa generates a call request packet to the node a to which it is connected, the node a indicates that the called address of the call request packet is its node. If it is not itself a destination node, it outputs a flood search request packet FS to adjacent nodes e, b, and f. The node b then analyzes the flood search request packet FS delivered from the node a and forwards it to the adjacent nodes c and g since it is not its own node. In addition, node c analyzes the flood search request packet FS transmitted from node b, and then transfers it to neighbor node d again because it is not its own node.

Upon receiving the flood search request packet as described above, each node checks whether the destination address is its own or forwards the flood search request packet to its neighbor. In FIG. 1, the small arrow marks on the nodes indicate that the FS is propagated. The flood search request packet passes through all nodes of the packet switched network and arrives at the node d which is a destination node. The node d then ignores any subsequent flood search request packets. That is, the destination node d receives the flood search request packets as many as the number of links connected thereto, among which only the first flood request packet arrives and all remaining flood request packets are discarded. That is, the node d receives the flood request packet at the node c and the node h in FIG. 1. First, when the flood request packet is received at the node c, the flood request packet received at the node d is ignored. In this case, the propagation path of the flood request packet becomes node a → node b → node c → node d, where the nodes store the node numbers of the packets transmitted by them as shown in 21-23 of FIG.

Thereafter, the node d converts the received flood search request packet into a call request packet and delivers it to the called party DTEb, which outputs the call response packet. Then, the node d receiving the call response packet converts it to a flood response packet and outputs only the node that outputs the flood search request packet. Therefore, in the embodiment of the present invention, the flood response packet is transmitted according to the link number recorded in the flood search request packet.

Operation of each node transmitting the flood response packet operates as shown in 3b of FIG. 3. Referring to the flowchart of FIG. 3B, when the flood response packet is received, it is detected in step 359, and the packet received is analyzed in step 311 to check whether it is a destination node. If the destination node of the flood response packet is not itself, the logical channel is allocated in step 353, and the flood response packet is forwarded and terminated only to the node that has transmitted the flood search request packet to its node in the previous state in step 355. . If the destination of the received flood search request packet is itself, in step 357, the flood response packet is converted into a call response packet and transmitted to the calling party's DTEa.

As described above, when a call response packet is generated at the called party DTE, the node d connected to the called party DTE converts the call response packet into a flood response packet, and then transmits a flood response packet along the link number recorded in the flood request packet. do. At this time, the flood response packet is transmitted along the link, and the logical channel is allocated as shown in 26-28 of FIG. 2 and recorded in the LCN region (Logical Channel Number field) of the flood response packet. The flood response packet propagates through node d → node c → node b → node a. Then, the destination node, node a, converts the received flood response packet into a call response packet and delivers it to the calling party DTEa.

When the flood search request packet and the flood response packet are transmitted as described above, the path of the virtual line is formed along the DTEa↔node a↔node b↔node c↔node d↔DTEb, and the logical channels (10,1) are provided for each section. , 2, 3, 1) are allocated.

If the path of the virtual line is set by the flooding method as described above, the resource usage and the call volume of the conventional flooding method in the case of passing through M nodes are shown in Table 1 below.

For example, suppose a packet-switched network with a grid structure consisting of 49 (7 * 7) nodes. In general, the number of nodes via virtual lines does not exceed 13, in which case N = 49 in Table 1 above. The maximum value of M can be assumed to be 13.

As described above, when the path of the virtual line is formed by using the flooding method in the packet switching network, the transmission path of the packet is stored when the flood search request packet is transmitted, and the path of the path where the flood search request packet is propagated the fastest in the destination node. Flood response packets are sent along the links of the nodes, and the nodes allocate logical channels. Therefore, logical calls are allocated along the link in which the virtual circuit path is formed when a call is requested, and the remaining links do not allocate logical channels, thereby reducing the consumption of resources and greatly reducing the call volume.

Claims (1)

In a packet switching network in which a plurality of packet exchangers operate as nodes, a method of forming a virtual circuit path by flooding method, Flood search request When receiving a packet, it checks whether it is a destination node or outputs the received packet to an adjacent node, and stores the packet receiving node information.If the destination node, allocates a logical channel and outputs it to the data terminal, and then receives the flood search request. Throwing away the process, Upon receiving the flood response request packet, it checks whether it is the destination node, or allocates a logical channel and outputs a flood response packet to the next linked node, and if it is a destination node, outputs it to the data terminal. A method of forming a virtual circuit path in a packet switched network, wherein only nodes according to a link number recorded in a flood search request packet receive a flood response packet and allocate a logical channel in response.