JP2000216817A - System for dispersing load of traffic between plural routes - Google Patents

Abstract

PROBLEM TO BE SOLVED: To suppress equipment investment by installing transmission devices connecting plural communication paths and a means adjusting the traffic quantity of the respective communication paths through the simultaneous use of the plural paths between the transmission devices. SOLUTION: An exchange 10 transmits the addresses of respective port mechanisms 40 which it itself has, a network mechanism to which the port mechanisms 40 belong, transmission data length on information and transmission time by all transmission paths 30. When the other exchange 10 receives them, it transmits routing information to the port mechanism 40 except for the reception port mechanism 40. The exchange 10 receiving a packet whose arrival is recognized calculates a difference between time when routing information is transmitted and time when the packet whose arrival is recognized and the throughput of the respective transmission paths 30 from transmission data length. A table is generated and stored based on transmitted network information, the throughput of the transmission paths 30 and the address of the other exchange 10 transmitting the packet whose arrival is recognized.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a plurality of WANs (W
ide Area Network) and multiple L
The present invention relates to a transmission device that connects an AN (Local Area Network) and relates to a transmission device that dynamically and simultaneously controls a plurality of paths between the transmission devices.

[0002]

2. Description of the Related Art In a network in which a plurality of paths exist physically or logically, a switch such as a router is known as a device for connecting terminal devices. The route control performed by these exchanges is roughly classified into a dynamic control in which the route changes and a static control in which the route does not change.
In the dynamic control, in order to determine a route, among various routes, various algorithms are used to calculate and determine the only route that is most superior at that time. However, the network resources are not used effectively because only the route determined at that time is used.

[0003]

According to the above prior art, in the dynamic control, one path is adopted while calculating the path, and the other resources are invalidated. Therefore, it is necessary to secure a band required by an application using the network through one path, and capital investment such as a line cost increases.

[0004] It is an object of the present invention to suppress capital investment by simultaneously using a plurality of routes and effectively using network resources.

[0005]

SUMMARY OF THE INVENTION According to the present invention, there is provided a transmission apparatus capable of connecting a plurality of physical or logical communication paths, and a plurality of paths which are simultaneously used between the transmission apparatuses, and a traffic of each communication path is used. It is characterized by means for adjusting the amount. Further, if at least one of the routes used in this method is available, communication can be continued in a degenerate manner, and the reliability can be improved.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a configuration diagram of a network system according to the present embodiment. The system is a terminal device 2 that performs communication
0, a plurality of exchanges 10 and transmission paths connecting the devices. The terminal device 20-1 has an address for identifying the terminal and network information to which the terminal device belongs. The terminal device 20-2 is also the terminal device 20-
It has an address for identifying a terminal different from 1 and network information to which the terminal belongs. Terminal route 3
0-1 and 30-3 are the terminal device 20 and the exchange 1 respectively.
This is a transmission path connecting 0-1 and 10-2. The terminal device 20 is a terminal device viewed from the network, and is generally a computer such as a personal computer and a server dedicated machine.

The exchange 10 is connected to the port mechanism 40 and the transmission path 3
0, which is a transmission device connected to the terminal device 20 and another exchange 10 and which controls a transmission path. Generally called a router. Each exchange 10 has a plurality of port mechanisms 40, each of which has a duplicated transmission path 30-2, 30-4, and 30-5.
Connect to another exchange with. The exchange 10 is a terminal device 2
0, the destination address of the received packet is referred to and transmitted to the destination terminal device 20.

The internal configuration of the exchange 10 includes a terminal device 20 and a plurality of port mechanisms 40 for connecting to other exchanges 10, a storage device for storing network information and the like described later as a table, and these port mechanisms. 40
And refer to the table on the storage device,
The terminal device 20 or another terminal device 20 from the exchange 10
Alternatively, it is composed of a control device that executes a control operation such as controlling transmission of a packet to the exchange 10, and a timer.

The exchange 10 has, for each port mechanism 40, an address for identifying a different port mechanism, and network information to which the port mechanism 40 belongs. Terminal device 20 and port mechanism 4 connected to each transmission path 30
0 and the port mechanisms 40 have the same network information. Each exchange determines a route by dynamic control.

In this embodiment, dynamic control for realizing traffic load distribution is performed from the terminal device 20-1 to the terminal device 20.
A case will be described as an example where communication consisting of a plurality of packets is performed to -2.

The exchange 10 uses the entire transmission path 30 to determine the address of each port mechanism 40 included in the local exchange 10, the network information to which the port mechanism 40 belongs, the transmission data length for the information, and the transmission time. Send. Hereinafter, this transmitted information is abbreviated as routing information. The routing information is transmitted at regular intervals.
Upon receiving the routing information, the other exchange 10 transmits the routing information to a port mechanism 40 other than the port mechanism 40 that has received the routing information. Further, the routing information is transmitted from the port mechanism 40 which has received the routing information to the exchange 10 which has transmitted the arrival confirmation packet.

The exchange 10 that has received the arrival confirmation packet
Calculates the throughput of each transmission path 30 from the difference between the time at which the routing information was transmitted and the time at which the arrival confirmation packet was received, and the transmission data length. The calculation method is obtained by taking the quotient of the transmission data length and the transmission / reception time of the data. The exchange 10 transmits the network information transmitted from the other exchange 10, the throughput of each transmission path 30, and the other exchange 1 that has transmitted the arrival confirmation packet.
A table is generated based on the address of 0, and stored in the storage device.

FIG. 2 is a table generated in each exchange. When a packet is transmitted from the terminal device 20-1 to the terminal device 20-2 in a state where the table is generated in each exchange 10, the exchange 10 is transmitted via the transmission path 30-1.
-1 port mechanism 40-1 receives the packet. The table of the exchange 10-1 includes network information of the terminal device 20-2 via the transmission path 30-2.
There is a path for transmission to the port mechanism 40-3 of the exchange 10-3 and a path for transmission to the port mechanism 40-6 of the exchange 10-3 via the transmission path 30-4. The exchange 10-1 transmits a plurality of received packets to each transmission path 30 for the same destination network information according to the throughput ratio.

The exchange 10-3 serving as a relay performs the same processing and transmits the same to the exchanges 10-1 and 10-2. Switching apparatus 10 receiving a plurality of packets from a plurality of transmission paths
2 transmits a packet to the terminal device 20-2 via the port mechanism 40-3. The above-described processing up to the generation of the table is executed at regular intervals, and even when a specific transmission path becomes congested, the best transmission path at that time is determined. Further, the port mechanism 40, the transmission path 30, and
In the event of a failure of another exchange 10 serving as a relay, the failure of receiving an acknowledgment packet for the routing information transmitted at regular intervals from the exchange 10 triggers the transmission route from the table generated in the storage device of the exchange. Is deleted and degenerated.

[0016]

As described above, according to the present invention,
Multiple paths can be used simultaneously, effectively utilizing the network resources at that time, and if at least one path is available, communication can be continued in a degenerate manner, thus increasing reliability. It is. Therefore, excess equipment for the line can be reduced, which leads to cost reduction.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a network system according to an embodiment of the present invention.

FIG. 2 is a diagram showing a data configuration of a table provided in the exchange 10 of the embodiment.

[Explanation of symbols]

10 switching equipment, 20 terminal equipment, 30 transmission path, 40
... port mechanism.

Claims (2)

[Claims] 1. A plurality of terminals and a transmission device connected via each transmission path, wherein data is transmitted from the connected terminal device to another terminal device and to another terminal via another transmission device. In the transmission device for transmitting the same, a port mechanism connected to the same transmission device via a plurality of transmission paths, storage means for storing the transmission path for simultaneous use, and the performance of the transmission path at that time A transmission device comprising means for controlling traffic distribution. 2. A plurality of terminals and a transmission device connected via each transmission path, wherein data is transmitted from the connected terminal device to another terminal device and to another terminal via another transmission device. A transmission mechanism for transmitting a port mechanism, a transmission path,
A transmission device having a port mechanism and a transmission path remaining when another transmission device fails, and means for controlling communication to be degenerated by another transmission device.