KR20060002389A - Transmission system by using multi-line - Google Patents

Abstract

The present invention is a system for transmitting a plurality of packets using multiple lines having respective speeds, and after setting serial numbers in the plurality of packets, transmitting the plurality of packets using the multiple lines. A packet transmitter configured to align the plurality of packets sequentially with reference to a packet transmitter configured to each packet received through the multiple circuits, and a serial number set to each packet received through the multiple circuits; In response to the loss information, a first run-time database for controlling the packet transmitter and assigning a packet to be transmitted to the multi-line, and interworking with the first run-time database, the packet receiver And a second run-time database for controlling the operation.

Description

Transmission system using multiple lines {TRANSMISSION SYSTEM BY USING MULTI-LINE}

1 is a schematic diagram illustrating a process of delivering a packet using a general single line;

2 is a schematic diagram showing a process of forwarding a packet using a conventional multi-line;

3 is a block diagram showing an embodiment of a transmission system using multiple lines according to the present invention;

4 is a schematic diagram showing the structure of a packet used in the present invention.

The present invention relates to a transmission system using multiple lines, and more particularly, to a system for sequentially transmitting a plurality of packets using multiple lines having respective speeds.

In general, a packet consists of a header and data.

1 is a schematic diagram illustrating a process of delivering a packet using a general single line.

In the figure, a plurality of packets P100, P101, P102, ... are sequentially transmitted, and a plurality of packets P100, P101, P102, ... are sequentially received. That is, multiple packets P100, P101, P102, ... are sequentially transmitted and received by a single line regardless of speed.

2 is a schematic diagram illustrating a packet forwarding process using a conventional multiple circuit, and a packet forwarding using multiple circuits having respective speeds using a routing technique.

In the figure, a plurality of packets P100, P101, P102, P103, P104, and P105 are transmitted through a speed 1 Mbps line, a speed 2 Mbps line, and a speed 3 Mbps line, and the packets P102, P101, P100, P105, P104. , P103). At this time, the speed 1 Mbps line transmits packets P100 and P103, the speed 2 Mbps line transmits packets P101 and P104, and the speed 3 Mbps line transmits packets P102 and P105.

In the prior art, when a plurality of packets are delivered by using multiple lines having respective speeds, the order of each received packet is changed, which causes packet loss and packet retransmission depending on the type of service. . Therefore, there is a disadvantage that the line quality is lowered. In other words, if the speeds of the multiple lines are the same, there is no problem in reception. However, if the speeds of the multiple lines are different, the order of each received packet is easily changed.

The present invention has been made to solve the above-mentioned problems of the prior art, and after setting serial numbers to a plurality of packets, transmitting a plurality of packets using multiple lines having respective speeds, and receiving each received It is an object of the present invention to provide a transmission system using multiple lines for sequentially arranging a plurality of packets by referring to serial numbers set in packets.

The present invention for achieving the above object is a system for transmitting a plurality of packets (multiple packets) using a multi-line having a respective speed, using the multi-line after setting the serial number to the plurality of packets A packet transmitter for transmitting the plurality of packets, a packet receiver for sequentially aligning the plurality of packets with reference to a serial number set for each packet received through the multiple lines, and the packet provided from the packet receiver. A first run-time database for controlling the packet transmitter and assigning a packet to be transmitted to the multi-line in response to the speed information and data loss information of the multi-line, the first run-time database; And a second run-time database for interworking and controlling the operation of the packet receiver.

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

3 is a block diagram showing an embodiment of a transmission system using multiple lines according to the present invention, including a packet transmitter 10, a speed 1 Mbps line 12, a speed 2 Mbps line 14, a speed 5 Mbps line 16, and It consists of a packet receiver 18. The speed 1 Mbps line 12, the speed 2 Mbps line 14, and the speed 5 Mbps line 16 can be implemented by a line such as a dedicated line, an ADSL line, a MAN line, and an ISDN line.

In the figure, the packet transmitter 10 sets a serial number to each of a plurality of packets P100, P101, P102, P103, P104, and P105, and then executes a speed 1Mbps line 12 through a first selector. , A plurality of packets P100, P101, P102, P103, P104, and P105, each of which has a serial number set, are transmitted to the packet receiving unit 18 by providing them to the speed 2Mbps line 14 and the speed 5Mbps line 16. At this time, the speed 1Mbps line 12 transmits the packet P100, the speed 2Mbps line 14 transmits the packets P105 and P101, and the speed 5Mbps line 16 transmits the packets P102, P103, and P104. Send it. At this time, the first selector and the speed 1 Mbps line 12, the speed 2 Mbps line 14, and the speed 5 Mbps line 16 are connected via respective LAN cards (not shown in the figure).

The packet receiving unit 18 is a serial set for each packet (P100, P101, P102, P103, P104, P105) received through a speed 1 Mbps line 12, a speed 2 Mbps line 14, and a speed 5 Mbps line 16. With reference to the numbers, the plurality of packets P100, P101, P102, P103, P104, and P105 are sequentially arranged through the second selector and output. At this time, the speed 1 Mbps line 12, the speed 2 Mbps line 14, and the speed 5 Mbps line 16 and the second selector are connected via respective LAN cards (not shown in the figure).

The first run-time database 20 receives speed information and data loss information of each line 12, 14, and 16 provided by the second selector through the second run-time database 22 and corresponds to the information. The first selector is controlled to allocate a packet to be transmitted to each of the lines 12, 14, and 16. FIG. The second run-time database 22 cooperates with the first run-time database 20 and controls the operation of the second selector. For example, the second selector notifies the first run-time database 20 of the received packet through the second run-time database 22 when there is a failure packet among the received packets. The packet is retransmitted under the control of 20).

The packet transmitter 10 and the packet receiver 18 described above can be provided respectively on the transmitting side and the receiving side of the specific transmitting and receiving device, so that data can be quickly and accurately transmitted in both directions on multiple lines having respective speeds. The transmitting side may be a center for providing a network service, and the receiving side may be a subscriber for receiving a network service. In this case, a hub may be installed at the subscriber side to provide a network service to a plurality of users. In addition, the subscriber side is composed of an embedded Linux-based device in the form of a general router, a plurality of LAN cards, a central processing unit (CPU), a memory, and a flash memory.

Figure 4 is a schematic diagram showing the structure of a packet used in the present invention, header, command, serial number, virtual private network (VPN) tunnel header, and TCP / IP (Transmission Control Protocol / Internet Protocol) packet Is done.

Although the technical spirit of the present invention has been described above with reference to the accompanying drawings, this is intended to describe exemplary embodiments of the present invention by way of example and not to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

As described above, in the present invention, after setting serial numbers for a plurality of packets, a plurality of packets are transmitted using multiple lines having respective speeds, and the receiving side refers to the serial numbers set for each received packet. Thus, a plurality of packets are arranged in sequence. Therefore, since the order of each received packet does not change, packet transmission is fast and accurate.

Claims (3)

A system for transmitting a plurality of packets using multiple lines having respective speeds, A packet transmitter which transmits the plurality of packets using the multiple lines after setting serial numbers to the plurality of packets; A packet receiver configured to sequentially align the plurality of packets by referring to serial numbers set in respective packets received through the multiple lines; A first run-time database for allocating packets to be transmitted to the multi-line by controlling the packet transmitter in response to the speed information and data loss information of the multi-line provided from the packet receiver; A second run-time database interoperating with the first run-time database and controlling an operation of the packet receiver; Transmission system using a multi-line comprising a. The method of claim 1, And the first run-time database receives speed information and data loss information of the multiple lines provided from the packet receiver through the second run-time database. The method according to claim 1 or 2, The packet transmitted by the packet transmitter is a transmission system using multiple lines including a header, a command, a serial number, a virtual private network (VPN) tunnel header, and a TCP / IP (Transmission Control Protocol / Internet Protocol) packet. .

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