KR20030053893A - Method for data communication at bridge mode in xDSL system - Google Patents

Abstract

PURPOSE: A communication method in a bridge mode of a DSL(Digital Subscriber Line) system is provided to considerably reduce time taken for classification of packets and increase a transfer rate by reducing an overhead of a payload. CONSTITUTION: If there is an input to an Ethernet, a packet converter obtains an MAC address of a destination from an Ethernet packet(S710,S721). If there is corresponding address information in an MAC address storing unit, the MAC address is converted into a compressed MAC(S722). If the number of MAC addresses of an originating place has been previously set, an xDSL terminal checks whether more MAC addresses than the pre-set value are obtained, and if more MAC addresses are obtained, the xDSL terminal discards a corresponding Ethernet packet(S723,S724). The xDSL terminal adds a PAD(Packet Assembly/Disassembly) instructing packet reassembly/segmentation(S725). The packet converter converts the packet into an ATM cell and transmits it to a DSLAM which corresponds to an xDSL system(S726). If there is an input from ATM, the packet converter converts an ATM cell into a proposed packet(S710,S731). The packet converter obtains a compressed MAC from the converted packet(S732). The packet converter converts the obtained compressed MAC into an MAC address(S733). The packet converter transmits the converted Ethernet packet to the xDSL terminal(S734).

Description

Communication method in bridge mode of digital subscriber line system {Method for data communication at bridge mode in xDSL system}

The present invention relates to communication in a bridge mode of a digital subscriber line (DSL) system, and more particularly, to reduce the overhead of payload in an xDSL system and to transmit. The present invention relates to a communication method in bridge mode of a digital subscriber line system suitable for the following.

In general, xDSL (x = A, H, S, V, etc.) expands the potential bandwidth as much as possible through a pair of copper wires, allowing plain old telephony service (POTS) services without interference on lines within the same pipeline. Rather, it enables POTS services simultaneously on xDSL transmission lines.

1 is a block diagram showing a data transmission method in a general xDSL system.

1, a remote access service (RAS) 121, a DSLAM 122, and an xDSL terminal 130 are provided between the Internet network 110 and the PC 140 to transmit data. Data packet transmission is performed through Ethernet communication between the Internet network 110 and the RAS 121, and data packet transmission is performed between the DSLAM 122 and the xDSL terminal 130 through the RFC1483 protocol in an ATM network. The data packet transmission is performed again through the Ethernet communication between the 130 and the PC 140. When RFC1483 bridge mode is applied to ADSL, it operates by PPPoE method but requires internet access immediately by network connection processing (authentication and IP assignment) at PC booting.

On the other hand, in the hierarchical structure of the asynchronous transmission mode (ATM), the ATM adaptation layer (ATM) or AAL can adjust the local area network (LAN) emulation data (packets) from the high layer to an integer multiple of 48 bytes. A splitting layer, which corresponds to a high-level service and includes AAL types 1 to 5, and includes two sublayers of convergence sublayer (CS) and segmentation and reassembly (CS). These sublayers are collectively called 'AALs'. The CS is in charge of serving the high layer, and the SAR is a sublayer in charge of cell division / assembly.

According to the prior art, the payload format of a bridge Ethernet / 802.3 PDU (Packet Data Unit) in multiple protocols over AALs described in Internet document RFC2684 relating to industry standard communication protocol is shown in FIG.

And the payload format of the bridge Ethernet / 802.3 PDU in the multi-protocol over the VC-MUX of RFC2684 is shown in FIG.

In case of RFC2684, it is used to multiplex and transmit various protocols through ATM connection using LLC (Logical Link Control) encapsulation method according to LAN logical link control of IEEE802 or VC-MUX in relation to transmission control procedure. .

The LLC encapsulation method or the VC-MUX method uses PAD (Packet Assembly / Disassembly), LLC, etc. in each payload to allow multiplexing of different protocols. The Ethernet packet is converted into RFC2684 type ATM cell and RFC2684 type ATM cell is converted into Ethernet packet by being divided into routed mode of the network layer and bridge mode of the data link layer according to the over-network relay method. To do the job.

However, according to the related art described above, since multiple different protocols are multiplexed, there is a problem in that a large load is placed on the CPU and the total packet size becomes large in distinguishing and processing them.

SUMMARY OF THE INVENTION The present invention has been made to solve the conventional problems as described above, and an object of the present invention is to provide a communication method in a bridge mode of a digital subscriber line system that is suitable for transmission by reducing the overhead of payload in an xDSL system. To provide.

A communication method in bridge mode of a digital subscriber line system of the present invention for achieving the above object comprises the steps of: obtaining a destination and a destination MAC address from an Ethernet packet input from an xDSL terminal; Converting the MAC address into a compressed MAC if the address information corresponding to the obtained destination and destination MAC address is present in the set address storing means, and loading the same into a designated area of the set packet; Adding a PAD for indicating packet combining / separating to the configured packet; And adding the Ethernet packet data to the set packet, converting the Ethernet packet data into an ATM cell, and transmitting the converted packet to an xDSL system.

1 is a block diagram showing a data transmission method in a general xDSL system.

2 is a payload format diagram of a bridge Ethernet PDU in multiple protocols over AALs according to the prior art.

3 is a payload format diagram of a bridge Ethernet PDU in multiple protocols over VC-MUX according to the prior art;

4 is a block diagram illustrating an LLC bridge mode in accordance with an embodiment of the present invention.

5 is a block diagram showing a data transmission method in an xDSL system to which an embodiment of the present invention is applied.

6 is a block diagram showing a packet conversion operation of an ATM terminator when an embodiment of the present invention is applied.

7 is a flowchart of a communication method in bridge mode of a digital subscriber line system according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

510: Internet network 521: RAS

522: DSLAM530: xDSL terminal

540: PC610: packet conversion unit

620: MAC address storage unit

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

FIG. 4 is a block diagram illustrating a packet structure in an LLC bridge mode according to an embodiment of the present invention. FIG. 5 is a block diagram showing a data transmission method in an xDSL system to which an embodiment of the present invention is applied. FIG. 7 is a block diagram illustrating a packet conversion operation of an ATM terminal device when the example is applied, and FIG. 7 is a flowchart illustrating a communication method in a bridge mode of a digital subscriber line system according to an embodiment of the present invention.

According to FIG. 4, the packet configuration proposed in the present embodiment relates to a packet in the LLC bridge mode of RFC2684, with 0x00-03 for PAD for packet assembly / decomposition function, and 0xXXX 0xXX for compressed MAC. In other words, the data packet is loaded so that the packet is constructed.

Since most of the networks currently used are LLC bridge modes of RFC2684, the packet is configured to reduce the existing payload in the xDSL terminal, DSLAM and RAS and is applied as shown in FIG.

The system applied to the proposed packet is the same as the data transmission block in the general xDSL system. The RAS 221, the DSLAM 222, and the xDSL terminal 530 are provided between the Internet network 510 and the PC 540. The transmission is made. Here, the data packet transmission is performed through the Ethernet communication between the Internet network 510 and the RAS 521, and the data packet transmission through the Ethernet communication is also performed between the xDSL terminal 530 and the PC 540 as in the related art. . However, the data packet transmission is performed between the DSLAM 122 and the xDSL terminal 130 through the RFC1483 protocol in the conventional ATM network. In this embodiment, data is transmitted to a packet configured as shown in FIG. 4 through the ATM network. The packet is loaded and transmitted.

FIG. 6 illustrates a packet conversion operation of an ATM end device such as an xDSL terminal, a DSLAM, and a RAS using the proposed packet. The xDSL terminal 530 receives a compressed MAC from an xDSL system unit, that is, a DSLAM 522. This is typically done by way of an EOC (End of Conversion) channel or console input on the xDSL line.

The packet converter 610 converts data input from the ATM into Ethernet data in the manner as shown in FIG. 4 and transmits the data to the xDSL terminal 530. The ATM data is transmitted in the opposite direction, that is, the Ethernet data. Is converted to the DSLAM 522.

At this time, the packet converter 610 converts ATM data into a packet, obtains a compressed MAC, converts the compressed MAC into a MAC address corresponding to the MAC address storage unit 520, and transmits the compressed MAC to an Ethernet packet.

In the case of transmission control in the opposite direction, the packet conversion unit 610 obtains the destination and destination MAC addresses from the Ethernet packet, and if the MAC address is present in the MAC address storage unit 620, the address is converted into a compressed MAC. After the PAD is added, it is converted into an ATM cell and transmitted.

This transmission control procedure will be described in detail with reference to FIG.

First, the xDSL terminal 530 is assigned a compressed MAC from the DSLAM 522 corresponding to the xDSL system. Therefore, a procedure for processing such a compressed MAC is required.

The MAC for media access control, together with the LLC, forms a sublayer of the data link layer of the OSI reference model, and controls how data is transmitted through a LAN cable (transmission medium). In case of Ethernet / IEEE802.3 LAN, frames are transmitted / received by the carrier sense multiple access / collision detection (CSMA / CD) method in the MAC layer.

Thus, when there is an input via Ethernet, the packet converter 610 acquires the destination and destination MAC addresses from the Ethernet packet (S710 and S721).

If there is address information corresponding to the MAC address storage unit 620, it is converted into a compressed MAC. The compressed MAC is loaded in the area of 0xXXX-0xXX (S722).

In the case of the xDSL terminal 530, if the number of MAC addresses to be transmitted is determined, it is checked whether more than the corresponding number of MAC addresses are obtained. Thus, if it is confirmed that more than the number of MAC address address is acquired, the xDSL terminal 530 discards the corresponding Ethernet packet (S723 to S724).

Next, add a PAD to indicate packet concatenation / separation. The PAD is loaded in the area up to 0x00-03 as shown in FIG. On the other hand, the data packet is loaded in the other area (S725).

Then, the packet conversion unit 610 converts the packet thus configured into an ATM cell suitable for transmission through an ATM network, that is, converts the packet into an ATM cell, which is received by the DSLAM 522 corresponding to the xDSL system (S726).

On the contrary, in the procedure of converting the data transmitted through the ATM network into the Ethernet data, when there is an input from the ATM, the packet conversion unit 610 controls the ATM cell through the ATM SAR which controls the assembly / division of the ATM cell. The packet is converted to the packet proposed in the present embodiment (S710 and S731).

The packet converter 610 then obtains a compressed MAC from the converted packet. The compressed MAC can be obtained by reading the area of 0xXXX-0xXX (S732).

The obtained compressed MAC is converted into a MAC address corresponding to the MAC address storage unit 620 (S733).

The converted Ethernet packet is transmitted to the xDSL terminal 530 through this conversion process (S734).

As described above, in the present embodiment, when the xDSL system and the terminal communicate in the bridge mode, the packet configuration is simplified by changing the configuration of the transmitted packet, and the packet classification is simplified, and the xDSL modem and the RAS And when xDSL system such as DSLAM is connected to the Ethernet equipment, it is possible to communicate using a compressed MAC, and since the MAC address is stored in the xDSL terminal, it is possible to prevent arbitrary use of a user using a hub or the like.

The embodiments described above are within the scope of various changes, modifications, and equivalents of the present invention. Therefore, the present invention is not limited to the description of the examples.

According to the communication method in the bridge mode of the digital subscriber line system of the present invention, the time for classifying packets in each xDSL device can be greatly attenuated, and the transmission speed can be increased by reducing the packet size.

Claims (4)

obtaining a destination and a destination MAC address from an Ethernet packet input from the xDSL terminal; Converting the MAC address into a compressed MAC if the address information corresponding to the obtained destination and destination MAC address is present in the set address storing means, and loading the same into a designated area of the set packet; Adding a PAD for indicating packet combining / separating to the configured packet; And adding the Ethernet packet data to the set packet, converting the Ethernet packet data into an ATM cell, and transmitting the converted packet to an xDSL system. The method of claim 1, wherein Converting an ATM cell received at the xDSL system side into a packet configured through an assembly / division function of an ATM cell; Obtaining a compressed MAC from the converted packet; Converting the obtained compressed MAC into a MAC address corresponding to a set address storing means; And transmitting the converted Ethernet packet to the xDSL terminal side in a bridge mode of a digital subscriber line system. The method of claim 1, when the number of destination MAC addresses is determined at the xDSL terminal, confirming whether or not the number of MAC addresses more than the number is acquired; And if the MAC address address of the determined number or more is acquired, xDSL terminal discarding the corresponding Ethernet packet. The method of claim 1 or 2, wherein the set packet, A PAD for a packet assembly / decomposition function in a bridge mode of logical link control, a compression MAC, and a communication method in a bridge mode of a digital subscriber line system, characterized in that it comprises an area for loading a data packet.