KR101072461B1 - Data transmission system and method using switching information - Google Patents

Abstract

The data transmission system using the switching information includes: an edge switch for requesting and receiving a switching path for transmission of a packet received from a user terminal, writing a switching path in a first switching path field, and transmitting a packet to the switching path; Receiving a user identifier or terminal identifier and an ID of an edge switch from an edge switch and storing them as mapping information. Location management server; A path management server that searches for a switching path to a destination based on the ID of the edge switch and the ID of the second edge switch received from the edge switch and transmits the switching path to the edge switch; And a switch that checks the switching path received from the edge switch, removes its own switching path from the second switching path field, and transmits the packet to the next individual switching path.

Description

Data transmission system and method using switching information {Data Transmission System and Method Using Switching Information}

The present invention relates to a data transmission method in a network, and more particularly, to a data transmission system and method using switching information in a core network.

The packing switching-based internet transmits a packet from the router to the destination using a destination address (IP), which is L3 information of the packet.

The Internet that supports Best Effort service has become more difficult to guarantee the quality of service (QoS) as more real-time or higher bandwidth demanding services such as internet telephony, internet broadcasting, and multimedia services are available. Address Resolution Protocol (ARP) overhead and delay, routing path search overhead and delay has been a problem.

Multiprotocol Label Switching (MPLS), a high-speed switching method using labels, has been devised for faster data transfer than L3 IP-based packet switching.

However, even in packet switching using MPLS, routing for label verification, labeling, forwarding, and label switching path routing of the next LSR in the label switching router (LSR) located in the core network. There was a delay and overhead problem due to algorithm, ARP operation.

In order to solve such a problem, an object of the present invention is to transmit a packet from a transmitting user terminal to a receiving user terminal using switching information for fast data transmission in a core network.

It is an object of the present invention to reduce network overhead and improve network performance by eliminating information fields for previous switching paths whenever a packet passes through a switch on a switching path of a core network in a data transmission system.

The data transmission system using the switching information according to the characteristics of the present invention for achieving the technical problem is to request and receive a switching path for the transmission of the packet received from the user terminal and to record the switching path in the first switching path field An edge switch for transmitting a packet to the switching path; Receives the user identifier or the terminal identifier and the ID of the edge switch from the edge switch to store the mapping information, and retrieves the ID of the second edge switch connected to the corresponding node using the receiving side address of the packet to the edge switch A user / location management server; A path management server that searches for the switching path to a destination based on the ID of the edge switch and the ID of the second edge switch received from the edge switch and transmits the switching path to the edge switch; And a switch that checks the switching path received from the edge switch, removes its own switching path from the second switching path field, and transmits a packet to the next individual switching path.

In a data transmission method using switching information according to an aspect of the present invention, a transmitting edge switch to which a transmitting user terminal is connected may include a transmitting user (or terminal) identifier, a receiving user (or a terminal) from the transmitting user terminal. Receiving a packet consisting of a terminal) identifier and a payload; The transmitting edge switch obtaining ID information of a receiving edge switch to which a receiving user terminal is connected from a user / location management server using the receiving user (or terminal) identifier; Obtaining, by the transmitting edge switch, a switching path from a path management server to a destination using its ID and the ID of the receiving edge switch; And the switch, the transmitting edge switch, and the receiving edge switch, when a packet is switched, checks a switching path field of the packet to remove its own switching path from among the switching paths, and a link connected to a next individual switching path. B) sending the packet to the output port.

According to the above-described configuration, the present invention has the effect of enabling simple and fast data transmission since packet transmission is possible using switching information in a data transmission system of a core network.

According to the present invention, since the information field for the previous switching path is removed every time a packet in the data transmission system passes through the switch on the switching path of the core network, network overhead is reduced, thereby improving network performance.

The data transmission system of the present invention does not need the L3 routing table existing for each router of the Internet, and this has the effect that the Internet scalability problem does not occur.

The present invention has an effect of improving the quality of service because it uses a circuit switching scheme rather than packet switching in terms of QoS.

1 is a view showing the overall configuration of a data transmission system using switching information according to an embodiment of the present invention.
2 is a view showing an example of information stored in the user / location management server according to an embodiment of the present invention.
3 is a diagram illustrating an example of information stored in a path management server according to an embodiment of the present invention.
4 illustrates a packet protocol format according to an embodiment of the present invention.
5 is a diagram illustrating a data transmission method in which a data packet is transmitted using a switching path according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 is a view showing the overall configuration of a data transmission system using switching information according to an embodiment of the present invention.

Data transmission system according to an embodiment of the present invention is a user terminal (110, 120), user / location management server 200, path management server 300, the Internet network (410, 420), edge switch (Edge Switch, ES) 510 and 520 and switches 530 and 540.

The user terminals 110 and 120 use a user identifier and a terminal identifier to identify a user or a terminal. Here, the user identifier may identify a user such as a name, an e-mail address, a telephone number, and the terminal identifier may include a MAC (Media Access Control) address and a code division multiple access (CDMA) network in a WLAN. User terminals 110 and 120 such as an International Mobile Subscriber Identity (IMSI), a Connection ID (CID) in a WiMax (Worldwide Interoperability for Microwave Access) network, and an IP address in an internet network (410, 420). It can be identified. In addition, it includes all other types of identifiers that can be used for identification such as session ID and USIM ID.

The user / location management server 200 stores the user (or terminal) identifier as mapping information together with the IDs of the ESs 510 and 520 connected to the user terminals 110 and 120. Such mapping information is registered in the user / location management server 200 when the ESs 510 and 520 of each network access the user terminals 110 and 120 to the network.

The user / location management server 200 may be configured as a single centralized independent system or may be integrated with the ESs 510 and 520 and distributed.

The mapping information stored in the user / location management server 200 includes a user (or terminal) identifier and IDs of the ESs 510 and 520, as shown in FIG.

The user / location management server 200 includes various types of identifiers such as MAC addresses, IP addresses, and unique identifiers of the switches 530 and 540 as identifiers for identifying the ESs 510 and 520.

The path management server 300 maps and stores a switching path (link number and port number) between the source ES (Src_ES) 510 and the destination ES (Dest_ES) 520.

Herein, the switching path may be searched for an optimal path using a routing algorithm or a static switching path may be set by a network administrator or an operator of an Internet service provider.

The path management server 300 maps the switching information and manages the switching path in advance by the above-described method. Here, the switching information includes an ID 620 of the source ES 510, an ID 630 of the destination ES 520, and a switching path 610 as shown in FIG. 3.

In addition, the switching information includes a link number (or port number), an input / output link number (or ID) of an actual system, and a form that can be used as a comprehensive path of wavelength when using optical switching equipment.

The path management server 300 may be configured as one centralized independent system or integrated with the ESs 510 and 520 in a distributed form.

The internet networks 410 and 420 are networks that provide IP-based Internet services, including wired and wireless LAN networks.

ES (510, 520) is a switch located at the core network and the access network boundary when the user terminal is connected to the access network, the user identifier or terminal identifier and the ID of the ES (510, 520) to the user / location management server 200 Map and save.

When the data packet transmitted from the access network arrives at the ES1 510, the ES1 510 uses the receiving side address 730 of the packet to the user / location management server 200 of the ES2 520 connected to the corresponding node. Request ID 630. For example, the receiving address represents the user identifier or the terminal identifier of the corresponding node.

The ES1 510 searches for the switching path 610 to the destination in the path management server 300 using its ID and the ID 630 of the ES2 520 to which the corresponding node is connected.

When the ES1 510 receives the found switching path 610, the ES1 510 writes the data in the switching path field 610 of the data packet. Then, the ES1 510 is connected to the next switch 530 or 540 according to the switching path 610 of the packet. Send packets to the link or output port.

The switches 530 and 540 are switches located in the core network and are switches 530 and 540 through which packets pass along the switching path 610.

An operation procedure of the ES 510 and 520 and the switches 530 and 540 will be described as an example.

If the switching path 610 of the packet received by the ES1 510 is determined to be 2, 1, 1 through the search of the user / location management server 200 and the path management server 300, the ES1 510 may switch to the switching path. 610 is added to the switching path field 610 of the packet.

The ES1 510 identifies the first switching path 2 of the packet to which the switching path 610 has been added and transmits the packet through the output port 2 connected with the switching path 2.

Upon receiving the packet, the switch S2 530 checks the switching path field 610 of the packet, removes its own switching path, and transmits the packet through the output port 1 connected to the next switching path 1.

Upon receiving the packet, the switch S5 540 checks the switching path field 610 of the packet, removes its own switching path, and then transmits the packet through the output port 1 connected to the next switching path 1.

4 illustrates a packet protocol format according to an embodiment of the present invention.

The packet protocol format according to an embodiment of the present invention includes a switching path 610, a transmitting user (or terminal) identifier 720, a receiving user (or terminal) identifier 730, and a payload. 740.

The switching path field 610 indicates that the ES1 510 receiving the packet from the access network requests the path management server 300 for the switching path 610 to the destination and records the switching path 610 to the received destination. Field.

Src_ID 720) and Dest_ID 730 represent a user identifier or a terminal identifier of a transmitter and a receiver, respectively.

Payload 740 is where the actual data of the packet is located.

5 is a diagram illustrating a data transmission method in which a data packet is transmitted using a switching path according to an embodiment of the present invention.

The packet is a packet generated from the user terminals 110 and 120 connected to the internet network 410 and 420. The transmitting side identifier 720 is User1 or MS_1 110 and the receiving side identifier 730 is User2 or MS_2 120.

When the packet is received by the ES1 510, the ES1 510 transmits the receiving side identifier 730 to the user / location management server 200 (S100). The user / location management server 200 searches for the ID 630 of the ES2 520 to which the receiving terminal is connected by using the receiving user (or terminal) identifier 730, and retrieves the ID 630 of the retrieved ES2 520. Is transmitted to the ES1 510 (S102).

The ES1 510 requests the switching path to the path management server 300 using the ID 620 of its ES1 510 and the ID 630 of the received ES2 520 (S104).

The path management server 300 searches for the switching path requested by the ES1 510 using the ID 620 of the ES1 510 and the ID 630 of the ES2 520, and then searches for the switching path 610 that is found. 510 and transmits (S106).

Upon receiving the switching path 610 from the path management server 300, the ES1 510 adds the switching path field 610 to the packet and records the switching path 610.

The ES1 510 checks the switching path 2 in the switching path field 610 and transmits a packet through the output port 2 connected to the switching path 2 (S108).

Upon receiving the packet, the switch S2 530 checks the switching path field 610, removes the switching path 2, and transmits the packet through the output port 1 connected to the next switching path 1 (S110).

Upon receiving the packet, the switching S5 540 checks the switching path field 610, removes the switching path 1, and transmits the packet through the output port 1 connected to the next switching path 1 (S112).

Upon receiving the packet, the ES2 520 removes the switching path 1 by checking the switching path field 610.

The ES2 520 transmits the packet to the user terminal 120 having the payload 640 connected to the ES2 520 by using the receiver side identifier 730 of the packet (S114).

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

Claims (12)

An edge switch for requesting and receiving a switching path for transmission of a packet received from a user terminal, recording the switching path in a first switching path field, and transmitting a packet to the switching path;
Receives the user identifier or the terminal identifier and the ID of the edge switch from the edge switch to store the mapping information, and retrieves the ID of the second edge switch connected to the corresponding node using the receiving side address of the packet to the edge switch A user / location management server;
A path management server that searches for the switching path to a destination based on the ID of the edge switch and the ID of the second edge switch received from the edge switch and transmits the switching path to the edge switch; And
A switch that checks the switching path received from the edge switch, removes its own switching path from the second switching path field and sends a packet to the next individual switching path
Data transmission system comprising a. The method of claim 1,
When the packet is switched, the switch and the edge switch check the switching path field of the packet to remove the individual switching path of the packet and transmit the packet to the link or output port connected to the next individual switching path. Data transmission system, characterized in that. The method of claim 1,
The edge switch is a switch located at a boundary between an access network and a core network, and when a user terminal is connected, the edge switch maps the user identifier or the terminal identifier and the ID of the edge switch to register with the user / location management server. Data transmission system. The method of claim 1,
The path management server maps and stores the ID of the transmitting edge switch, the ID of the receiving edge switch, and the switching path, and the switching path search request from the transmitting edge switch of the edge switch to the receiving edge switch. The data transmission system, characterized in that for retrieving the switching path and stored in advance. The method of claim 1,
The user / location management server is an identifier capable of identifying the user identifier or the terminal identifier, and includes a user's name, email address, telephone number, MAC (Media Access Control) address, connection ID, session ID, And one of the USIM information and the IP address. The method of claim 1,
The user / location management server is an identifier for identifying the ID of the edge switch, characterized in that it comprises information of one of a MAC (Media Access Control) address, IP address, the unique identifier of the switch. The method of claim 1,
The switch transmits the packet to the receiving edge switch, the receiving edge switch transmits the packet to the receiving user terminal connected to the receiving edge switch by using the receiving user (or terminal) identifier of the packet. Data transmission system. The method of claim 4, wherein
The path management server stores an ID of a source edge switch which is an ID of the edge switch, an ID of a destination edge switch which is an ID of the second edge switch, and the switching path, wherein the ID of the source edge switch is a source edge switch. Identifier, the ID of the destination edge switch is the identifier of the receiving edge switch, the switching path is the link number (or port number), the input and output link number (or ID) of the actual system, the comprehensive path of the wavelength when using optical switching equipment The data transmission system, characterized in that configured and stored in the form used. The transmitting edge switch to which the transmitting user terminal is connected comprises: receiving a packet comprising a transmitting user (or terminal) identifier, a receiving user (or terminal) identifier, and a payload from the transmitting user terminal;
The transmitting edge switch obtaining ID information of a receiving edge switch to which a receiving user terminal is connected from a user / location management server using the receiving user (or terminal) identifier;
Obtaining, by the transmitting edge switch, a switching path from a path management server to a destination using its ID and the ID of the receiving edge switch; And
When the packet is switched, the switch, the transmitting edge switch, and the receiving edge switch check the switching path field of the packet to remove its own switching path from among the switching paths, Sending packets to output port
Data transmission method comprising a. 10. The method of claim 9,
Obtaining a switching path to the destination,
The protocol format of the packet received from the transmitting user terminal records the switching path obtained from the path management server in the switching path field of the packet, and identifies the transmitting user (or terminal) identifier and the receiving user (or terminal) identifier. And a payload field in which data is located, wherein the switching path of the switching path field is used to switch packets. 10. The method of claim 9,
Sending a packet to the connected link or output port,
Transmitting, by the transmitting edge switch, a packet to a switch through a link or an output port connected to an individual switching path among the obtained switching paths;
The switch identifying the first switching path field of the received packet to remove its first individual switching path and transmitting the packet to the receiving edge switch via a link or output port connected to the next individual switching path; And
The receiving edge switch identifies the second switching path field of the received packet, removes its second individual switching path, and transmits the packet to the receiving user terminal using the receiving user (or terminal) identifier. step
Data transmission method comprising a. 10. The method of claim 9,
Sending a packet to the connected link or output port,
Recording the obtained switching path in a switching path field of the packet and transmitting a packet to a switch of the obtained switching path; And
Transmitting the packet transmitted to the receiving edge switch to the receiving user terminal by the receiving edge switch;
Data transmission method comprising a.

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