KR101447464B1 - Access-point control system consists of three switch modules - Google Patents

Abstract

The present invention relates to an access-point control system consisting of three modules. The access-point control system operates with one switch module by the connection of a first module, a second module, and a third module. The first module, the second module, and the third module operate with a distinct independent access point control module before the connection, and a specified module among the first module, the second module, and the third module operates with a main control module after interconnection. An unspecified module operates with a reserve switch module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an access point control system,

The present invention relates to an access point control system, and more particularly, to an access point control system in which three independent access point control modules are connected to each other to operate as one access point control system, The present invention relates to an access point control system that operates a module that distributes traffic to a specific access point and distributes the traffic to a specific access point to provide a stable service.

When an access point control system is operated to provide an Internet service, traffic is often increased and an overload occurs in a specific access point. If an overload is applied to an access point, the service is delayed. If the overload is severe, the access point goes down.

A common method of controlling network overload is to distribute traffic to servers that are overloaded in the event of network overload in a system where multiple servers are connected to the L4 switch.

In this method, since the degree of overload of the server connected to the L4 switch is determined by checking the CPU or memory usage rate of each server by the L4 switch, there is a problem that the L4 switch is continuously burdened. There is a problem that additional cost is incurred in expanding the server, and if the server is not added, there is a problem that the server is overloaded every period.

In order to compensate for the drawbacks of the conventional method, an additional server for backing up the load information of each server connected to the L4 switch is added to the system for controlling the overload which is composed of the servers connected to the L4 switch and the L4 switch, And the load of each server is adjusted according to the load information of each server, so that the L4 switch can connect to each server one by one and do not check the degree of the load, thereby reducing the burden of the L4 switch -0087387, 'Overload control system and method using L4 switch') has been proposed. However, in the related art, only the overhead concentrated on a specific server is distributed to the spare server, It is difficult to apply it.

The present invention has been proposed in order to overcome the limitations of the related art, and it is an object of the present invention to provide an access point control system in which three independent access point control modules are connected to each other to operate as one access point control system, The present invention provides an access point control system that operates a module that distributes traffic to a specific access point and distributes the traffic to a specific access point, thereby providing a stable service.

According to an aspect of the present invention, there is provided an access point control system operating as a single switch module by connecting a first module, a second module and a third module, the system comprising: a first module, The third module is operated as an independent access point control module before being connected, and after the first module, the second module and the third module are operated as a main control module, the unassigned module And operates as a spare switch module.

Here, the first module, the second module, and the third module each include an access point management DB for managing an access point connected to each module,

When the first module, the second module, and the third module are connected to each other, the access point management DBs included in the respective modules are synchronized with each other.

Also, when an error occurs in the operation of the module operating as the main control module, the access point management DB operating in the main control module is synchronized with the spare switch module, and the spare switch module operates as the main control module.

Wherein each of the first module, the second module, and the third module includes a POE port group supporting POE (Power on Ethernet) and an optical port group supporting optical communication, and the first module, the second module, Each of the third modules supports a virtual LAN environment, and the POE port group and the optical port group of the first module, the second module, and the third module support port bonding, respectively.

Meanwhile, the port bonding may be performed by setting as many virtual LANs as used for port bonding.

When traffic is concentrated on one of access points connected to the first module, the second module, and the third module, the main control module distributes traffic to access points connected to the spare switch module.

At this time, the traffic distribution is performed by synchronizing the access point management DB operating in the main control module with the spare switch module and connecting a terminal connected to an access point where traffic is concentrated to an access point connected to the spare switch module .

Embodiments of the disclosed technique may have effects that include the following advantages. It should be understood, however, that the scope of the disclosed technology is not to be construed as limited thereby, since the embodiments of the disclosed technology are not meant to include all such embodiments.

According to the access point control system configured by the three modules according to the present invention, the three access point control modules operating independently operate as one access point control system, and when a failure occurs in one module, It is possible to operate the operating module and distribute the traffic to a specific access point, thereby providing a stable service.

FIG. 1 shows that three access point control modules operating independently according to an embodiment of the present invention are connected to each other and operate as one access point control system.

The description of the disclosed technique is merely an example for structural or functional explanation and the scope of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, the embodiments are to be construed as being variously embodied and having various forms, so that the scope of the disclosed technology should be understood to include equivalents capable of realizing technical ideas.

FIG. 1 shows that three access point control modules operating independently according to an embodiment of the present invention are connected to each other and operate as one access point control system.

Referring to FIG. 1, the access point control system 100 operates by connection of a first module 110, a second module 120, and a third module 110.

Each of the first module 110, the second module 120, and the third module 110 is a switch module for controlling the access point, and each module supports a POE port group supporting POE (Power on Ethernet) Optical ports. According to one embodiment, the POE port group and the optical port group may each be composed of 12 ports. An access point is connected to each port to provide an access point service. An access point in the present invention is a wireless access point (WAP), which refers to a device that uses the IEEE 802.11 standard to connect wireless devices to a network using a WiFi, standard in a computer network.

Each of the first module 110, the second module 120 and the third module 110 supports a virtual LAN environment and the first module 110, the second module 120 and the third module 110 POE port group and optical port group support port bonding.

According to an embodiment, port bonding may be performed by setting as many virtual LANs as used for port bonding.

The first module 110, the second module 120, and the second module 120, which are connected to the first module 110, the second module 120, and the third module 110 to operate as one access point control system 100, The characteristics of the third module 110 will be described in detail as follows.

The first module 110, the second module 120, and the third module 110 operate as independent access point control modules before being connected to each other (FIG. 1A). After the first module 110, the second module 120, 2 and the third module operate as the main control module and the unspecified module operates as the spare switch module (FIG. 1C)

1B, when the second module 120 is designated as a main control module, the first module 110 and the third module 110 operate as a spare switch module.

Each of the first module 110, the second module 120, and the third module 110 manages an access point connected to its own module through an access point management DB. The first module 110, the second module 120 120 and the third module 110 are connected, the respective access point management DBs are synchronized with each other, and the access point connected to each module can be integrally controlled by the module designated as the main control module (the second module 120) .

On the other hand, when an error occurs in the operation of the module operating as the main control module, the spare switch module integrally controls the access point connected to each module instead of the main control module.

Since the access point management DB in the main control module is synchronized with the access point management DB of the module that is operating as the spare switch module, the module can be switched to the main control without interruption of service even if an error occurs.

According to various embodiments, the two modules may act as main control modules and the remaining modules as spare switch modules.

The main control module analyzes packets generated from each access point and when traffic is concentrated on one of the access points connected to the first module 110, the second module 120 and the third module 110 , And distributes the traffic to the access point connected to the module operating as the spare switch module.

Specifically, the traffic distribution is performed by synchronizing the access point management DB operating in the main control module with the spare switch module and connecting the terminal connected to the access point where traffic is concentrated to the access point connected to the spare switch module do.

Port bonding may be performed between the access points connected to the access point spare switch module where traffic is concentrated as needed. Also, port bonding can be performed through the virtual LAN environment when port bonding is performed. Port bonding can overcome the limitation of the radio frequency bandwidth of the access point.

According to various embodiments, the first module 110, the second module 120, and the third module 110 may each further include an administrator control unit for providing the status of traffic for each port to an administrator.

Although the disclosed method and apparatus have been described with reference to the embodiments shown in the drawings for illustrative purposes, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. I will understand that. Accordingly, the true scope of protection of the disclosed technology should be determined by the appended claims.

100: Access point control system
110: First module
120: second module
130: Third module

Claims (9)

An access point control system operating as one switch module by connection of a first module, a second module and a third module,
Wherein the first module, the second module and the third module operate as separate access point control modules before being connected, and after the first module, the second module and the third module are connected to each other, The main control module operates as an unspecified module,
If traffic is concentrated on any one of the access points connected to the first module, the second module and the third module,
The main control module synchronizes the access point management DB operating in the main control module with the access point management DB in operation in the spare switch module and transmits at least a part of the terminals connected to the access point, Connecting to an access point connected to the switch module,
If an abnormality occurs in the operation of the module operating as the main control module,
The access point management DB operating in the main control module is synchronized with the spare switch module so that the spare switch module operates as a main control module,
Each of the first module, the second module, and the third module includes a POE port group supporting POE (Power on Ethernet) and an optical port group supporting optical communication,
Wherein each of the first module, the second module, and the third module supports a virtual LAN environment,
The POE port group and the optical port group of the first module, the second module, and the third module support port bonding, respectively,
Wherein the port bonding is performed by setting as many virtual LANs as are used for port bonding.
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