KR101322463B1 - Decision system and method for wide area network interface - Google Patents

Abstract

PURPOSE: A WAN interface decision system and a method thereof are provided to allow a user to continuously access to the internet according to an inputted WAN interface connection priority by using a router with a plurality of heterogeneous WAN interfaces. CONSTITUTION: A generated WAN interface connection priority list and a generated available WAN interface list are compared. One of the WAN interfaces is selected as an active tunnel, and Virtual Private Network (VPN) communication with a server is performed (S300). A state of a connection between the WAN interface and a router is checked at given intervals (S400). A connection of the active tunnel is switched according to the check result. If the reception sensitivity of the active tunnel is lower than a threshold value which is inputted through an input unit, a new active tunnel is selected (S500). [Reference numerals] (AA) Start; (BB) End; (S100) Input step; (S200) Test step; (S300) Active tunnel setting step; (S310) Standby tunnel setting step; (S400) Re-test step; (S500) Active tunnel resetting step

Description

JAN interface determination system and its determination method {Decision system and method for Wide Area Network interface}

The present invention relates to a system for determining a WAN interface and a method of determining the same, and more particularly, to a user using a router having a plurality of heterogeneous wide area network interfaces, allowing users to seamlessly access the Internet without interruption. WAN interface determination system and a method of determining the same.

When the router is connected to one WAN interface and the connection is lost while using the Internet, the router is connected to another WAN interface or a user arbitrarily selects one WAN interface and attempts to connect. In order to improve the speed, the network may be distributed by connecting several WAN interfaces at the same time. However, in such a structure, when the connected WAN interface is disconnected or the wireless reception sensitivity is weakened, so that the connection is not smooth, the user may feel that the Internet connection is interrupted. That is, a failure occurs in the connected WAN interface, and the existing Internet connection is disconnected in the process of reconnecting to the Internet through another WAN interface. Accordingly, there is an inconvenience in that the user must restart the program being used.

In addition, even if the WAN interface that was previously connected is recovered and the user wants to reconnect, the router does not recognize the connection automatically. Therefore, the user must terminate the existing connection arbitrarily and connect to the original WAN interface. It may be recognized as a failure phenomenon, and thus, the execution of the program in use may be delayed or re-executed.

In addition, Korean Patent No. 0886925 ("WAN Acceleration Optimizer and Method for Supporting Multiple Tunnels", hereinafter, referred to in prior document 1) multiplexes the tunnels among the gateways in the WAN to properly distribute the traffic, and uses a failure tunnel when a failure occurs. The structure which makes use of this normal tunnel is disclosed. However, due to the failure tunnel, there is no countermeasure against the hassle of delaying execution or re-execution of the program being used by the user.

Korea Patent Registration No. 10-0886925 (Registration date 2009.02.26.)

The present invention has been made to solve the problems of the prior art as described above, an object of the present invention in a router having a plurality of heterogeneous WAN interface, based on the input WAN interface connection priority, the user without interruption The present invention provides a WAN interface determination system capable of using the Internet and a method of determining the same.

WAN interface determination system according to an embodiment of the present invention, the LAN (Local Area Network) side connection unit 110 consisting of wireless communication and wired communication connection terminal and the WAN (Wide Area Network) side consisting of at least one communication connection terminal A router 100 including a connection unit 120, a LAN (Local Area Network) unit connected to the router 100 through the LAN side connection unit 110 and including a wired communication interface and a wireless communication interface ( 200, connected to the router 100 through the WAN side connection unit 120, including at least one WAN interface, and a VPN between the server 10 and the router 100 by the WAN interface. It is provided in the wide area network (WAN) unit 300 and the router 100 through which the virtual private network (CV) communication is performed, and at least one WAN of the WAN unit 300 from a user. And an input unit 130 for receiving a connection priority with respect to the interface.

Preferably, the WAN interface determination system compares the connection status between the WAN interface of the WAN unit 300 and the router 100 and the connection priority received through the input unit 130 and the server 10. It is characterized by determining an active tunnel WAN interface through which VPN communication takes place.

WAN interface determination method according to an embodiment of the present invention, the input step of generating at least one WAN interface connection priority list by using the WAN interface connection priority received from the user through the input unit (S100), the WAN Checking step (S200) of generating a list of available WAN interfaces by checking the connection state between the interface and the router, the WAN interface connection priority list generated in the input step (S100) and the available generation generated in the checking step (S200). Comparing the WAN interface list, by setting one of the WAN interface as an active tunnel (Active Tunnel), the active tunnel establishment step (S300) to perform a virtual private network (VPN) communication with the server, the connection between the WAN interface and the router Re-inspection step (S400) and the re-inspection step (S400) to re-inspect the state every predetermined time If the connection of the active tunnel is switched or if the reception sensitivity of the active tunnel is lower than the threshold value received through the input unit, the active tunnel resetting step (S500) is performed. It is characterized by comprising.

Preferably, the method for determining the WAN interface after performing the active tunnel setup step (S300), the WAN interface connection ranking list generated in the input step (S100) and the available WAN generated in the check step (S200) Comparing the list of interfaces, characterized in that it further comprises a standby tunnel setup step (S310) for setting one of the WAN interface to the standby tunnel (Standby Tunnel).

Preferably, the active tunnel resetting step (S500) is a threshold value in which the connection of the active tunnel is switched or the reception sensitivity of the active tunnel is input through the input unit according to the test result value of the retesting step (S400). In the lower case, the standby tunnel set in the standby tunnel setting step S310 is set as the active tunnel.

The WAN interface determination system and the determination method of the present invention by the above configuration has the effect that the user can seamlessly use the Internet based on the input WAN interface connection priority in the router having a plurality of heterogeneous WAN interfaces. There is.

In addition, by continuously monitoring the status of a plurality of WAN interfaces connected to the router, WAN interfaces with high connection priorities are connected first and foremost, thereby providing Internet services to users.

1 is a diagram schematically illustrating a WAN interface determination system according to an embodiment of the present invention.
2 is a flowchart illustrating a WAN interface determination method according to an embodiment of the present invention.
3 is an exemplary view of an active tunnel resetting step (S500) according to the result of the rechecking step (S400) of the WAN interface determination method according to an embodiment of the present invention.
4 is another exemplary diagram of an active tunnel resetting step S500 according to a result of a rechecking step S400 of a WAN interface determination method according to an embodiment of the present invention.
5 is another exemplary diagram of an active tunnel resetting step (S500) according to the result of the rechecking step (S400) of the WAN interface determination method according to an embodiment of the present invention.

Hereinafter, a WAN interface determination system and a method of determining the present invention will be described in detail with reference to the accompanying drawings. The drawings introduced below are provided by way of example so that the spirit of the invention to those skilled in the art can fully convey. Therefore, the present invention is not limited to the following drawings, but may be embodied in other forms. In addition, like reference numerals designate like elements throughout the specification.

Hereinafter, the technical and scientific terms used herein will be understood by those skilled in the art without departing from the scope of the present invention. Descriptions of known functions and configurations that may be unnecessarily blurred are omitted.

1 is a diagram schematically illustrating a WAN interface determination system according to an embodiment of the present invention. Referring to Figure 1 will be described in detail with respect to the WAN interface determination system according to an embodiment of the present invention.

WAN interface determination system according to an embodiment of the present invention may include a router 100, a local area network (LAN) unit 200 and a wide area network (WAN) unit 300, the router ( 100 may include a LAN side connection unit 110, a WAN side connection unit 120, and an input unit 130.

The LAN side connection unit 110 of the router 100 may include a wireless communication connection terminal and a wired communication connection terminal, and the WAN side connection unit 120 may include at least one connection terminal. The input unit 130 may receive a connection priority of the WAN interface of the WAN unit 300 to be connected from the user in order to perform a virtual private network (VPN) communication between the router 100 and the server 10. .

In detail, the LAN unit 200 includes a wired communication interface and a wireless communication interface, and the wired communication connection terminal of the LAN side connection unit 110 is an Ethernet (wireless communication interface) of the LAN unit 200. Ethernet) and a wireless communication connection terminal may be connected to Wi-Fi, which is a wireless communication interface of the LAN unit 200. Through the wired or wireless communication interface, a user can access the Internet by using a communication terminal possessed by the user.

In addition, the WAN unit 300 includes at least one WAN interface, and is connected through at least one or more connection terminals of the WAN-side connection unit 120, thereby providing a connection between the router 100 and the server 10. VPN communication can be made. At this time, the configuration of the WAN interface may vary according to the router 100, Ethernet for wired communication, Wi-Fi for wireless communication is basically configured, additionally HSDPA (High Speed Downlink Packet Access), Wibro (Wireless) Broadband internet (LTE), Long Term Evolution (LTE), Wireless Personal Area Network (WPAN), and 3G (3G) may be configured. The input unit 130 of the router 100 may receive a connection priority of at least one or more of the WAN interfaces to the router 100 from a user.

The router 100 may check a connection state between the WAN interface of the WAN unit 300 and the router 100, and the WAN interface desired by the user received through the test result value and the input unit 130. Active Tunnel WAN interface can be determined by comparing the connection priorities. In other words, even if the plurality of WAN interfaces are connected to the router 100, the user may automatically determine and connect the WAN interface having the highest priority based on the connection priority of the WAN interface desired by the user. The optimal connection can be maintained.

In other words, the WAN interface determination system according to an embodiment of the present invention may determine the connection order of the WAN interfaces in a router including a plurality of WAN interfaces, based on a priority designated by a user. have. By identifying the WAN interface that can be accessed in real time, by comparing the identified WAN interface with the user-specified priority, it is possible to reset the router to be connected to the high-priority WAN interface, through which connection It ensures stability and guarantees the optimal connection state desired by the user.

2 is a flowchart illustrating a WAN interface determination method according to an embodiment of the present invention. Referring to Figure 2 will be described in detail a WAN interface determination method according to an embodiment of the present invention.

WAN interface determination method according to an embodiment of the present invention comprises the input step (S100), inspection step (S200), active tunnel setting step (S300), re-inspection step (S400) and active tunnel reset step (S500) Can be.

The input step S100 may receive a connection priority with respect to the WAN interface from a user through the input unit 130 of the router 100 with respect to at least one or more of the WAN interfaces of the WAN unit 300. . A list is generated using the received connection priority of the WAN interface, and through the input unit 130, in addition to the connection priority of the WAN interface, the threshold value for the signal sensitivity of the WAN interface and the real time value are measured. A predetermined time for checking a connection state between the WAN interface and the router 100 may also be input.

The checking step S200 may check a connection state of the WAN interface connected to the router 100, and generate a list of the currently available WAN interfaces based on the checked connection state. In addition, a routing table is checked for the currently available WAN interface, and a default gateway is registered in the routing table for each WAN interface.

The active tunnel setting step (S300) is the WAN interface connection priority list generated in the input step (S100), that is, received from the user through the input unit 130 of the router 100, and the checking step ( By comparing the currently available WAN interface list generated in S200, one of the WAN interfaces may be set as an active tunnel. Through the active tunnel WAN interface, a virtual private network (VPN) communication is performed between the server 10 and the router 100. At this time, the WAN interface determination method according to an embodiment of the present invention may further comprise a standby tunnel setup step (S310) after performing the active tunnel setup step (S300), the standby tunnel setup step ( S310 compares the WAN interface connection priority list generated in the input step S100 with the currently available WAN interface list generated in the checking step S200 and selects one of the WAN interfaces as a standby tunnel ( Standby Tunnel).

The active tunnel WAN interface refers to the WAN interface having the highest priority of the WAN interface connection among the currently available WAN interface lists, and the standby tunnel WAN interface is selected by the user from the currently available WAN interface list. The WAN interface connection priority means the WAN interface of the second rank lower than the active tunnel WAN interface.

In addition, when there are three or more WAN interfaces currently available, candidates for the third-order WAN interface having a lower priority than the standby tunnel WAN interface of the WAN interface connection priority desired by the user among the currently available WAN interface lists are candidates. Tuning Tunnel Can be set as WAN interface.

The retesting step (S400) may retest the connection state between the WAN interface and the router 100 every predetermined time received from the user through the input unit 130. By doing so, the active tunnel WAN interface established through the active tunnel establishment step (S300) currently connected is performing VPN communication with the server 10, the input received from the user through the input unit 130. It may be checked whether it is lower than a threshold value, and it may be checked whether the WAN interface that is previously disconnected is additionally connected.

In the active tunnel resetting step (S500), the connection of the currently connected active tunnel WAN interface is switched or the reception sensitivity of the active tunnel WAN interface is higher than the threshold value according to the check result value of the retesting step (S400). In the lower case, the active tunnel WAN interface may be reset. In other words, in the rechecking step (S400), if the previously disconnected WAN interface is newly connected or if the connected WAN interface is disconnected, the currently available WAN interface list is modified, and accordingly, the You will also modify the routing table. When the WAN interface is added, a default gateway of the WAN interface corresponding to the routing table is added, and when the WAN interface is switched or the reception sensitivity is lower than a threshold value, the default gate of the corresponding WAN interface is added. The way will be deleted.

In addition, when the connection of the currently connected active tunnel WAN interface is switched or the reception sensitivity is lowered below the threshold, the standby tunnel WAN interface set in the standby tunnel setting step S310 is automatically activated. It is changed to the tunnel WAN interface, and through this, it is possible to stably maintain the connection based on the WAN interface connection priority desired by the user.

3 is an exemplary diagram of an active tunnel resetting step (S500) according to the result of the rechecking step (S400) of the WAN interface determination method according to an embodiment of the present invention, and in detail, the input step (S100) Through the user can be input the desired WAN interface connection priority. Through the checking step (S200) it is possible to check the connection state of the currently available WAN interface in real time, according to the test result, Figure 3 is the three WAN interface is connected to the router 100. Compare the WAN interface connection priority list desired by the user created in the input step S100 through the active tunnel setting step S300 with the currently available WAN interface list generated in the checking step S200. For the three WAN interfaces, one is set as an active tunnel WAN interface, another is a standby tunnel WAN interface, and another is a candidate tunnel WAN interface. Through the rechecking step (S400), the connection between the router 100 and the WAN interface may be inspected every predetermined time, and as shown in FIG. 3, the active tunnel WAN interface is disconnected and cannot be used. Can be. As soon as it is confirmed, the active tunnel WAN interface disconnected through the active tunnel resetting step S500 may be set as the candidate tunnel interface, and the standby tunnel WAN interface may be reset to the active tunnel WAN interface. In addition, the WAN interface set as the candidate tunnel WAN interface through the active tunnel setting step S300 is set as the standby tunnel WAN interface.

4 is another exemplary diagram of an active tunnel resetting step S500 according to a result of a rechecking step S400 of a WAN interface determination method according to an embodiment of the present invention. Through the user can be input the desired WAN interface connection priority. Through the checking step (S200), it is possible to check the connection state of the currently available WAN interface in real time, and according to the test result, three WAN interfaces are connected to the router 100 in FIG. Compare the WAN interface connection priority list desired by the user created in the input step S100 through the active tunnel setting step S300 with the currently available WAN interface list generated in the checking step S200. For the three WAN interfaces, one is set as an active tunnel WAN interface, another is a standby tunnel WAN interface, and another is a candidate tunnel WAN interface. At this time, the standby tunnel WAN interface is set through the standby tunnel setup step (S310) after performing the active tunnel setup step (S300). Through the rechecking step (S400), the connection state between the router 100 and the WAN interface may be inspected every predetermined time, and as shown in FIG. 4, the standby tunnel WAN interface is disconnected and cannot be used. Can be. Upon confirmation, the standby tunnel WAN interface disconnected through the active tunnel resetting step (S500) is deleted from the list of currently available WAN interfaces, and the candidate tunnel WAN interface can be reset to the standby tunnel WAN interface.

5 is another exemplary diagram illustrating an active tunnel resetting step S500 according to a result of a rechecking step S400 of a method of determining a WAN interface according to an embodiment of the present invention, and the input unit 130 of the router 100. The WAN interface having the highest connection priority of the WAN interface received from the user through) is disconnected and then reconnected. In detail, through the input step (S100), the user may input the desired WAN interface connection priority. Through the checking step (S200), it is possible to check the connection state of the currently available WAN interface in real time, and according to the test result, FIG. 5 shows that the two WAN interfaces are connected to the router 100. In addition, the WAN interface having the highest connection priority of the WAN interface received from the user is disconnected. Accordingly, the WAN desired by the user generated in the input step S100 through the active tunnel setting step S300 is disconnected. The interface connection priority list is compared with the list of the currently available WAN interfaces generated in the checking step S200, and among the two currently available WAN interfaces, the highest priority one is the active tunnel. The WAN interface, and the standby tunnel (Standby Tunnel) WAN interface. At this time, the standby tunnel WAN interface is set through the standby tunnel setup step (S310) after performing the active tunnel setup step (S300). Through the retesting step (S400), the connection state between the router 100 and the WAN interface may be inspected every predetermined time, and as illustrated in FIG. 5, the disconnected WAN interface is restored and connected again. May be present. Upon confirmation, the WAN interface reconnected through the active tunnel resetting step (S500) is added to the list of currently available WAN interfaces, and compared to the priority connection priority of the WAN interface received from the user, newly the active tunnel. You can reset the WAN interface. In this case, the conventional active tunnel WAN interface may be reset to the standby tunnel WAN interface, and the conventional standby tunnel WAN interface may be reset to the candidate tunnel WAN interface.

That is, in other words, the WAN interface determination method according to an embodiment of the present invention is the WAN interface connection priority generated using the WAN interface connection priority received from the user through the input unit 130 of the router 100. The ranking list, the connection state of the router 100 and the WAN interface are checked, and the generated available WAN interface list is compared, and the currently available WAN interface is selected from the active tunnel WAN interface, the standby tunnel WAN interface, and A candidate tunnel WAN interface may be set, and a VPN communication is performed between the server 10 and the router 100 through the WAN interface configured as the active tunnel WAN interface, so that a user may use the Internet using a communication terminal. Can be. In addition, when the connection state between the router 100 and the WAN interface is checked at every predetermined time input from the user, and the active tunnel WAN interface is switched or the reception sensitivity is lower than the threshold received from the user, The active tunnel WAN interface that is currently connected may be reset to the standby tunnel WAN interface. Through this, the WAN interface and the router 100 can be connected and maintained according to a user-specified priority, and a VPN is used by using the WAN interface having the highest priority among the available WAN interfaces searched in real time. By communicating, stability can be improved.

As described above, the present invention has been described by specific embodiments such as specific components and the like, but the embodiments are provided only for the purpose of better understanding of the present invention, and the present invention is limited to the above embodiment. However, various modifications and variations are possible to those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

10: Server
100: Router
110: LAN side connection portion 120: WAN side connection portion
130:
200: LAN (Local Area Network) section
300: Wide Area Network (WAN) part

Claims (5)

delete delete An input step (S100) of generating at least one WAN interface connection priority list using the WAN interface connection priority received from the user through the input unit;
A check step (S200) of checking a connection state between the WAN interface and the router to generate a list of available WAN interfaces;
Comparing the WAN interface connection priority list generated in the input step (S100) and the list of available WAN interfaces generated in the check step (S200), by setting one of the WAN interfaces as an active tunnel, Establishing an active tunnel (S300) in which a virtual private network (VPN) communication is performed with a server;
Rechecking step (S400) for rechecking the connection state between the WAN interface and the router every predetermined time; And
According to the test result value of the retest step (S400), when the connection of the active tunnel is switched, or when the reception sensitivity of the active tunnel is lower than the threshold value received through the input unit, the active tunnel for resetting the active tunnel Resetting step (S500);
WAN interface determination method comprising a.
The method of claim 3, wherein
The WAN interface determination method
After performing the active tunnel setting step (S300),
A standby tunnel for comparing one of the WAN interface connection rank list generated in the input step S100 and the list of available WAN interfaces generated in the check step S200 and setting one of the WAN interfaces as a standby tunnel. WAN interface determination method further comprises the setting step (S310).
5. The method of claim 4,
The active tunnel reset step (S500) is
When the connection of the active tunnel is switched or the reception sensitivity of the active tunnel is lower than the threshold value received through the input unit according to the test result value of the retest step S400, the standby tunnel setting step S310. And setting the standby tunnel set as the active tunnel.

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