KR20150106110A - Method and system for controlling WiFi connection using management server - Google Patents

Abstract

The present invention relates to a system and a method for controlling a wifi connection and, more particularly to a system and a method for controlling a wifi connection, capable of improving management efficiency, reducing cost, and securing connection quality by delivering detected access point (AP) information to a management server through a communication network and controlling connections of terminals based on the access point information. The present invention may include the following steps: (a) a terminal detects at least one wifi access point (AP); (b) the terminal delivers detection result of the AP to the management server; (c) the management server selects an optimal access point for the terminal, considering authentication of the wifi service provider with respect to each AP; (d) the management server delivers the optimal AC information to the terminal; and (e) the terminal accesses the optimal AP. Therefore, the present invention allows the terminal to deliver the detected AP information to the management server, and to access the optimal AP by considering whether the AP is authenticated by the wifi service provider, which secures service quality, improves management efficiency, and reduces cost.

Description

TECHNICAL FIELD [0001] The present invention relates to a method and system for controlling a WiFi connection using a management server,

The present invention relates to a Wi-Fi connection control method and system, and more particularly, to a Wi-Fi access control method and system for transmitting access point information retrieved in a Wi-Fi connection of a terminal to a management server via a communication network, And more particularly, to a Wi-Fi connection control method and system that can guarantee connection quality and improve operation efficiency and cost.

The wireless LAN communication (IEEE 802.11 standard), commonly known as WiFi, has been in continuous development with maintaining a complementary relationship with wireless mobile communication. WiFi is widely used for terminals that are not moving mainly in universities such as universities, airports, and historical places. In general, access points (APs) Thereby providing wide area wireless access to the terminal.

However, although the quality of a network may vary greatly depending on which access point (AP) among a plurality of access points (APs) to which the terminal is connectable, the access point (AP) For example, 802.11). Accordingly, conventionally, after scanning an access point (AP) in a conventional terminal, a list of searched access points (AP) and signal intensity information of each access point (AP) are displayed to a user and selected, If the access point (AP) that was connected is found, the access point (AP) that was previously connected is automatically connected. For example, if the strength of a WiFi signal received by the terminal is weaker than a certain threshold, the terminal re-searches surrounding access points (APs) and transmits an access point (AP) Or a method of displaying the list to the user or selecting it, and thereby connecting to a specific access point (AP) or handing over the selected access point (AP). FIG. 1 shows a sequence diagram of a procedure in which a terminal accesses an access point (AP) or performs a handover according to a conventional technique.

However, even if the signal strength of a WiFi access point to which a terminal is connected is stronger than a predetermined threshold, if too many users are attracted to a specific WiFi access point AP, It is more preferable to consider not only the signal strength of the access point AP but also the number of users connected to the specific access point AP together. Furthermore, if the signal intensity of the adjacent WiFi access point (AP) is appropriate and there are not many users, a handover to a neighboring WiFi access point (AP) is performed, so that a higher quality service can be provided to the user do. On the other hand, Korean Patent Laid-Open Publication No. 10-2013-0099532 (published on Sep. 06, 2013) analyzes the log information of an access point (AP) and transmits an access point having a deauthentication message to a saturation state And a method for selecting an access point (AP) to be connected by considering the number of connectable terminals and the number of connectable terminals in consideration of the signal strength, and a terminal thereof. In FIG. 2, ≪ / RTI > 2, when the access point (AP) scanning unit 110 searches for a signal of a peripheral access point (AP), the access point (AP) information analyzing unit 130 analyzes the signal of the access point And the number of maximum connectable terminals. The access point (AP) information second analyzer 150 calculates the signal strength of each access point (AP) It determines whether to connect to an access point (AP) based on the rank, and attempts connection. However, there is a problem in that it is quite inaccurate to determine the number of connectable terminals or accessibility of a specific access point (AP) in this manner.

In addition, since a WiFi service provider such as a mobile phone provider provides a terminal optimized for its WiFi service to a customer, it is possible to provide an access point (AP) other than the access point (AP) , There may be a variety of service quality problems in using the service of the WiFi service provider. For example, in the case of a WiFi-based call (voice, video call, messenger, etc.) service, an access point (AP) authenticated by a Wi- ) -Based home terminal, etc.), it is possible to guarantee the quality of the call. However, when the terminal accesses another unauthorized access point (AP), it is pointed out that a large number of VOCs related to the quality of service are generated.

Accordingly, a service quality related customer complaint (VOC) generated while accessing the unauthorized access point (AP) is entered into the customer center, so that the on-site employee visits the site directly and is authenticated by a WiFi service provider (AP), it is necessary to solve the problem in such a way that the indirect loss due to customer complaints as well as direct losses such as the expenses due to on-site visits of field workers are continuously generated It is important to appropriately control the WiFi access environment of the user in consideration of whether or not it is an access point (AP) authenticated by a WiFi service provider.

At this time, it may be determined based on the SSID (Service Set Identifier), which is the name of the access point (AP) equipment, as a method of determining whether or not the WiFi service provider is an authorized access point (AP) Since it is possible for the operator of the access point (AP) to modify it arbitrarily, this is also not a suitable solution.

Accordingly, whether or not an access point (AP) authenticated by a WiFi service provider is included in consideration of the number of terminals connected to the access point (AP) and the signal strength of the access point (AP) AP) to provide an optimum access environment to a user, thereby reducing a VOC (Quality of Service) related to a service quality, and to improve a direct or indirect loss, such as a processing cost, However, there is no adequate solution to this problem.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the related art as described above, and it is an object of the present invention to provide an access point (AP) authenticated by a WiFi service provider, (AP) by considering the signal intensity of the point (AP) and the like to be connected to the optimal access point (AP), thereby providing an optimal connection environment to the user and reducing the service quality related customer complaint (VOC) And to provide a Wi-Fi connection control method and system capable of improving a loss of a Wi-Fi connection.

According to an aspect of the present invention, there is provided a Wi-Fi connection control method including: (a) searching for one or more Wi-Fi access points (APs) (b) transmitting the search results of one or more access points (AP) to a management server; (c) selecting, by the management server, an optimal access point (AP) considering the authentication of a WiFi service provider for each access point; (d) the management server transmitting optimal access point (AP) information to the terminal; And (e) connecting the terminal to the optimal access point (AP).

In step (b), the MS determines whether a MAC address, an SSID, a signal strength, a signal interference ratio, a currently accessed access point (AP) And terminal location information, to the management server.

In step (c), when the management server selects an optimal access point, the management server accesses the access point, which is authenticated by the WiFi service provider, using the MAC address of each access point (AP), and can be considered.

In step (c), when the management server selects two or more APs, if there is more than one access point (AP) authenticated by the WiFi service provider, The signal interference ratio, and the number of terminals connected to the access point AP may be considered together.

In step (d), a MAC address, a WiFi service provider authentication result, and an SSID (Service Set Identifier) of an AP to be connected to the management server may be transmitted to the MS.

(F) If the terminal accesses an access point (AP), a MAC address, a service set identifier (SSID), and a signal strength of a connected access point (AP) Or signal interference rate to the management server.

If the terminal is connected to an access point (AP) authenticated by a WiFi service provider, the signal strength is lower than a predetermined threshold value (g1) after the step (e) And if the signal strength is smaller than the predetermined threshold value, the steps (a) to (e) are performed again, and (g2) the terminal is not authenticated by the WiFi service provider (A) to (e) if the mobile terminal is connected to an access point (AP) not connected to the access point.

In addition, the management server may include an access point (AP) management server that determines whether each of the searched access points is an access point (AP) authenticated by a WiFi service provider; And the number of terminals connected to each access point (AP), together with whether or not each access point (AP) is authenticated with a WiFi service provider or the signal strength of each access point (AP) And a terminal management server for selecting an optimum access point (AP) to be connected to the terminal.

A Wi-Fi access control system according to another aspect of the present invention searches for one or more Wi-Fi access points (APs), transmits the results to a management server, and transmits optimal access point (AP) information to be accessed from the management server Receiving terminal; (WiFi) service provider for each access point (AP) based on a result of searching for an access point (AP) transmitted from the access point And a management server for transmitting the same to the terminal.

Here, the terminal may transmit at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, a signal interference ratio, currently accessed AP information or terminal location information of each searched access point To the management server.

In addition, when the management server selects an optimal access point, it determines whether the access point AP is authenticated by a WiFi service provider using the MAC address of each access point AP .

When the management server has two or more access points (APs) authenticated by a WiFi service provider in selecting an optimal access point (AP), the signal strength of each access point (AP), the signal interference ratio , And the number of terminals connected to the access point (AP).

In addition, a MAC address, Wi-Fi service provider authentication information, and SSID (Service Set Identifier) of an AP to be connected to the management server can be transmitted to the terminal.

In addition, when the terminal accesses an access point (AP), the terminal transmits at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, or a signal interference ratio of a connected access point To the management server.

In addition, the management server may include an access point (AP) management server that determines whether each of the searched access points is an access point (AP) authenticated by a WiFi service provider; And the number of terminals connected to each access point (AP), together with whether or not each access point (AP) is authenticated with a WiFi service provider or the signal strength of each access point (AP) And a terminal management server for selecting an optimum access point (AP) to be connected to the terminal.

A Wi-Fi access terminal according to another aspect of the present invention searches for one or more Wi-Fi access points (APs), transmits the results to a management server, and receives an access point (AP) authenticated by a Wi- (AP) information among the plurality of access points (APs).

According to the present invention, when a terminal connects to a Wi-Fi network, the terminal transmits the retrieved access point information to the management server via the communication network to determine whether the access point is an access point (AP) authenticated by a WiFi service provider, In addition, the number of terminals connected to the access point (AP), the signal strength of the access point (AP), and the like are considered together to access the optimum access point (AP) The present invention provides a Wi-Fi connection control method and system.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.
1 is a sequence diagram of an access point (AP) access procedure of a terminal according to the related art.
2 is a block diagram of a WiFi access terminal considering connectivity and signal strength according to prior art.
3 is a sequence diagram of a Wi-Fi connection control method using a management server according to an embodiment of the present invention.
4 is a flowchart of an access point (AP) connection update method of a terminal according to an embodiment of the present invention.
5 is a block diagram of a Wi-Fi access control system utilizing a management server according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments will be described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components are not limited by the terms, and the terms are used only for the purpose of distinguishing one component from another Is used.

According to the related art, when a terminal scans an access point (AP) and determines an access point (AP) to which the user or the terminal itself will connect based on information such as signal strength information of each access point (AP) The network quality of the access point (AP) can not be properly considered. In this regard, a method of analyzing the log information of the access point (AP) to calculate the number of connectable terminals and reflecting the result in the selection of an access point (AP) to be connected is disclosed. However, this method alone can produce a very inaccurate result. Further, an access point (AP) authenticated by each Wi-Fi service provider can guarantee an access environment necessary for service provisioning. On the other hand, when the terminal accesses an unauthorized access point (AP) The service quality of the terminal may be deteriorated depending on the performance or characteristics of the access point AP. In this case, when the SSID of the AP is determined by considering the SSID (Service Set Identifier) of the AP, It is possible to modify it, so it can not be a proper solution.

According to the present invention, when a terminal accesses a Wi-Fi network, the access point (AP) information transmitted by the terminal is transmitted to the management server via the communication network and the access point (AP) authenticated by the Wi- (AP) by considering the number of terminals connected to the access point (AP), the signal strength of the access point (AP), and the like, so that the terminal can access the optimal access point (AP) A WiFi access control method and system capable of improving efficiency and cost are disclosed.

3 shows a sequence diagram of a Wi-Fi connection control method using a management server according to an embodiment of the present invention. As shown in FIG. 3, a method of controlling a Wi-Fi connection using a management server according to an embodiment of the present invention includes the steps of: (a) searching for one or more Wi-Fi access points (APs) (b) transmitting the search results of one or more access points (AP) to a management server; (c) selecting an optimal access point (AP) to which the terminal accesses, considering whether or not the management server authenticates a WiFi service provider for each access point; (d) the management server transmitting optimal access point (AP) information to the terminal; (SSID), a signal strength or a signal strength of an access point (AP) to which the terminal is connected, (e) a terminal accessing the optimal access point (AP) And transmitting at least one of the interference ratios to the management server.

Here, the management server may include an access point (AP) management server that determines whether each of the searched access points is an access point (AP) authenticated by a WiFi service provider; And the number of terminals connected to each access point (AP), together with whether or not each access point (AP) is authenticated with a WiFi service provider or the signal strength of each access point (AP) And (c) a terminal management server for selecting an optimal access point (AP) to be connected to the access point (AP) Requesting a WiFi service provider to confirm whether or not the AP is authenticated; And (c2) the access point management server returns to the terminal management server whether or not the WiFi service provider is authenticated for each access point AP. In step (c1), the terminal management server may transmit information such as a MAC address or an SSID (Service Set Identifier) of each AP to the AP management server.

In the following, the operation is divided into the above-mentioned steps in detail. First, in step (a), the terminal searches for a Wi-Fi access point (AP). When one or more access points (AP) are searched, the search result is transmitted to the management server to calculate an access point (AP) to be connected. Of course, when one access point (AP) is not searched, there is no meaning since there is no access point (AP) that can be connected.

Next, in step (b), the MS determines a MAC address, an SSID (Service Set Identifier), a signal strength, a signal interference ratio, access point information (AP) And terminal location information to the management server to consider an access point (AP) to be connected.

In step (c), when the management server selects an optimal access point, the WiFi service provider uses the information such as the MAC address of each access point, It is determined whether it is an access point (AP), and an optimal access point (AP) to be connected to the terminal is selected in consideration of this.

At this time, when the management server selects two or more access points (APs) authenticated by the WiFi service provider, the signal strength of each access point (AP), signal interference Rate and the number of terminals connected to the access point (AP) together to select the optimum access point (AP). Here, the number of terminals connected to each access point (AP) may be calculated by, for example, transmitting the access information to a management server when each terminal accesses a specific access point (AP).

Next, in step (d), the management server transmits an access point (access point) to access the access point such as a MAC address, a WiFi service provider authentication, and an SSID (Service Set Identifier) AP) to be transmitted.

Accordingly, in the step (e), the terminal can access the AP with the optimal access point according to the received information. In the step (f), the MAC address of the access point (SSID), a signal strength (SSID), and a signal interference ratio to a management server. The management server determines whether each terminal is connected to an access point (AP) The number of terminals connected to the AP, the number of terminals connected to the AP, and the connection environment of each terminal are grasped and information is provided so that the WiFi access control can be performed more efficiently.

4 is a flowchart of an access point (AP) connection update method of a terminal according to an embodiment of the present invention. (G) a terminal access point (AP) authenticated by a WiFi service provider every predetermined period of time (S410), in addition to the first access operation through a series of steps for controlling the connection of the terminal, If the terminal is connected to an access point (AP) authenticated by a WiFi service provider, it is determined whether the signal strength is higher than the WiFi signal strength (S430) If the signal strength is smaller than the predetermined threshold value, the mobile terminal repeats steps (a) to (e) (S450). (G2) When the WiFi service provider is connected to an access point (AP) not authorized by the WiFi service provider, it is preferable to perform the above steps (a) to (e) again (S450) Number There.

FIG. 5 shows a block diagram of a Wi-Fi access control system 500 utilizing a management server according to an embodiment of the present invention. 5, a WiFi access control system 500 utilizing a management server according to an embodiment of the present invention searches for one or more WiFi access points 530 and transmits the result to the management server 520 And transmits the information to the access point 530 through the access point 530 based on the access point 530 retrieved from the terminal 510 and the access point 530 receiving the optimal access point 530 information from the management server 520, A management server (not shown) for selecting an optimal access point 530 to which the terminal 510 accesses and transmitting the selected access point 530 to the terminal 510 considering the authentication of the WiFi service provider for the point 530 520).

At this time, the terminal 510 and the management server 520 can exchange necessary information with each other using a communication network 540 such as a wireless mobile communication network. The communication network 540 can be used without any limitation as long as it can perform information transmission between the terminal 510 and the management server 520 in addition to the wireless mobile communication network. For example, it is possible to use an open Wi-Fi network if necessary.

In addition, the terminal 510 transmits a MAC address, an SSID (Service Set Identifier), a signal strength, a signal interference ratio, AP information of a currently accessed AP or terminal position information And the management server 520 transmits the at least one of the WiFi service provider 530 and the WiFi service provider 520 using the MAC address of each access point 530 received from the terminal 510, (AP), and selects an optimal access point (AP) to which the terminal 510 accesses in consideration of the access point (AP).

Further, when the management server 520 selects an optimal access point AP to which the terminal 510 accesses, the access point 530 authenticated by the WiFi service provider is searched among the searched access points AP It is more preferable to consider at least one of the signal strength of each access point 530, the signal interference ratio, and the number of the terminals 510 connected to the access point 530 together.

Accordingly, when the optimal access point 530 to be connected to the terminal 510 is selected, the MAC address of the access point AP to be connected to the management server 520, whether or not the WiFi service provider is authenticated, And transmits an SSID (Service Set Identifier) to the SS 510.

When the terminal 510 succeeds in attempting to access the access point 530, the terminal 510 transmits a MAC address, an SSID (Service Set Identifier), and a MAC address of the connected access point 530, The signal strength or the signal interference ratio is transmitted to the management server 520 and the management server 520 reflects the signal strength or the signal interference ratio to the WiFi connection control so that the connection environment of each user can be maintained more efficiently .

The management server 520 includes an access point management server 524 for determining whether each searched access point 530 is an access point 530 to be authenticated by a WiFi service provider, The number of terminals 510 connected to each access point 530 and the signal strength of each access point 530 and the number of terminals 510 connected to each access point 530 together with the authentication of the WiFi service provider of the terminal 530 And a terminal management server 522 for selecting an optimal access point 530 to be connected to the access point 530.

At this time, the access point (AP) management server 524 may include a database for holding and managing a list of the access points 530 to be authenticated by the WiFi service provider.

Further, the Wi-Fi access terminal 510 according to another aspect of the present invention searches for one or more Wi-Fi access points 530 and transmits the results to the management server 520, The WiFi access terminal 510 can be configured to receive the optimal access point 530 information among the access points 530 authenticated by the Wi-Fi service provider and access the optimal access point 530, thereby assuring a more stable access environment.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments described in the present invention are not intended to limit the technical spirit of the present invention but to illustrate the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

110: access point (AP)
130: Access point (AP)
150: Access point (AP)
170:
500: Wi-Fi access control system using management server
510:
520: management server
522: terminal management server
524: Access point (AP) management server
530: access point (AP)
540: Communication network

Claims (16)

(a) the terminal retrieving one or more WiFi access points (APs);
(b) transmitting the search results of one or more access points (AP) to a management server;
(c) selecting an optimal access point (AP) to which the terminal accesses, considering whether or not the management server authenticates a WiFi service provider for each access point;
(d) the management server transmitting optimal access point (AP) information to the terminal; And
(e) connecting the terminal to the optimal access point (AP). The method according to claim 1,
In the step (b)
The terminal manages at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, a signal interference ratio, access point information (AP) currently connected or terminal position information of each searched access point And transmitting the data to the server. The method according to claim 1,
In the step (c)
When the management server selects an optimal access point (AP)
(AP) authenticated by a WiFi service provider by using a MAC address of each access point (AP). The method of claim 3,
In the step (c)
When the management server selects an optimal access point (AP)
If there is more than one access point (AP) authorized by a WiFi service provider,
The signal strength of each access point (AP), the signal interference ratio, and the number of terminals connected to the access point (AP) are considered together. The method according to claim 1,
In the step (d)
A MAC address of an access point to be connected to the management server, a WiFi service provider authentication result, and an SSID (Service Set Identifier) to the terminal. The method according to claim 1,
Following step (e) above,
(f) when the terminal accesses an access point (AP)
Further comprising transmitting at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, and a signal interference ratio of a connected access point (AP) to a management server . The method according to claim 1,
Following step (e) above,
(g) for every predetermined period of time,
(g1) when the terminal is connected to an access point (AP) authenticated by a WiFi service provider,
If the signal strength is greater than a predetermined threshold value, the conventional connection state is maintained,
If the signal strength is smaller than the predetermined threshold value, the steps (a) to (e) are repeated,
(g2) when the terminal is connected to an access point (AP) not authenticated by a WiFi service provider, repeating the steps (a) to (e) Control method. The method according to claim 1,
The management server includes:
An access point (AP) management server for determining whether each searched access point (AP) is an access point (AP) authenticated by a WiFi service provider; And
Considering at least one of whether or not each access point is authenticated with a WiFi service provider or the signal strength of each access point and the number of terminals connected to each access point AP,
And a terminal management server for selecting an optimal access point (AP) to which the terminal will connect. Searches for one or more WiFi access points (APs) and transmits the results to the management server,
A terminal for receiving and accessing optimal access point (AP) information to be connected from the management server, and
(AP) to be connected to the terminal in consideration of the authentication of a WiFi service provider for each access point (AP) based on an access point (AP) search result transmitted from the terminal,
And a management server for transmitting the data back to the terminal. 10. The method of claim 9,
The terminal manages at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, a signal interference ratio, access point information (AP) currently connected or terminal position information of each searched access point To the server. 10. The method of claim 9,
When the management server selects an optimal access point (AP)
(AP) authenticated by a WiFi service provider using a MAC address of each access point (AP). 12. The method of claim 11,
When the management server selects an optimal access point (AP)
If there is more than one access point (AP) authorized by a WiFi service provider,
The signal strength of each access point (AP), the signal interference ratio, and the number of terminals connected to the access point (AP) together. 10. The method of claim 9,
Wherein the MAC address of the access point to which the management server accesses, the authentication of the WiFi service provider, and the SSID are transmitted to the terminal. 10. The method of claim 9,
When the terminal accesses an access point (AP)
Wherein the terminal transmits at least one of a MAC address, an SSID (Service Set Identifier), a signal strength, and a signal interference ratio of a connected access point to a management server. 10. The method of claim 9,
The management server includes:
An access point (AP) management server for determining whether each searched access point (AP) is an access point (AP) authenticated by a WiFi service provider; And
Considering at least one of whether or not each access point is authenticated with a WiFi service provider or the signal strength of each access point and the number of terminals connected to each access point AP,
And a terminal management server for selecting an optimal access point (AP) to be connected to the terminal. Searches for one or more WiFi access points (APs) and transmits the results to the management server,
(AP) information among access points (APs) authenticated by the Wi-Fi service provider from the management server, and accesses the Wi-Fi access terminal.

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