KR20160076552A - Method for Managing Location of Access Point and Apparatus Therefor - Google Patents

Abstract

Disclosed are an access point (AP) location management method and a device thereof. The AP location management device obtains measurement signal information regarding APs adjacent to a specific AP; detects an AP with a changed location based on the measurement signal information to measure the location information of the AP with the changed location; and updates AP management information stored in advance using the measured location information.

Description

Field of the Invention The present invention relates to a method for managing an AP location,

This embodiment relates to a method for managing the location of an AP and an apparatus therefor.

The contents described in this section merely provide background information on the present embodiment and do not constitute the prior art.

Among various multimedia communication services, location-based service (LBS), which provides services using location and geographical information, is widely regarded as being widely utilized and convenient. In order to measure the position of a terminal, a location-based service is provided by using a network-based method of confirming a location using a propagation environment of a relay device, a GPS (Global Positioning System) A handset based method using a receiver, and a hybrid method using a combination of the two methods.

In recent years, network-based positioning technology is increasingly being used in GPS-shaded areas such as indoor and underground buildings. Among the network-based positioning techniques, the WLAN-based positioning method is based on RSSI (Received Signal Strength), which is a received signal strength of a wireless communication signal, a short distance communication signal, a beacon signal, Estimate the location. However, in the case of the RSSI-based positioning method, when the location of the pre-installed AP, that is, the beacon transmission device is changed or a problem occurs in the device, an error occurs in the positioning of the terminal and the positioning accuracy is lowered. Generally, when the position of AP is changed, it manages the movement position information of AP manually input from the manager.

In this embodiment, measurement signal information for a neighboring AP is obtained from a specific AP, location information of the changed AP is detected based on the measurement signal information, position information of the changed AP is measured, There is a main purpose of providing an AP location management method for updating the stored AP management information and an apparatus therefor.

According to an aspect of the present invention, there is provided a signal acquisition method for acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of a plurality of APs; Comparing the measurement signal information for the first AP among the AP measurement signal information with previously stored AP management information to generate signal comparison result information; Determining whether a second AP whose location is changed among the neighboring APs is present based on the signal comparison result information; A positioning process of measuring the changed position information of the second AP when it is determined that the second AP having the changed position exists; And a management step of updating the AP management information based on the changed location information.

According to another aspect of the present invention, there is provided a wireless communication system including: a signal acquisition unit for acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of a plurality of APs; Comparing the measurement signal information for the first AP among the AP measurement signal information with the previously stored AP management information, and determining whether or not there is a second AP whose position is changed among the neighbor APs based on the signal comparison result information A determination unit; A positioning process of measuring the changed position information of the second AP when it is determined that the second AP having the changed position exists; And a location manager for updating the AP management information based on the changed location information.

As described above, according to the present embodiment, large-scale APs can be systematically managed, problems such as battery discharge and device errors can be grasped, APs with moved positions can be grasped accurately, It is possible to efficiently measure the position of the object. In addition, there is an effect that manpower and cost for maneuvering the location and signal strength of the AP can be reduced manually.

1 is a block diagram schematically showing an AP management system according to the present embodiment.
2 is a block diagram schematically showing an AP and an AP management apparatus for managing the location of an AP according to the present embodiment.
3 is a flowchart for explaining a method of managing the location of an AP according to the present embodiment.
4A to 4C are exemplary diagrams for explaining an operation of managing a changed position due to a variation of the position of the AP according to the present embodiment.
5 is an exemplary diagram for explaining an operation for determining that a position of an AP has changed according to a change in signal intensity according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing an AP management system according to the present embodiment.

The AP management system according to the present embodiment includes an AP 110, an AP management apparatus 120, and a database 130. The AP management system shown in FIG. 1 is according to one embodiment. Not all of the blocks shown in FIG. 1 are required components, and in some embodiments, some blocks included in the AP management system may be added, changed or deleted have.

The AP 110 is a device for relaying wireless data communication. The AP 110 identifies destination information included in information sent from a transmitting side, designates a communication path so as to reach a receiving side, and transmits data to a communication network corresponding to a designated communication path And may be a device that broadcasts predetermined data at a predetermined period. The AP 110 can perform a local area communication (LAN) in which a plurality of terminals (not shown) can be simultaneously connected and can share information among a plurality of terminals 120 in a network environment connected to the same AP 110 You may. The AP 110 according to the present exemplary embodiment is preferably a communication company AP installed by a communication service provider, but is not limited thereto. The AP 110 includes a private AP installed by an individual user or a private business.

The AP 110 according to the present embodiment uses the short range communication to transmit a MAC address information, a received signal strength indication (RSSI), an SSID (Service Set Identifier) ID, AP identification information, and the like. Here, the AP 110 transmits the radio wave environment information in the form of a beacon signal every predetermined period. The AP 110 broadcasts a beacon signal using a Bluetooth low energy (BLE) at predetermined intervals to locate a terminal (not shown) or collects beacon signals transmitted from neighboring APs To the AP management apparatus 120. For example, the AP 110 may be one of a router, a repeater, a switch and a bridge, and may be a wireless LAN (WIFI), an ultra wideband (UWB) , AP (Infrared Data Association), Zigbee, and WPAN (Wireless Personal Area Networks), or the like.

The AP 110 according to the present embodiment includes n APs 112, 114, 116, 117, and 118 installed in the room or outside, and each of the plurality of APs 110 sequentially transmits beacon signals Mode to a reception mode for receiving a beacon signal of a nearby AP at a predetermined time (e.g., night, designated time, closed time, etc.), and transmits the collected measurement signal information to the AP management apparatus 120.

For example, the first AP 112, the second AP 114, the third AP 116, the fourth AP 117, and the nth AP 118 are sequentially switched at predetermined time or time The beacon signal for the neighboring AP is measured in the receive mode, and the beacon signal for each AP is transmitted to the AP management apparatus 120.

The AP management apparatus 120 acquires measurement signal information for each AP from each of the plurality of APs 110 and acquires measurement signal information for each AP using measurement signal information for the first AP 112, (114), measures the changed location information of the second AP (114), and updates the AP management information.

The AP management apparatus 120 acquires the measurement signal information for each AP measuring the beacon signal for the neighbor AP from each of the plurality of APs 110 and acquires the measurement signal information for the first AP 112 The presence or absence of the second AP 114 whose location has been changed is determined. Here, the measurement signal information includes a beacon ID, a signal strength information, and the like for a neighboring AP measured by a specific AP. For example, the AP management apparatus 120 receives (45: 02: 23: 90: 21, -53 dBm) from the first AP 112, (6C: : 22: 09: E2: A3, -73 dBm).

The AP management apparatus 120 compares the measurement signal information for the first AP 112 with the AP management information previously stored in the database 130 and transmits the AP comparison result information to the second AP 114, Is present. Here, the AP management information includes beacon IDs, installation location information, signal strength information, and the like for each of the plurality of APs 110, and refers to information previously stored in the database 130.

The AP management apparatus 120 determines that the second AP 114 whose position has been changed exists if the signal comparison result information exceeds the predetermined reference threshold value. For example, the AP management apparatus 120 compares the signal strength information included in the measurement signal information for the first AP 112 with the signal strength information of the previously stored AP management information, Value of -10 dBm ', it is determined that the second AP 114 has changed its position.

The AP management apparatus 120 measures the changed position information of the second AP 114 when the second AP 114 whose position is changed exists. The AP management apparatus 120 measures the changed location information based on the beacon signal of the neighboring APs collected by the second AP 114. [ More specifically, the AP management apparatus 120 detects at least three APs closest to the second AP 114 based on the beacon signals of the neighbor APs collected at the second AP 114, The signal intensity information of the beacon signals for the APs is applied to the triangular positioning method to calculate the changed position information. Here, it is preferable that the AP management apparatus 120 calculates the changed location information based on the AP management information on the second AP 114 already stored in the database 130. Here, the AP management apparatus 120 measures the changed position information of the second AP 114 only by using the triangular positioning method. However, the present invention is not limited to this, and the signal between the second AP 114 and the neighbor AP If the position information of the second AP 114 can be calculated based on the intensity information, any positioning method can be applied.

The AP management apparatus 120 updates the AP management information stored in the database 130 based on the location information on the second AP 114. [ The AP management apparatus 120 transmits the AP management information including the beacon ID, installation location information, signal strength information, and the like for each AP 110 previously stored in the database 130 to the installation location for the second AP 114 Information and signal strength information based on the location information for the second AP (114).

The database 130 refers to a general data structure implemented in a storage space (hard disk or memory) of a computer system using a database management program (DBMS). The database 130 can search (extract), delete, edit, It is a type of data storage that can be freely performed. It is a relational database management system (RDBMS) such as Oracle, Infomix, Sybase, DB2, Gemston, Orion, (OODBMS) such as O2 and O2 and an XML Native Database such as Excelon, Tamino, Sekaiju and the like for the purpose of an embodiment of the present invention. And has the appropriate fields or elements to achieve its function.

The database 130 stores and manages AP management information based on the measurement signal information received from the AP 110. [ In other words, the database 130 stores and manages AP management information including beacon IDs, installation location information, signal strength information, and the like for each of the plurality of APs 110. For example, the database 130 may include a beacon ID of '14: 24: 4E: 79: 3A', signal intensity information of '-75 dBm', and installation location information of '127.523323, 37.878874' Management information is stored and managed.

When there is a request for updating from the AP management device 120, the database 130 updates at least one piece of information included in the previously stored AP management information to perform the update.

Although the database 130 is described as being a separate device from the AP management apparatus 120, the database 130 is not necessarily limited to this and may be implemented as a storage unit (not shown) provided in the AP management apparatus 120 .

2 is a block diagram schematically showing an AP and an AP management apparatus for managing the location of an AP according to the present embodiment.

The first AP 112 according to the present embodiment includes a mode conversion unit 210, a signal collection unit 220 and an information transmission unit 230. The AP management device 120 includes a signal acquisition unit 240, A comparing unit 250, a positioning unit 260, and a position managing unit 270. [ The first AP 112 and the AP management unit 120 shown in FIG. 2 are according to one embodiment, and not all of the blocks shown in FIG. 1 are required, and in another embodiment, And some blocks included in the AP management apparatus 120 may be added, changed or deleted.

The first AP 112 receives a beacon signal of a neighboring AP among a plurality of APs 110 installed indoors or outdoors and transmits measurement signal information on the received beacon signal to the AP management apparatus 120. Herein, the first AP 112 refers to at least one reception mode AP among a plurality of APs 110, and the first AP 112 sequentially can be changed.

The mode conversion unit 210 broadcasts the beacon signal in a neighboring AP (112, 114, 116, 117, 118 in FIG. 1) in a transmission mode for transmitting a beacon signal at a predetermined time (e.g., night, designated time, And switches to a reception mode for receiving a beacon signal to be broadcasted.

The signal collecting unit 220 generates a measurement beacon signal including the beacon signal of the neighbor AP collected in the reception mode and the information transmission unit 230 transmits the measurement signal information about the collected beacon signal to the AP management apparatus 120. [ Lt; / RTI >

The operation of transmitting the measurement signal information from the second AP 114 to the nth AP 118 to the AP management apparatus 120 is the same as the operation described in the first AP 112, and a detailed description thereof will be omitted.

The AP management apparatus 120 acquires the measurement signal information for each AP from each of the plurality of APs 110 and acquires measurement signal information for each AP from the second APs 110 whose position is changed based on the measurement signal information for the first AP 112 And updates the AP management information stored in the database 130 by measuring the changed location information of the second AP 114. [ Hereinafter, each component included in the AP management apparatus 120 will be described.

The signal acquisition unit 240 acquires measurement signal information for each AP measuring the beacon signal for the neighbor AP from each of the plurality of APs 110. [ Here, the measurement signal information includes a beacon ID, a signal strength information, and the like for a neighboring AP measured by a specific AP.

The signal acquisition unit 240 may acquire the measurement signal information in the form of (beacon ID, signal strength information) from each of the plurality of APs 110. For example, (64: 83: A4: 26: 24, -83 dBm), (98: 22: 09: E2: A3, -73 dBm) And obtains measurement signal information for the beacon signal of the neighboring AP.

The signal acquisition unit 240 acquires measurement signal information from a specific AP switched from the transmission mode to the reception mode at a predetermined time among a plurality of APs 110, Quot; and " AP "

The comparison determining unit 250 determines whether there is a second AP 114 whose position has been changed using the measurement signal information of the first AP 112 among the AP measurement signal information. More specifically, the comparison determination unit 250 compares the measurement signal information for the first AP 112 with the AP management information stored in the database 130, 2 AP 114 is present. Here, the AP management information includes beacon IDs, installation location information, signal strength information, and the like for each of the plurality of APs 110, and refers to information previously stored in the database 130.

The comparison determining unit 250 compares the signal strength information included in the measurement signal information for the first AP 112 with the signal strength information included in the stored AP management information, And generates the signal comparison result information on the difference value of the signal comparison result. When the signal comparison result information exceeds the preset reference threshold value, the comparison determining unit 250 determines that the second AP 114 whose position has changed is present. For example, the comparison determination unit 250 compares the signal strength information included in the measurement signal information of the first AP 112 with the signal intensity information of the pre-stored AP management information, Value of -10 dBm ', it is determined that the second AP 114 has changed its position.

If the signal strength information for the second AP 114 does not exist in the measurement signal information for the acquired first AP 112, the comparison determining unit 250 may determine that the battery is discharged to the second AP 114, An antenna failure, a circuit failure, or the like, and generates error alarm information. Here, the error alarm information may be output as voice, text, video, etc. in an alarm unit (not shown) included in the AP management apparatus 120, but is not limited thereto, and may be an administrator terminal (Not shown).

The positioning unit 260 measures the position information of the second AP 114 whose position is changed. The positioning unit 260 according to the present embodiment measures the changed position information of the second AP 114 when the second AP 114 whose position is changed by the comparison determining unit 250 exists.

The positioning unit 260 measures the changed position information based on the beacon signal of the neighbor AP collected by the second AP 114. [ More specifically, the positioning unit 260 detects at least three APs closest to the second AP 114 based on the beacon signals of the neighbor APs collected at the second AP 114, and detects at least three The signal strength information of the beacon signal to the AP is applied to the triangular positioning method to calculate the changed position information. Here, it is preferable that the positioning unit 260 calculates the changed position information based on the AP management information about the second AP 114 previously stored in the database 130, but it is not limited thereto, It is also possible to further receive the AP management information that has collected the beacon signal of the neighboring AP from the second AP 114 after it is determined that the AP 114 exists and to calculate the changed location information using the received AP management information have.

Although it is described that the positioning unit 260 measures the changed position information of the second AP 114 only by using the triangulation method, the present invention is not limited thereto, and the signal strength between the second AP 114 and the neighbor AP If the location information of the second AP 114 can be calculated based on the information, any positioning method can be applied.

The location management unit 270 updates the AP management information stored in the database 130 based on the location information of the second AP 114. [ The location management unit 270 receives installation location information for the second AP 114 among the AP management information including the beacon ID, installation location information, signal strength information, and the like for each AP 110 previously stored in the database 130, And signal strength information based on the location information for the second AP (114). That is, the location management unit 270 changes the coordinate value included in the changed location information to the installation location information of the second AP 114, and stores the signal intensity information of the second AP 114 used for calculating the changed location information To the signal strength information for the second AP 114 to update the AP management information.

3 is a flowchart for explaining a method of managing the location of an AP according to the present embodiment.

The AP management apparatus 120 acquires the measurement signal information for each AP measuring the beacon signal for the neighboring AP from each of the plurality of APs 110 (S310). Here, the measurement signal information includes a beacon ID, a signal strength information, and the like for a neighboring AP measured by a specific AP.

The AP management apparatus 120 compares the measurement signal information for the first AP 112 among the AP measurement signal information with the previously stored AP management information (S320), and generates signal comparison result information (S330). The AP management apparatus 120 compares the measurement signal information for the first AP 112 with the AP management information previously stored in the database 130 to generate signal comparison result information.

The AP management apparatus 120 determines whether there is a second AP 114 whose location has been changed based on the signal comparison result information at step S340. If there is a second AP 114 whose location has been changed, The changed position information of the AP 114 is measured (S350). The AP management apparatus 120 determines that the second AP 114 whose position has been changed exists if the signal comparison result information exceeds the predetermined reference threshold value. Here, the AP management apparatus 120 describes that only the presence or absence of the second AP 114 whose position has been changed is determined based on the signal comparison result information. However, the present invention is not limited to this, It is possible to judge whether or not the position is changed.

In step S350, the AP management apparatus 120 measures the changed location information based on the beacon signal of the neighboring APs collected by the second AP 114. [ More specifically, the AP management apparatus 120 detects at least three APs closest to the second AP 114 based on the beacon signals of the neighbor APs collected at the second AP 114, The signal intensity information of the beacon signals for the APs is applied to the triangular positioning method to calculate the changed position information.

The AP management apparatus 120 updates the AP management information based on the measured location information (S360). The AP management apparatus 120 transmits the AP management information including the beacon ID, installation location information, signal strength information, and the like for each AP 110 previously stored in the database 130 to the installation location for the second AP 114 Information and signal strength information based on the location information for the second AP (114).

The AP management apparatus 120 determines whether it has confirmed the change of the location of all the plurality of APs installed (S370). When the AP management apparatus 120 confirms the position change for all of the plurality of APs, the AP management apparatus ends the operation for managing the AP positions. If there is an AP that has not performed the position change confirmation among the plurality of APs, The location management operation is repeatedly performed.

4A to 4C are exemplary diagrams for explaining an operation of managing a changed position due to a variation of the position of the AP according to the present embodiment.

4A shows an operation in which the first AP 112 of a plurality of APs 110 switches to a reception mode and measures beacon signals for neighboring APs and transmits measurement signal information to the AP management apparatus 120. [ For example, the first AP 112, which is one of a plurality of APs 110 installed indoors or outdoors, switches from the transmission mode to the reception mode at a preset time (for example, night, designated time, Receives the beacon signal broadcast from the neighboring AP in the receive mode, and transmits the measured beacon signal to the AP management apparatus 120.

4B illustrates an operation in which the second AP 114 of the neighboring APs of the first AP 112 moves and the received signal is changed. When the position of the second AP 114 is changed, the AP management apparatus 120 compares the measured beacon signal with the previously stored AP management information to determine whether the signal intensity information between the first AP 112 and the second AP 114 is changed .

4C shows an operation for allowing the second AP 114 to measure the location information of the changed second AP 114 in the AP management apparatus 120 based on the beacon signal received from the neighbor AP. The AP management apparatus 120 acquires the measurement signal information about the neighboring APs collected in the second AP 114 whose signal strength information has been changed, And triangulates at least three signal strength information to measure new location information for the second AP 114 whose location has changed. Here, the AP management apparatus 120 updates the measured AP location information with the AP management information for the second AP 114 that has been saved.

5 is an exemplary diagram for explaining an operation for determining that a position of an AP has changed according to a change in signal intensity according to the present embodiment.

As shown in FIG. 5A, the AP management apparatus 120 stores AP management information including installation location information, beacon ID, signal strength information, and the like for each of the plurality of APs 110.

As shown in FIG. 5 (b), the AP management apparatus 120 stores measurement signal information for each AP. For example, based on the measurement signal information collected by the first AP 112, the beacon ID, signal strength information, and the like of the neighboring APs of the first AP 112 are stored. For example, the AP management apparatus 120 stores AP management information 510 for a neighbor AP having a beacon ID of '6C: 83: A4: 26: 24' and signal strength information of '83 dBm'.

As shown in FIG. 5 (c), the AP management apparatus 120 acquires measurement signal information acquired from a predetermined AP among a plurality of APs 110. Here, the AP management apparatus 120 compares (b) and (c) of FIG. 5 and determines that the location of the corresponding AP is changed when there is an AP having a difference greater than a predetermined reference threshold value. For example, the AP management apparatus 120 transmits the positioning signal information having the beacon ID '6C: 83: A4: 26: 24', the signal strength information '-45 dBm' : &Quot; 6C: 83: " when the beacon ID exceeds' 15 dBm 'which is a preset threshold value by comparing the AP management information 510 for the neighbor APs with the signal strength information' A4: 26: 24 'is changed.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment 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.

As described above, the present embodiment is applied to an area for managing APs for positioning, so that it is possible to systematically manage APs installed in large quantities, identify problems such as battery discharge and device errors, It is a useful invention that can accurately grasp the moved APs, and can measure the moved position and efficiently manage it.

110: AP 112: 1st AP
114: second AP 120: AP management apparatus
130: Database
210: mode conversion unit 220:
230: information transmission unit 240: signal acquisition unit
250: comparison determination unit 260: positioning unit
270:

Claims (10)

A signal acquiring step of acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of the plurality of APs;
Comparing the measurement signal information for the first AP among the AP measurement signal information with previously stored AP management information to generate signal comparison result information;
Determining whether a second AP whose location is changed among the neighboring APs is present based on the signal comparison result information;
A positioning process of measuring the changed position information of the second AP when it is determined that the second AP having the changed position exists; And
And a management process of updating the AP management information based on the changed location information
Wherein the AP location management method comprises: The method according to claim 1,
The signal acquisition process includes:
Acquiring measurement signal information of each AP measured in a state where each AP included in the plurality of APs is switched from a transmission mode to a reception mode. 3. The method of claim 2,
The signal acquisition process includes:
And acquiring the measurement signal information for each AP from each of the APs of the reception mode sequentially determined based on a predetermined order among the plurality of APs. The method according to claim 1,
Wherein the comparing comprises:
And comparing the signal strength information included in the measurement signal information for the first AP with the signal strength information included in the AP management information to generate the signal comparison result information for each AP . The method according to claim 1,
In the determining,
And when the signal comparison result information exceeds a preset reference threshold value, determines that the second AP whose location has changed is present. The method according to claim 1,
In the determining,
And transmitting error alarm information when it is determined that a device error has occurred in the second AP when the measurement signal information for the second AP is not received based on the signal comparison result information. AP location management method. The method according to claim 1,
In the positioning process,
And calculating the changed location information using the neighbor beacon signal collected by the second AP. 8. The method of claim 7,
In the positioning process,
Wherein the location information is calculated by applying the signal strength of the neighbor beacon signal collected from at least three APs closest to the second AP to the triangulation method. The method according to claim 1,
The management process includes:
Changing the coordinate value included in the changed location information to the installation location information of the second AP, changing the signal strength information used for calculating the changed location information to the signal strength information of the second AP, And updating the information. A signal acquisition unit for acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of the plurality of APs;
Comparing the measurement signal information for the first AP among the AP measurement signal information with the previously stored AP management information, and determining whether or not there is a second AP whose position is changed among the neighbor APs based on the signal comparison result information A determination unit;
A positioning process of measuring the changed position information of the second AP when it is determined that the second AP having the changed position exists; And
And a location management unit for updating the AP management information based on the changed location information,
The AP management apparatus comprising:

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