KR102101882B1 - Method for Calibrating Signal Strength Between Access Point and Apparatus Therefor - Google Patents

Abstract

Disclosed is a method for correcting signal strength between APs and an apparatus therefor.
Obtain measurement signal information for each AP from each of a plurality of APs, and calibrate by adjusting the transmission signal strength between different APs based on the cross signal comparison information generated by comparing measurement signal information for each of the different APs. The present invention relates to a method for correcting signal strength between APs and an apparatus therefor.

Description

Method for calibrating signal strength between APs and apparatus therefor {Method for Calibrating Signal Strength Between Access Point and Apparatus Therefor}

The present embodiment relates to a method for correcting signal strength between APs and an apparatus therefor.

The contents described in this section merely provide background information for this embodiment, and do not constitute a prior art.

Among various multimedia communication services, in particular, a location-based service (LBS) that provides a service utilizing location and geographic information has been spotlighted for its wide availability and convenience. The location-based technology for providing location-based services is a network-based method that checks the location in software using a radio wave environment of a relay device to measure the location of a terminal, and a GPS (Global Positioning System) mounted on the terminal. It is classified into a handset based method using a receiver and a hybrid method in which these two methods are mixed.

Recently, network-based positioning technology is increasingly used in GPS shaded areas such as indoor and underground buildings. Among these network-based positioning technologies, the wireless LAN-based positioning method uses a triangulation and fingerprint method based on the received signal strength (RSSI), which is the received signal strength of a wireless communication signal, a short-range communication signal, and a beacon signal. Estimate the location. However, in the case of this RSSI-based positioning method, the pre-installed AP, that is, the beacon transmission device maintains the existing transmission signal strength, but the signal strength received from the terminal by the surrounding environment (eg, obstacles, noise, moving objects, etc.) Can be changed, and this results in lower positioning accuracy of the terminal. In general, in order to manage the signal strength information of the AP, a finger print map is generated based on the signal strength information measured by the administrator to manage the signal strength information between APs. In this case, whenever the signal strength information is changed, the administrator must manually input the changed signal strength information into the finger print map.

This embodiment obtains measurement signal information for each AP from each of a plurality of APs, and calibrates by adjusting transmission signal strengths between different APs based on cross signal comparison information generated by comparing measurement signal information for each of the different APs. The main objective is to provide a method for calibrating signal strength between APs performing (Calibration) and a device therefor.

According to an aspect of the present embodiment, a signal acquiring process of acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of a plurality of APs; A cross signal comparison process of comparing measurement signal information for each of the first AP and the second AP among the measurement signal information for each AP to generate cross signal comparison information; And adjusting the signal strength between the first AP and the second AP to perform calibration when the cross-signal comparison information exceeds a preset reference threshold. Provides a method for correcting signal strength between APs.

In addition, according to another aspect of the present embodiment, a signal acquiring unit for acquiring measurement signal information for each AP measuring a beacon signal for a neighboring AP from each of a plurality of APs; A cross-signal comparison unit that compares measurement signal information for each of the first AP and the second AP among the measurement signal information for each AP to generate cross-signal comparison information; And a signal strength adjustment unit for performing calibration by adjusting the transmission signal strength between the first AP and the second AP when the cross-signal comparison information exceeds a preset reference threshold. Provides

As described above, according to the present exemplary embodiment, the AP management device may periodically measure the signal strength of the AP at a preset time to adjust the transmit signal strength of the AP. In addition, when the AP management device can maintain the signal strength information of the AP at a preset signal strength, and when performing positioning of the terminal using the signal strength information, there is an effect of improving positioning accuracy. In addition, it is possible to manually reduce the manpower and cost due to the signal strength check and adjustment of the AP.

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 according to the present embodiment.
3 is a flowchart for explaining a method of calibrating signal strength between APs according to the present embodiment.
4 is an exemplary diagram for explaining an operation in which the AP according to the present embodiment is switched to a reception mode and transmits measured measurement signal information.
FIG. 5 is an exemplary diagram for explaining an operation in which the AP management apparatus according to the present embodiment performs calibration by adjusting the transmission signal strength of the AP.

Hereinafter, this 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 device 120, and a database 130. The AP management system shown in FIG. 1 is according to an embodiment, and not all blocks shown in FIG. 1 are required components, and in other 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, and checks destination information included in information sent by the transmitting side, designates a communication path to reach the receiving side, and then transmits the data to the communication network corresponding to the designated communication path. The device may be a device that broadcasts preset data at a preset cycle. The AP 110 may be connected to a plurality of terminals (not shown) at the same time, and perform communication in a local area (LAN) that can share information between the plurality of terminals 120 in a network environment connected to the same AP 110. You may. The AP 110 according to the present embodiment is preferably a carrier AP installed by a communication operator, but is not limited thereto, and includes an individual user or a private AP installed by the individual operator.

The AP 110 according to the present embodiment uses MAC address information, signal strength information (RSSI: Received Signal Strength Indication), SSID (Service Set Identifier) information, and beacon using the short-range communication. Broadcast radio wave environment information including information such as ID and AP identification information. Here, the AP 110 transmits the radio wave environment information at a predetermined period in the form of a beacon signal. The AP 110 broadcasts a beacon signal every predetermined period using Bluetooth Low Energy (BLE) to locate a terminal (not shown) or collect beacon signals transmitted from nearby APs. It can be transmitted to the AP management device 120. For example, the AP 110 may be one of a router, a repeater, a switch, and a bridge, and a wireless LAN (WIFI), UWB (Ultra Wideband), radio frequency (Radio Frequency) , Infrared Data Association (IrDA), Zigbee and Wireless Personal Area Networks (WPAN) can be implemented with any device if location or AP location management of the terminal is possible using short-range communication.

The AP 110 according to the present embodiment includes n APs 112, 114, 116, 117, and 118 pre-installed indoors or outdoors, and each of the plurality of APs 110 sequentially transmits a beacon signal. In a predetermined time (eg, night, designated time, closing time, etc.) in a mode, the beacon signal of a nearby AP is switched to a reception mode, and the collected measurement signal information is transmitted to the AP management device 120.

For example, the first AP 112, the second AP 114, the third AP 116, the fourth AP 117, and the n AP 118 are sequentially switched at predetermined times or times, respectively. In the reception mode, a beacon signal for a neighboring AP is measured, and measurement signal information for each AP is transmitted to the AP management device 120.

The AP management device 120 acquires measurement signal information for each AP from each of the plurality of APs 110, and transmits signal strengths between different APs based on cross signal comparison information comparing measurement signal information for each of the different APs. Adjust it. Here, different APs mean two APs having connectivity to transmit and receive beacon signals among the plurality of APs 110, and the two different APs are the first AP 112 and the second AP 114 ).

The AP management device 120 obtains measurement signal information for each AP measuring beacon signals for neighboring APs from each of the plurality of APs 110, and includes first AP 112 and second AP ( 114) Compare the measured signal information for each and generate cross signal comparison information. Here, the measurement signal information includes beacon ID, signal strength information, and the like for neighbor APs measured at a specific AP. For example, the AP management device 120 is (45: 02: 23: 90: 21 :, -53 dBm), (6C: 83: A4: 26: 24, -83 dBm) from the first AP 112, ( 98: 22: 09: E2: A3, -73 dBm) to acquire measurement signal information for a beacon signal of a neighboring AP.

The AP management device 120 compares measurement signal information for each of the first AP 112 and the second AP 114 among the acquired measurement signal information for each AP to generate cross signal comparison information. In other words, the AP management device 120 displays the first signal strength information included in the measurement signal information for the first AP 112 and the second signal strength information included in the measurement signal information for the second AP 114. The difference values calculated by comparison are generated as cross signal comparison information. Here, the first signal strength information means a signal strength value received by the first AP 112 of the beacon signal transmitted from the second AP 114, and the second signal strength information is transmitted from the first AP 112. The beacon signal means the signal strength value received by the second AP 114.

When the inter-signal comparison information exceeds a preset reference threshold, the AP management device 120 performs calibration by adjusting the transmission signal strength between the first AP 112 and the second AP 114.

The AP management device 120 adjusts the transmission signal strength for one of the first AP 112 and the second AP 114 based on the beacon management information previously stored in the database 130. The AP management device 120 compares the signal strength information for the first AP 112 and the second AP 114 with the previous signal strength information included in the beacon management information, and the signal strength information exceeding a preset reference threshold value Increase or decrease the transmission signal strength for the AP (112 or 114) having a.

The AP management device 120 adjusts the transmission signal strength until the newly generated cross-signal comparison information for the adjusted first AP 112 and the second AP 114 reaches a predetermined reference threshold or less. Repeat the action.

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), and searches, extracts, deletes, edits, adds data, etc. It refers to a data storage format that can be freely performed. Relational database management systems (RDBMS) such as Oracle, Infomix, Sybase, DB2, Gemston, Orion , Object-oriented database management system such as O2 (OODBMS) and Excelon (Excelon), Tamino (Tamino), Sekaiju (Sekaiju), etc. using XML-only databases (XML Native Database) to meet the purpose of one embodiment of the present invention It can be implemented and has suitable fields or elements to achieve its function.

The database 130 according to the present embodiment stores and manages beacon management information based on measurement signal information received from the AP 110. In other words, the database 130 stores and manages beacon management information including beacon ID, installation location information, and signal strength information for each of the plurality of APs 110. For example, the database 130 is a beacon that is a table including beacon ID of '14: 24: 4E: 79: 3A ', signal strength information of' -75 dBm 'and installation location information of' (127.523323, 37.878874) ' Store and manage management information.

When receiving the measurement signal information from the AP management device 120, the database 130 adds, changes or deletes information on the measurement signal information to information included in the pre-stored beacon management information.

Meanwhile, the database 130 is described as being a separate device from the AP management device 120, but is not limited thereto, and is implemented in the same form as a storage unit (not shown) provided inside the AP management device 120. Can be.

2 is a block diagram schematically showing an AP and an AP management apparatus 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, and the AP management device 120 includes a signal acquisition unit 240, It includes a cross signal comparison unit 250 and the signal strength adjustment unit 260. The first AP 112 and the AP management device 120 illustrated in FIG. 2 are according to an embodiment, and not all blocks illustrated in FIG. 1 are essential components, and in another embodiment, the first AP 112 And some blocks included in the AP management device 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 for the received beacon signal to the AP management device 120. Here, the first AP 112 means an AP in at least one reception mode among the plurality of APs 110, and the first AP 112 is sequentially set at a predetermined time or time in the plurality of APs 110. can be changed.

The mode conversion unit 210 broadcasts at a neighboring AP (112, 114, 116, 117, 118 in FIG. 1) at a preset time (eg, night, designated time, closing time, etc.) in a transmission mode for transmitting a beacon signal. (Broadcasting) is switched to the receiving mode to receive the beacon signal.

The signal collection unit 220 generates a measurement beacon signal including the beacon signal of the neighboring APs collected in the reception mode, and the information transmission unit 230 transmits the measurement signal information for the collected beacon signal to the AP management device 120 Transfer to.

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

The AP management device 120 acquires measurement signal information for each AP from each of the plurality of APs 110 and compares the measurement signal information for each of the different APs, and transmits the information between different APs based on the comparison information between the generated cross signals. Adjust signal strength. Here, it is assumed that different APs are the first AP 112 and the second AP 114.

The signal acquiring unit 240 acquires measurement signal information for each AP that measures a beacon signal for a neighboring AP from each of the plurality of APs 110. Here, the measurement signal information includes beacon ID, signal strength information, and the like for neighbor APs measured at a specific AP.

The signal acquisition unit 240 may acquire measurement signal information in the form of (beacon ID, signal strength information) from each of the plurality of APs 110, for example, the signal acquisition unit 240 may include the first AP 112 From (45: 02: 23: 90: 21 :, -53 dBm), (6C: 83: A4: 26: 24, -83 dBm), (98: 22: 09: E2: A3, -73 dBm), etc. Obtain measurement signal information for the beacon signal of the neighboring AP.

The signal acquiring unit 240 acquires measurement signal information from a specific AP that has been switched from a transmission mode to a reception mode at a preset time among a plurality of APs 110, and the specific AP is set in a predetermined sequence among the plurality of APs 110. Refers to APs that are sequentially changed on the basis.

The inter-signal comparison unit 250 compares the measurement signal information for each of the different APs among the obtained measurement signal information for each AP to generate cross-signal comparison information. Here, different APs mean two APs having connectivity to transmit and receive beacon signals among the plurality of APs 110, and the two different APs are the first AP 112 and the second AP 114 ).

The inter-signal comparison unit 250 compares the measurement signal information for each of the first AP 112 and the second AP 114 among the measurement signal information for each AP to generate cross-signal comparison information. In other words, the inter-signal comparison unit 250 includes the first signal strength information included in the measurement signal information for the first AP 112 and the second signal strength information included in the measurement signal information for the second AP 114. Compare to generate mutual signal comparison information. Here, the first signal strength information means a signal strength value received by the first AP 112 of the beacon signal transmitted from the second AP 114, and the second signal strength information is transmitted from the first AP 112. The beacon signal means the signal strength value received by the second AP 114.

The inter-signal comparison unit 250 generates a difference in signal strength between the first signal strength information and the second signal strength information as cross-signal comparison information. In other words, the absolute value (magnitude) of the difference between the first signal strength information and the second signal strength information is generated as cross signal comparison information.

The signal strength adjustment unit 260 adjusts transmission signal strengths of different APs based on the mutual signal comparison information.

The signal strength adjustment unit 260 performs calibration by adjusting the transmission signal strength between the first AP 112 and the second AP 114 when the cross signal comparison information exceeds a preset reference threshold.

The signal strength adjustment unit 260 adjusts the transmission signal strength for one of the first AP 112 and the second AP 114 based on the beacon management information previously stored in the database 130. For example, the signal strength adjusting unit 260 compares the signal strength information for the first AP 112 and the second AP 114 with the previous signal strength information included in the beacon management information, and the AP 112 having different signal strength information. Or 114) to increase or decrease the transmission signal strength. For example, if the signal strength information transmitted by the first AP 112 is different based on pre-stored beacon management information, the signal strength adjustment unit 260 increases the transmission signal strength for the first AP 112 by a predetermined size. Or decrease.

The signal strength adjustment unit 260 checks the installation location information of the first AP 112 and the second AP 114 based on the beacon management information previously stored in the database 130, and the first AP 112 and the second The signal attenuation function based on the cross signal comparison information between the APs 114 is calculated. Here, the signal strength adjustment unit 260 determines the AP having an abnormality in the transmission signal strength among the first AP 112 and the second AP 114 based on the signal attenuation function and adjusts the transmission signal strength of the AP.

The signal strength adjustment unit 260 acquires newly generated cross signal comparison information for the adjusted first AP 112 and the second AP 114 from the cross signal comparison unit 250, and the newly generated cross signal comparison information Repeat the operation of adjusting the transmit signal strength until it reaches below the preset reference threshold.

When the newly generated cross-signal comparison information reaches a predetermined threshold or less, the signal strength adjusting unit 260 adjusts the signal strength with the adjusted APs of the adjacent first AP 112 or the second AP 114. It is further judged whether it affects the neighboring APs by measuring. In other words, the signal strength adjusting unit 260 measures the signal strength with each of the adjusted first AP 112 or the second AP 114 and the neighboring APs to calculate measurement signal information, and the calculated measurement signal information is measured before. If it is different from the signal information, the measured signal information calculated by re-adjusting the transmitted signal strength of the adjusted first AP 112 or second AP 114 becomes the same as the previous measured signal information, that is, due to the adjusted AP The adjustment operation is repeated so that the measured signal strength of the AP is not affected.

3 is a flowchart for explaining a method of calibrating signal strength between APs according to the present embodiment.

The AP management device 120 acquires and stores measurement signal information for each AP from each of the plurality of APs 110 (S310). Here, the measurement signal information includes beacon ID, signal strength information, and the like for neighbor APs measured at a specific AP.

The AP management device 120 compares measurement signal information for each of the first AP 112 and the second AP 114, which are different from the measurement signal information for each AP (S320), and generates cross signal comparison information (S330). ). The AP management device 120 compares and calculates the first signal strength information included in the measurement signal information for the first AP 112 and the second signal strength information included in the measurement signal information for the second AP 114. The generated difference value is generated as cross signal comparison information.

The AP management device 120 checks whether the generated cross-signal comparison information exceeds a preset threshold (S340), and when the cross-signal comparison information exceeds a preset threshold, the first AP 112 and the first The transmission signal strength between the 2 APs 114 is adjusted (S350). The AP management device 120 adjusts the transmission signal strength for one of the first AP 112 and the second AP 114 based on the beacon management information previously stored in the database 130. The AP management device 120 compares the signal strength information for the first AP 112 and the second AP 114 with the previous signal strength information included in the beacon management information, and the signal strength information exceeding a preset reference threshold value Increase or decrease the transmission signal strength for the AP (112 or 114) having a.

The AP management apparatus 120 compares the measurement signal information for the first AP and the second AP whose transmit signal strength is adjusted in step S350 and newly generates cross signal comparison information (S360).

The AP management device 120 checks whether the cross-signal comparison information generated in step S360 is equal to or less than a preset threshold (S370). When the inter-signal comparison information is equal to or less than a preset threshold, the AP management device 120 stores the calibration log information adjusted with the transmission signal strength in the database (S380), and ends the process of calibrating the signal strength between APs.

Meanwhile, the AP management apparatus 120 adjusts the transmission signal strength between the first AP 112 and the second AP 114 in step S350 when the comparison result of the cross signal exceeds a preset threshold as a result of the check in step S370. The process is repeated.

The AP management device 120 determines whether signal strengths between different APs included in the plurality of APs are checked.

The AP management device 120 ends the operation of correcting the signal strength when the signal strengths between all the different APs included in the plurality of APs are performed. Meanwhile, the AP management device 120 corrects signal strengths between different APs from step S310 to correct signal strengths between different APs when the signal strengths among all the different APs included in the plurality of APs are not checked. Repeat the operation.

4 is an exemplary diagram for explaining an operation in which the AP according to the present embodiment is switched to a reception mode and transmits measured measurement signal information.

FIG. 4 illustrates an operation in which the first AP 112 among the plurality of APs 110 switches to a reception mode to measure a beacon signal for a neighboring AP and transmits measurement signal information to the AP management device 120. For example, the first AP 112, which is one of a plurality of APs 110 pre-installed indoors or outdoors, switches from a transmission mode to a reception mode at a preset time (eg, night, designated time, closing time, etc.) In the receiving mode, the beacon signal broadcast from the neighboring AP is received and the measured beacon signal is transmitted to the AP management device 120.

FIG. 5 is an exemplary diagram for explaining an operation in which the AP management apparatus according to the present embodiment performs calibration by adjusting the transmission signal strength of the AP.

The AP management device 120 acquires measurement signal information for each AP from each of the plurality of APs 110 and compares the measurement signal information for each of the first AP 112 and the second AP 114, thereby mutual signals. Generate comparison information.

5 (a), the first AP 112 and the second AP 114 transmit beacon signals with the same transmission signal strength, but the first AP 112 transmits signal strength information of '-73 dBm'. The second AP 114 has signal strength information of '-91 dBm'. In the case of an AP operating normally, when the same transmission signal strength is used, the signal strength information in the first AP 112 and the second AP 114 should be similar, but the predetermined reference threshold value as shown in FIG. If it exceeds (eg, 5 dBm), the AP management device 120 determines that a problem has occurred in the first AP 112 and the second AP 114.

As shown in (b) of FIG. 5, the AP management device 120 performs calibration to increase the transmission signal strength of the first AP 112 by '5 dBm'. As shown in (c) of FIG. 5, the AP management device 120 compares the adjusted signal strength information and, if it is not adjusted below a preset reference threshold (eg, 5 dBm), the first AP 112 ) To repeat the operation of increasing the signal strength.

As shown in (d) of FIG. 5, the AP management device 120 has the first AP 112 has signal strength information of '-72 dBm', and the second AP 114 has '-75 dBm'. When the comparison difference value is adjusted to a predetermined reference threshold (eg, 5 dBm) or less by having the signal strength information of, the operation of adjusting the transmission signal strength of the first AP 112 is terminated.

The above description is merely illustrative of the technical spirit of the present embodiment, and those skilled in the art to which this embodiment belongs may be able to make various modifications and variations without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical spirit of the present embodiment, but to explain, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of the present embodiment should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present embodiment.

As described above, the present embodiment is applied to the field of managing the AP for positioning, so that the signal strength information of the AP can be maintained at a preset signal strength, and when positioning of the terminal is performed using the signal strength information , It is a useful invention that can increase the positioning accuracy and manually reduce the manpower and cost due to the signal strength check and adjustment of the AP.

110: AP 112: first AP
114: second AP 120: AP management device
130: database
210: mode conversion unit 220: signal collection unit
230: information transmission unit 240: signal acquisition unit
250: mutual signal comparison unit 260: signal strength adjustment unit

Claims (12)

In the AP management device to correct the signal strength between the AP,
A signal acquiring process of acquiring measurement signal information for each AP measuring beacon signals for neighboring APs from each of a plurality of APs;
A cross signal comparison process of comparing measurement signal information for each of the first AP and the second AP among the measurement signal information for each AP to generate cross signal comparison information; And
When the cross-signal comparison information exceeds a predetermined reference threshold value, a signal strength adjustment process for calibrating by adjusting the transmission signal strength between the first AP and the second AP
Signal strength correction method between AP, characterized in that it comprises a. According to claim 1,
The signal acquisition process,
A method for calibrating signal strength between APs, characterized in that each AP included in the plurality of APs acquires measurement signal information for each AP measured in a state of being switched from a transmission mode to a reception mode. According to claim 2,
The signal acquisition process,
A method for calibrating signal strength between APs, characterized in that the measured signal information for each AP is obtained from each of the APs in the reception mode sequentially determined based on a preset sequence number among the plurality of APs. According to claim 1,
The mutual signal comparison process,
And comparing the first signal strength information included in the measurement signal information for the first AP with the second signal strength information included in the measurement signal information for the second AP to generate the cross signal comparison information. How to correct signal strength between APs. The method of claim 4,
The first signal strength information means a signal strength value for a beacon signal received by the first AP from the second AP, and the second signal strength information is a beacon received by the second AP from the first AP Means the signal strength value for the signal,
The mutual signal comparison process is characterized in that the signal strength value for the beacon signal received from the first AP and the signal strength value for the beacon signal received from the second AP are generated as the cross signal comparison information. How to correct signal strength between APs. The method of claim 4,
The mutual signal comparison process,
And an absolute value (magnitude) of the difference between the first signal strength information and the second signal strength information as the cross signal comparison information. According to claim 1,
The signal strength adjustment process,
A method of calibrating signal strength between APs, characterized in that the transmission signal strengths of one of the first AP and the second AP are adjusted based on the pre-stored beacon management information. The method of claim 7,
The signal strength adjustment process,
A method for correcting signal strength between APs, characterized in that the transmitted signal strength for the one AP having different signal strength information is increased or decreased compared to the previous signal strength information included in the beacon management information. The method of claim 7,
The signal strength adjustment process,
A signal calculated based on the installation location information of the first AP and the second AP included in the beacon management information, and based on the installation location information and the mutual signal comparison information between the first AP and the second AP A method for correcting signal strength between APs, wherein the AP is determined based on an attenuation function, and the transmission signal strength for the one AP is increased or decreased. The method of claim 7,
After adjusting the transmission signal strength, the process of comparing the mutual signals,
Cross signal comparison information for the first AP and the second AP is newly generated, and the signal strength adjustment process adjusts the transmission signal strength until the cross signal comparison information reaches a preset reference threshold or less. Signal strength correction method between APs, characterized in that the repeating operation. The method of claim 7,
The signal strength adjustment process,
Measurement signal information is calculated by measuring signal strength with each of the neighboring APs of the first AP or the second AP, and when the measurement signal information is different from previously stored measurement signal information, the first AP or the second AP Signal strength calibration method between APs, characterized in that the read signal strength of the readjusted. A signal acquiring unit for acquiring measurement signal information for each AP measuring beacon signals for neighboring APs from each of a plurality of APs;
A cross-signal comparison unit that compares measurement signal information for each of the first AP and the second AP among the measurement signal information for each AP to generate cross-signal comparison information; And
When the cross-signal comparison information exceeds a predetermined reference threshold value, a signal strength adjustment unit for performing calibration by adjusting the transmission signal strength between the first AP and the second AP
AP management device comprising a.

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