KR20150139072A - Method and Apparatus for Automatic Quality Control of Beacon Device for Location-Based Service - Google Patents

Abstract

Disclosed are a device and a method for automatically managing a beacon device. According to an embodiment of the present invention, the device, which is used to monitor and manage multiple beacon devices, includes: a reception unit which receives a scan result obtained by scanning the beacon devices from multiple terminals providing a locating service based on a beacon signal; and an analysis unit which analyzes the scan result to determine whether each of the beacon devices normally operates.

Description

Technical Field [0001] The present invention relates to a beacon device,

The present embodiment relates to an automatic management method and apparatus for confirming whether a beacon device operates normally in a location-based service using a beacon device, and more particularly, to an automatic management method and device for checking whether a beacon device operates normally using a user terminal And more particularly, to a method and apparatus for automatic management.

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 by utilizing location and geographical information, has attracted great attention as a variety of usability and convenience.

Recently, as the demand for the establishment of the indoor ubiquitous environment is increasing, research on the location recognition technology in the indoor space is actively conducted. Satellite signals used in GPS can not be used indoors because they can not pass through walls of a building. Therefore, a so-called network-based positioning technique in which a beacon is installed at a fixed position in a shadowed area of a building such as a room or a building underground, and positioning is performed using a radio wave of the beacon is widely used.

However, if a large number of beacons are installed in the room, not only the cost increases, but also the interference and collision phenomenon between the signals may be caused, which may degrade the overall performance. Therefore, in order to reduce cost and improve accuracy, the beacon device maintains an appropriate number, which means that if a particular beacon device fails, there is no other beacon device that can replace it. Therefore, a proper identification and reporting system for failure of the beacon is required.

When a beacon device is used for indoor positioning, the beacon device is installed by a company or an individual, so a proper countermeasure against a failure is required.

Conventionally, a separate surveillance device is installed around the beacon device to check whether the beacon device is operating normally.

FIG. 1 is a diagram illustrating a system for confirming whether the beacon apparatus 110 is operating normally using the monitoring apparatus 130. As shown in FIG.

The monitoring device periodically checks whether or not a signal of the beacon device is normally received, and then transmits the contents to the surveillance management device to determine whether the beacon device is operating normally. In this case, the installation and maintenance cost of the surveillance device is excessive, and if the surveillance device fails, the normal operation of the beacon device can not be confirmed before the surveillance device is fixed.

The present embodiment provides an automatic management method and apparatus for verifying whether a beacon device is operating normally by using a user terminal in confirming whether a beacon device operates normally in a location-based service using a beacon device. have.

According to an aspect of the present invention, there is provided an apparatus for monitoring and managing a plurality of beacon devices, comprising: a receiver for receiving a scan result of scanning a plurality of beacon devices from a plurality of terminals providing a positioning service based on a beacon signal; And an analyzer for analyzing the scan result and checking whether each of the plurality of beacon devices operates normally.

According to another aspect of the present invention, there is provided a method of monitoring and managing a plurality of beacon devices, the method comprising: receiving a scan result of scanning beacon devices from a plurality of terminals; And analyzing the scan result to determine whether each of the plurality of beacon devices operates normally. According to another aspect of the present invention, there is provided a surveillance management method comprising: Wherein the beacon processor is configured to update the COUNT field of the beacon device by increasing the number of scanning of the COUNT field by one when the beacon device is scanned, A measurement unit for updating an RSSI field for the device; A collecting unit for collecting the COUNT field value and the RSSI field value for the beacon device over K (K is a natural number) difference, and a COUNT field value and an RSSI field value collected at the collecting unit to the monitoring management device And a transmitting unit.

According to the present embodiment, it is possible to confirm whether the beacon device operates normally by using the user's terminal without a separate monitoring device, thereby reducing the management cost of the indoor positioning system and increasing the efficiency.

1 is a diagram illustrating a system for confirming whether a beacon device operates normally using a monitor device.
2 is a diagram illustrating a system for confirming whether a beacon device operates normally using a user terminal according to an embodiment of the present invention.
3 is a block diagram showing components of a user terminal and a monitoring management device in a system for confirming normal operation of a beacon device using a user terminal according to the present embodiment.
4 is a flowchart illustrating a process of acquiring status information of a beacon device according to an embodiment of the present invention.
5 is a flowchart illustrating a process of collecting a beacon device propagation environment in order to determine whether a monitoring management apparatus according to the present embodiment operates normally or not.

Hereinafter, some embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that, in the drawings, like reference numerals are used to denote like elements in the drawings, even if they are shown in different drawings. Furthermore, the drawings presented are schematic representations of exemplary embodiments of the present invention, and are not necessarily to scale understood by the figures. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present disclosure rather unclear.

In describing the constituent elements of this embodiment, reference numerals such as first, second, i), ii), a), b) and the like can be used. Such a code is intended to distinguish the constituent element from other constituent elements, and the nature of the constituent element, the order or the order of the constituent element is not limited by the code. It is also to be understood that when an element is referred to as being "comprising" or "comprising", it should be understood that it does not exclude other elements unless explicitly stated to the contrary, do. Also, the terms 'module', 'module' and the like described in the specification mean a unit for processing at least one function or operation, which can be implemented as 'hardware' or 'software' or 'combination of hardware and software' have.

The present embodiment proposes an automatic management method and apparatus capable of confirming whether a beacon device is operating normally by using a user's terminal without installing a separate monitoring device.

2 is a diagram illustrating a system for confirming whether the beacon apparatus 210 is normally operated using the user's terminal 220 according to the present embodiment.

The beacon surveillance system according to the present embodiment includes a beacon device 210, a surveillance management device 240, and a terminal 220. Although the positioning apparatus may be implemented as a separate apparatus from the terminal 220, it is assumed that the positioning apparatus is implemented in the form of being mounted on the terminal 220 in the present embodiment.

The beacon device 210 is a communication node on the network that senses the surrounding information and transmits the sensed information to the base station. A node that does not know its location is called a mobile node and a node that knows its location is called a beacon node. The mobile node uses a signal received from a beacon node to identify its location do.

The beacon device 210 transmits a signal such as Wi-Fi (IEEE 802.11), Ultra Wideband (UWB), Radio Frequency (RF), Infrared Data Association (IrDA), Zigbee, And it becomes a reference point when tracking the position.

The beacon device 210 according to the present embodiment is preferably a communication device beacon device 210 installed by a communication service provider, but is not limited thereto, and may be a private beacon device 210 installed by an individual user or an individual business entity.

The surveillance management device 240 establishes a database for management of the beacon device 210. A database is a form of data storage that can freely retrieve, extract, delete, edit, and add data. It is a relational database management system such as Oracle, Infomix, Sybase, DB2 Oriented database management system (OODBMS) such as RDBMS, Gemston, Orion, O2 and the like can be implemented for the purpose of this embodiment. Further, an appropriate field can be added to achieve the desired function.

The database of the monitoring management apparatus 240 according to the present embodiment includes an ID field, a LOCATION field, a COUNT field, a Received Signal Strength Indicator (RSSI) field, and a STATUS field.

The ID field is for identification of the beacon device 210 and generally uses a MAC address. The MAC address is a unique number assigned to a network device for communication, and exists in all equipment used in a network such as an Ethernet card, a modem, a smart phone, and a beacon device. Unlike the IP (Internet Protocol), the MAC address is suitable for identification of the beacon unit 210 because the MAC address is not changed unless the component is replaced. In this embodiment, the MAC address is used to identify the beacon device 210, but any other method capable of identifying the beacon device 210 may be used.

The LOCATION field is a field indicating the location of the beacon device 210. The COUNT field is a field indicating the number of times the beacon device 210 is scanned in the terminal 220. [

The Received Signal Strength Indicator (RSSI) field is a field indicating the strength of a signal transmitted by the beacon device 210. The STATUS field is a field indicating whether the beacon device 210 operates normally.

The STATUS field may also store the reason why the beacon device 210 is abnormal if the beacon device 210 is abnormal.

The terminal 220 refers to a device capable of wirelessly transmitting and receiving various data according to a key operation or a command of a user, and any form of communication is possible as long as it can communicate with an external device. The terminal 220 may be a personal computer (PC), a laptop, a tablet PC, a cloud computing terminal, a personal digital assistant (PDA) (Mobile Communication Terminal), and smart phone (Smart Phone). The terminal 220 may be implemented as a Smart Accessory such as a Smart Watch including an UWB (Ultra Wide Band) tag or a Bluetooth tag.

Preferably, the terminal 220 is manufactured in a form having a touch screen to perform input / output through a user's operation, and can drive the location-based application through an input according to a user's operation. The terminal 220 can be installed in the form of embedding the location-based application in the terminal itself or installing the location-based application in the OS in the terminal.

For positioning, the terminal 220 may receive Wi-Fi (IEEE 802.11), UWB (Ultra Wideband), RF (Radio Frequency), Infrared Data Association (IrDA), Zigbee, (Bluetooth) or the like to obtain beacon device identification information, RSSI (Received Signal Strength Indicator) information, and the like. As the beacon device identification information, a MAC address (MAC address), an SSID (Service Set Identifier), and the like are mainly used.

The terminal 220 according to the present embodiment periodically transmits information necessary for determining whether the beacon apparatus 210 is operating normally to the monitoring and managing apparatus 240 in addition to performing positioning function by mounting the positioning apparatus.

3 is a block diagram illustrating a system for confirming whether the beacon device 210 operates normally using a user terminal 220 according to an embodiment of the present invention. Fig.

4 is a flowchart illustrating a process of acquiring status information of the beacon device 210 by the user's terminal 220 according to the present embodiment.

The summation of the COUNT field values and the average of the RSSI field values collected by the terminal are conveniently referred to as beacon status information.

The user terminal 220 periodically collects the beacon device status information and transmits the beacon device status information to the surveillance management device 240. Alternatively, the terminal 220 may automatically store information generated during the use of the positioning service, To the surveillance management device 240. FIG.

The present embodiment is not related to how the user terminal 220 collects the beacon status information. It is understood that the user terminal 220 periodically The present embodiment can be applied to not only collecting beacon status information but also collecting beacon status information without a special period. Table 1 shows a case where the first terminal 221 analyzes the beacon status information measured by the first terminal 221 And transmits the beacon device status information to the monitoring management device 240. [

The measurement unit 321 of the terminal 1 221 scans the neighboring beacon unit 210 to increase the number of scanning of the COUNT field for the corresponding beacon unit 210 by 1, And updates the RSSI field of the beacon unit 210 by calculating an average of signal intensity of the beacon unit 210 in operation S410. The beacon status information collection may be performed periodically, or may be performed without any special period using information generated automatically when using the positioning service.

Beacon status information collection is based on the collection order, primary collection, secondary collection, tertiary collection ... K car collection. The collecting unit 322 of the terminal 1 (221) collects first, second, and third collecting ... The sum of the COUNT field values for the beacon device 210 and the average of the RSSI field values are calculated (S420).

The transmission unit 323 of the terminal 1 (221) performs a primary collection, a secondary collection, a tertiary collection, And transmits the collected beacon device status information up to the K-th collection to the monitoring management device 240 (S430).

In Table 1, the measurement unit 321 of the terminal 1 (221) performs the primary collection, the secondary collection, and the tertiary collection to update the COUNT field value and the RSSI field value three times, Collects the beacon device status information obtained in the third order and the transmitting unit 323 of the terminal 1 221 transmits the beacon device status information collected in the monitoring management device 240. [ Although the present embodiment shows a process of transmitting the beacon device state information obtained over the third order to the monitoring management device 240, the method is the same even if beacon device state information is collected over the Kth order.

Table 2 is a table illustrating a process of transmitting the beacon device status information obtained by the second terminal 222 to the monitoring management apparatus 240 for the third time.

Table 3 is a table illustrating a process of transmitting the beacon device state information obtained by the third terminal 223 to the monitoring management apparatus 240 in a third step.

Table 4 is a table illustrating a process of the beacon status information received from the terminal 1 (221), the terminal 2 (222), and the terminal 3 (223) by the monitoring and managing apparatus 240.

The surveillance management device 240 analyzes the beacon device status information obtained from the N terminals 220 to determine whether the beacon device 210 operates normally. Although the monitoring and managing apparatus 240 has analyzed the beacon status information obtained from the three terminals 220 in this embodiment, the method is the same even if the number of the terminals 220 is N. [

Hereinafter, the process of determining whether the beacon unit 210 is operating normally according to the present embodiment will be described in detail.

5 is a flowchart illustrating a process of collecting a beacon device propagation environment in order to determine whether the surveillance management device 240 according to the present embodiment operates normally or not.

The generation unit 341 of the surveillance management apparatus 240 generates a scanning beacon information table for the beacon apparatus 210 that knows the initial installation position (S510). If there is a scanning beacon information table that has been created in the past, it is not necessary to separately generate a scanning beacon information table in the generating unit 341. [

The reception unit 342 of the surveillance management apparatus 240 receives the beacon device status information from the N terminals 220. [ The analyzer 343 of the surveillance management device 240 analyzes the beacon device status information received from the N terminals 220 to determine whether the beacon device 210 operates normally.

The process of the analysis unit 343 of the surveillance management apparatus 240 to determine whether the beacon unit 210 operates normally will be described in detail as follows.

When the beacon device 210 that is not present in the database is scanned, since the beacon device 210 is a beacon device 210 that has not correctly transmitted its identification ID or is not beacon device 210 that is not authorized, The analysis unit 343 of the beacon unit 240 determines that the beacon unit 210 is abnormal (S520).

When the number of scanning times of the normal beacon device 210 is SCAN _normal and the number of scanning times of the beacon device 210 collected by the monitoring management device 240 is less than SCAN _normal number, The analysis unit 343 of the monitoring management device 240 determines that the beacon device 210 is abnormal (S530) because the beacon device 210 fails to properly transmit the signal due to an obstacle or the like. The value of the scanning number SCAN _normal of the normal beacon device 210 can be arbitrarily set by the server administrator, and Table 4 shows the result when the number of scanning of the normal beacon device 210 is 15 for three periods.

When the signal strength of the normal beacon device (210) to said RSSI _normal, when monitoring managing apparatus 240, the average signal strength (RSSI) RSSI _normal or less of the beacon device (210) collecting in, the beacon device 210 The analysis unit 343 of the monitoring management device 240 determines that the beacon device is abnormal (S540) because the beacon device 210 fails to correctly transmit the signal due to a weak signal or an obstacle. The value of the signal strength RSSI _normal of the normal beacon device 210 can be arbitrarily set by the server administrator, and Table 4 shows the result when the average signal strength of the normal beacon device 210 during three periods is -80.

5, it is described that the processes S510 to S560 are sequentially executed. However, this is merely an exemplary description of the technical idea of the embodiment of the present invention, and it is to be understood that the technical knowledge in the technical field to which the embodiment of the present invention belongs It will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the essential characteristics of one embodiment of the invention, or by alternatively performing the steps of steps S510 through S560 in parallel, 5, it is not limited to the time-series order.

In applying the technical idea of the present embodiment, it is possible to determine whether the beacon device is normally operated by using the monitoring management device 240 as described above. However, even if only one user terminal 220 is used, Can be determined.

Since the monitoring management device 240 uses the beacon device status information received from the N terminals 220, it is possible to determine whether the beacon device is faulty more accurately than when only the user terminal 220 is used. However, It is impossible to know whether the beacon device is out of order if the connection to the monitoring management device 240 is impossible due to a communication failure or a failure of the monitoring management device.

Accordingly, there is a merit for determining whether the beacon device operates normally by using only one terminal 220 of the user, and the method is the same as the process for determining whether the beacon device is failed or not by the surveillance management device 240.

In order for the user's terminal 220 to determine whether the beacon device is malfunctioning, the user's terminal 220 must additionally include an analysis unit (not shown).

The analysis unit (not shown) of the user's terminal 220 analyzes the beacon status information collected at the collection unit 322 to determine whether the beacon unit 210 is operating normally.

The process of determining whether the beacon unit 210 is normally operated by the analysis unit (not shown) of the user's terminal 220 will be described in detail as follows.

When the beacon device 210 that is not present in the database is scanned, since the beacon device 210 is a beacon device 210 that is not correctly transmitting its identification ID or is not beacon device 210 that is not authorized, The analysis unit (not shown) of the beacon unit 220 determines that the beacon unit 210 is abnormal.

If the number of scanning times of the normal beacon device 210 is SCAN _normal and the number of scanning times of the beacon device 210 collected by the user terminal 220 is not more than SCAN _normal number, The analysis unit (not shown) of the user terminal 220 determines the beacon unit 210 as abnormal because the beacon unit 210 can not transmit the signal properly due to an obstacle or the like.

If the signal strength of the normal beacon device 210 is RSSI _normal and the average signal strength RSSI of the beacon device 210 collected at the user terminal 220 is RSSI _normal or less, The analysis unit (not shown) of the user terminal 220 determines the beacon device as abnormal because the beacon device 210 can not transmit the signal properly due to an obstacle or the like.

It is possible to determine whether the beacon device is operating normally by only the user's terminal 220 through the above-described process.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It will be possible. The present invention is not intended to limit the scope of the present invention but to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the claims, and all technical ideas considered to be equivalent or equivalent thereto should be construed as being included in the scope of the present invention.

110: beacon device 120: terminal
130: Monitoring device 140: Monitoring management device
210: beacon device 220: terminal
221: terminal 1 222: terminal 2
223: Terminal 3 240: Surveillance management device
321: Measuring section 322:
323: Transmitting section 341:
342: Receiving unit 343:

Claims (16)

An apparatus for monitoring and managing a plurality of beacon devices,
A receiver for receiving a scan result of scanning a plurality of beacon devices from a plurality of terminals providing a positioning service based on a beacon signal; And
Analyzing the scan result to check whether each of the plurality of beacon devices is operating normally,
The monitoring management apparatus comprising: The method according to claim 1,
Further comprising a database for managing said plurality of beacon devices. 3. The method of claim 2,
The analyzing unit,
And if the beacon device not scanned in the database is scanned, the beacon device is determined to be abnormal. The method according to claim 1,
The scan result includes:
A sum of COUNT field values for the beacon device around the terminal, and an average of RSSI field values. 5. The method of claim 4,
The analyzing unit,
When the number of scanning times of the beacon devices collected in the monitoring management device is less than a predetermined number of times, the beacon device is determined to be abnormal. 5. The method of claim 4,
The analyzing unit,
When the average RSSI value of the beacon device collected in the monitoring management device is less than a predetermined value, the beacon device is determined to be abnormal. A method for monitoring and managing a plurality of beacon devices,
Receiving a scan result of scanning beacon devices from a plurality of terminals; And
Analyzing the scan result to determine whether each of the plurality of beacon devices is operating normally
Wherein the monitoring management method comprises: 8. The method of claim 7,
In the analysis process,
And when the beacon device not in the database for managing the plurality of beacon devices is scanned, the beacon device is determined to be abnormal. 8. The method of claim 7,
The scan result includes:
A total of COUNT field values for the beacon device around the terminal, and an average of RSSI field values. 10. The method of claim 9,
In the analysis process,
And if the number of scanning times of the beacon devices collected in the monitoring management device is equal to or less than a predetermined number, the beacon device is determined to be abnormal. 10. The method of claim 9,
In the analysis process,
And if the average RSSI value of the beacon device collected by the monitoring management device is less than a predetermined value, the beacon device is determined to be abnormal. A terminal for providing a positioning service based on a beacon signal,
Updating the COUNT field for the beacon device by increasing the number of scanning of the COUNT field by one for the beacon device when the beacon device is scanned and updating the RSSI field for the beacon device by obtaining an average of the signal strength of the beacon device Measuring unit;
A collecting unit for collecting the COUNT field value and the RSSI field value for the beacon device over K (K is a natural number) difference,
A transmitting unit for transmitting the COUNT field value and the RSSI field value collected by the collecting unit to the monitoring management apparatus;
And a second terminal. 13. The method of claim 12,
The terminal comprises:
Analyzing a result of scanning the plurality of beacon devices from the terminal and checking whether each of the plurality of beacon devices is operating normally,
Further comprising: 14. The method of claim 13,
The scan result includes:
A sum of COUNT field values and an average RSSI field value for the beacon device in the vicinity of the terminal. 14. The method of claim 13,
The analyzing unit,
And if the number of scanning times of the beacon devices collected in the terminal is less than a predetermined number of times, determines the beacon device to be abnormal. 14. The method of claim 13,
The analyzing unit,
Wherein the controller determines that the beacon device is abnormal if the average RSSI value of the beacon device collected in the terminal is less than a certain value.

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