JP7097598B2 - Signal transmitter - Google Patents

Description

The present invention relates to a signal transmission device and the like included in an information collection system using signals.

In recent years, business models that use beacon signals, such as an advertisement distribution system that transmits a beacon signal using BLE (Bluetooth Low Energy) and push notifications of information such as advertisements and coupons, have been attracting attention. BLE has lower power consumption than Bluetooth (registered trademark), and can be used for a long period of time by using a coin battery, a button battery, or the like. In addition, the beacon signal transmitter can be installed anywhere. Therefore, there is a great demand for a system using a beacon signal transmitted by BLE.

For example, Non-Patent Document 1 discloses a coupon ticketing system using BLE. In the system disclosed in Non-Patent Document 1, a beacon transmitter capable of communicating by BLE is installed in a store, and a smart phone capable of communicating by BLE receives a BLE advertisement signal transmitted from the beacon transmitter. There is. Then, the smart phone transmits the ID information included in the BLE advertisement signal to the server, and obtains the coupon related to the store from the server.

“What is iBeacon?” [Online] [Search on November 24, 2017], Internet <URL: http://smartphone-ec.net/ibeacon/system.html>

As described above, a system equipped with a BLE module that transmits a beacon signal using BLE is in high demand and can be used for various purposes. The above-mentioned Non-Patent Document 1 describes a system for distributing a coupon to a smartphone that has received a beacon signal, but the possible uses are not limited to this.

The beacon transmitter can be installed in various places, and the beacon signal is periodically transmitted. Further, no special operation is required to receive the beacon signal, and the beacon signal can be received as long as it is within the reach of the beacon signal.

However, the above-mentioned prior art does not fully utilize the characteristics of such a beacon signal.

One aspect of the present invention is to realize a signal transmission device capable of easily and appropriately transmitting information from a device or the like based on the characteristics of a beacon signal as described above.

In order to solve the above problem, the signal transmitting device according to one aspect of the present invention is for determining the attribute of the installation location of the own device by the acquisition unit for acquiring specific information in the external device and the short-range wireless communication. The first signal including the identification information is repeatedly transmitted, and the second signal including the specific information is transmitted, or the identification information for discriminating the attribute of the installation location of the own machine as the second signal, and It is characterized by being provided with a transmission unit that repeatedly transmits a signal including specific information from an external device.

A signal transmitting device that repeatedly transmits identification information can be used as a position beacon. Positional beacons can be installed in various locations and are in high demand. Then, according to the above-mentioned configuration, the specific information of the external device is transmitted by using the signal transmitting device.

As a result, specific information can be easily received as long as it is within the reach of short-range wireless communication.

Further, the transmitted specific information can be transmitted to the network via, for example, a mobile communication terminal. Therefore, specific information from an external device that is not connected to the network can be sent to the network. Further, since there is a high possibility that a large number of mobile communication terminals exist within the reach of short-range wireless communication, it is possible to reliably transmit specific information from an external device that is not connected to the network to the network.

The signal transmitting device according to one aspect of the present invention includes a receiving unit that receives a reception confirmation signal transmitted by short-range wireless communication from the mobile communication terminal that has received the first signal, and the transmitting unit is the receiving unit. The second signal may be transmitted after receiving the confirmation signal.

According to the above configuration, after confirming the reception confirmation signal, the specific information is transmitted. As a result, the specific information is transmitted only to the mobile communication terminal that has transmitted the reception confirmation signal. If the transmission of the reception confirmation signal is a function of a specific application, the specific information can be transmitted only when the mobile communication terminal on which the specific application is installed is within the reach of short-range wireless communication. can.

The signal transmitting device according to one aspect of the present invention includes a signal processing unit that divides the specific information into a plurality of pieces of information and includes each of the divided information in the plurality of the second signals, and the transmitting unit is divided. The second signal including the specific information may be transmitted.

According to the above configuration, even if the amount of information of the specific information exceeds the amount of information that can be included in a single second signal, it can be transmitted.

According to one aspect of the present invention, there is an effect that specific information can be easily received as long as it is within the reach of short-range wireless communication.

It is a figure which shows the whole outline of the information gathering system which concerns on this embodiment. It is a block diagram which shows the main part structure of the automatic door system included in the said information gathering system. It is a block diagram which shows the main part composition of the mobile communication terminal A included in the said information gathering system. It is a block diagram which shows the main part structure of the mobile communication terminal B included in the said information gathering system. (A) to (c) are diagrams showing a structural example of a beacon signal transmitted from the automatic door system. It is a figure which shows the structural example of the 2nd signal at the time of transmitting maintenance information by dividing into a plurality of parts. It is a figure which shows the example of the data transmitted from the said mobile communication terminal A. It is a sequence diagram which shows the flow of processing in the said information gathering system. It is a sequence diagram which shows the flow of processing in the said information gathering system. (A) to (f) are diagrams for explaining a usage example of maintenance information.

[Overview]
First, with reference to FIG. 1, the overall outline of the information collection system 100 according to the present embodiment will be described. As shown in FIG. 1, the information collection system 100 according to the present embodiment includes an automatic door system 40, one or more mobile communication terminals A10, a mobile communication terminal B20, a mobile communication terminal C30, and an advertisement distribution server (second server). The mobile communication terminal A10, the mobile communication terminal B20, and the mobile communication terminal C30, and the advertisement distribution server 50 and the automatic door management server 60 include 50, an automatic door management server (first server) 60, and a remote management device 70. It is connected so as to be communicable by the network 80.

The mobile communication terminal A10, the mobile communication terminal B20, and the mobile communication terminal C30 may not all be included, and may be configured to include only the mobile communication terminal A10, or may be configured to include only the mobile communication terminal A10. And the mobile communication terminal B20 may be included, or the mobile communication terminal A10 and the mobile communication terminal C30 may be included.

The automatic door system 40 is a system including an automatic door that detects a person and opens the door. Details of the automatic door system 40 will be described later.

The mobile communication terminal A10 is a mobile communication terminal existing in the vicinity of the automatic door system 40, and the owner passes the vicinity of the automatic door system 40 to receive a signal from the automatic door system 40. Then, the information included in the received signal is transmitted to the advertisement distribution server 50 and the automatic door management server 60 via the network 80. Details of the mobile communication terminal A10 will be described later.

The mobile communication terminal B20 is a mobile communication terminal possessed by the owner, owner, or the like of the automatic door system 40, and the owner receives a signal from the automatic door system 40 by operating the mobile communication terminal B20. Then, the information included in the received signal is transmitted to the automatic door management server 60 via the network 80. Details of the mobile communication terminal B20 will be described later.

The mobile communication terminal C30 is a mobile communication terminal owned by the installer of the automatic door system 40, a door supplier, etc., and is used for setting the automatic door system 40 and the like.

The mobile communication terminal A10, the mobile communication terminal B20, and the mobile communication terminal C30 may all be mobile communication terminals having the same function, and may be the mobile communication terminal A10 or the mobile communication terminal B20 depending on the application. It can also be a mobile communication terminal C30. Further, since normal functions as a mobile communication terminal (voice call, sending / receiving e-mail, browsing a Web page, executing an application, etc.) are possible with known techniques, the description thereof will be omitted here.

The advertisement distribution server 50 is connected to the mobile communication terminal A10 via the network 80, and for example, advertisements, coupons, profitable information, etc. (privilege information) corresponding to the identification information notified from the mobile communication terminal A10. It is transmitted to the mobile communication terminal A10. The identification information is information included in the signal transmitted from the automatic door system 40. The details of the identification information will be described later.

The automatic door management server 60 manages information for managing the automatic door system 40 by storing maintenance information (specific information) transmitted from the mobile communication terminal A10 or the mobile communication terminal B20. The maintenance information is various information detected by the automatic door system 40, and is, for example, the number of people passing through, the number of times of opening and closing, the presence / absence / time of impact, the presence / absence of vibration, the load of the door drive unit, the ambient temperature, the humidity, and the like.

The remote management device 70 is a device for managing the automatic door system 40 by using the maintenance information stored in the automatic door management server 60.

The network 80 enables transmission / reception of information in a connected device, and includes, for example, the Internet.

In the information collecting system 100 according to the present embodiment, the maintenance information detected by the automatic door system 40 is included in the beacon signal transmitted from the automatic door system 40 and transmitted to the mobile communication terminal A10, and the mobile communication terminal A10 receives the information. The maintenance information is transmitted to the automatic door management server 60. There may be a configuration in which the maintenance information detected by the automatic door system 40 is transmitted to the mobile communication terminal B20, and the maintenance information received by the mobile communication terminal B20 is transmitted to the automatic door management server 60.

As described above, the mobile communication terminal A10 is a communication terminal existing in the vicinity of the automatic door system 40, and when the owner of the mobile communication terminal A10 passes near the automatic door system 40, the automatic door system 40 The signal is received and the maintenance information included in the signal is transmitted to the automatic door management server 60. As a result, maintenance information of the automatic door system 40 that is not connected to the network can be easily transmitted to the automatic door management server 60.

The amount of communication data when the maintenance information is transmitted from the mobile communication terminal A10 may or may not be weighed as the communication allowance assigned to the owner. If it is not weighed as the communication allowance assigned to the owner, for example, the amount of communication data for the transmission of maintenance information is weighed separately from the amount of other communication data, and the maintenance information is on the communication company side. This can be achieved by not weighing the amount of communication data transmitted in the above as the communication allowance assigned to the owner.

[Configuration of automatic door system]
Next, the main part configuration of the automatic door system 40 will be described with reference to FIG. FIG. 2 is a block diagram showing a main configuration of the automatic door system 40. As shown in FIG. 2, the automatic door system 40 includes a BLE module (signal transmitting device) 410, various sensor units 420, a door system setting unit 430, a door sensor unit 440, and a door control unit 450, and is provided by the CAN communication network 400. These are connected so that they can communicate.

The CAN communication network 400 is a communication network in which devices connected by a CAN (Controller Area Network) can communicate with each other.

The BLE module 410 is a module capable of transmitting a signal using BLE (Bluetooth Low Energy), which is one of short-range wireless communication, and is a transmission signal generation unit (acquisition unit, signal processing unit) 411 and a request signal reception unit. (Reception unit) 412 and signal transmission unit (transmission unit) 413 are included. The signal transmitted from the BLE module 410 may be a signal transmitted in a predetermined cycle, for example, a beacon signal. It should be noted that the beacon signal may be transmitted using short-range wireless communication other than BLE. The details of the data structure of the beacon signal transmitted from the BLE module 410 will be described later.

Further, in the present embodiment, wireless communication having a reach of several tens of meters (so-called wireless PAN communication) is called short-range wireless communication, and wireless communication having a long reach (so-called wireless LAN, wireless MAN). , Communication called wireless WAN) is called medium- to long-range wireless communication. For example, as the short-range wireless communication, the above-mentioned BLE can be mentioned, and further, ANT and ANT + can be mentioned. In addition, examples of medium- and long-distance wireless communication include wireless LAN, W-CDMA, LTE, LTE-Advanced, etc. of the IEEE802.11 standard. In the following, BLE is assumed as short-range wireless communication, and wireless LAN and LTE are assumed as medium- and long-distance wireless communication.

The transmission signal generation unit 411 generates a signal to be transmitted from the BLE module 410. More specifically, the transmission signal generation unit 411 generates a beacon signal for periodic transmission, a beacon signal for maintenance information (including a notification signal for maintenance), and a beacon signal for setting information (including a notification signal for setting information). do. The maintenance notification signal is a signal that informs peripheral devices of the existence of the own machine capable of transmitting maintenance information. That is, the maintenance notification signal is a signal to send maintenance information to the requested device if requested. Similarly, the setting information notification signal is a signal that informs the peripheral device of the existence of a time when the setting information can be transmitted.

The request signal receiving unit 412 expands the signal transmitted from the BLE module 410 in response to a request from the mobile communication terminal A10. For example, when the request signal receiving unit 412 receives a request (response request) for the maintenance beacon signal from the mobile communication terminal A10, the request signal receiving unit 412 expands to a beacon signal in which maintenance information is stored in an empty packet of the maintenance beacon signal.

The signal transmission unit 413 transmits a signal generated by the transmission signal generation unit 411 and an expanded signal by the request signal reception unit 412. More specifically, the signal transmitting unit 413 is a maintenance beacon signal (first signal) including identification information for discriminating the attribute of the installation location of the own machine and request presence / absence information for requesting a request for specific information from an external device. ) Is sent repeatedly. Further, the signal transmission unit 413 transmits a beacon signal (second signal) in which the maintenance beacon signal is expanded, that is, the maintenance information is stored.

The signal transmitting unit 413 may be configured to repeatedly transmit a beacon signal (second signal) including maintenance information instead of the maintenance beacon signal.

The various sensor units 420 include various sensors for detecting maintenance information. Examples of the sensors included in the various sensor units 420 include a temperature sensor, a humidity sensor, a vibration sensor, an impact sensor, an open / close sensor, a load sensor for detecting the load status of the door drive unit 460, and the like.

The door system setting unit 430 sets the automatic door system 40. Examples of the setting contents include the sensitivity of the door sensor unit 440, the detection area, the stationary time of the door, the opening / closing speed of the door, the torque, and the like, which will be described later.

The door sensor unit 440 is a sensor for opening the door unit 470 when a person is detected.

The door control unit 450 controls the door drive unit 460, which will be described later. The door drive unit 460 opens and closes the door unit 470 by being driven by the control of the door control unit 450. The door portion 470 is a door. The door may be a sliding door type, a rotary type, or a hinged door type.

In the above description, the configuration using the CAN communication network 400 has been described, but the automatic door system 40 is not limited to this. A control unit may be provided, and the control unit may collectively control the entire automatic door system 40 to detect, transmit, and the like maintenance information.

Further, the configuration other than the BLE module 410 in the automatic door system 40 corresponds to the external device in the present invention.

[Structure of mobile communication terminal A]
Next, with reference to FIG. 3, the configuration of a main part of the mobile communication terminal A10 will be described. FIG. 3 is a block diagram showing a main configuration of the mobile communication terminal A10. As shown in FIG. 3, the mobile communication terminal A10 includes a BLE module (reception unit) 101, a wireless LAN module (communication unit) 102, an LTE module (communication unit) 103, a processor 104, a memory 105, and a touch panel display 106. ..

The BLE module 101 receives the beacon signal transmitted from the BLE module 410 of the automatic door system, and also transmits a response signal to the BLE module 410 in response to the received beacon signal.

The wireless LAN module 102 communicates with the advertisement distribution server 50 and the automatic door management server 60 via the network 80. In this communication, the network 80 is composed of a wireless LAN and the Internet.

Like the wireless LAN module 102, the LTE module 103 also communicates with the advertisement distribution server 50 and the automatic door management server 60 via the network 80. However, in this communication, the network 80 is composed of an LTE communication network and the Internet.

The processor 104 controls various information processing and control in the mobile communication terminal A10, including processing described later, and the memory 105 stores data and various programs necessary for that purpose.

The touch panel display 106 accepts operation input by the user by the touch panel and displays an image on the display.

A specific application incorporating a BLE signal processing program is installed in the mobile communication terminal A10. This specific application is preferably installed by many users, and for example, an SNS application having many users, an application pre-installed by a mobile communication operator, or the like is suitable. Then, the BLE signal processing program (signal processing program) is executed in the background to form the BLE signal processing unit 110 in the processor 104.

The BLE signal processing unit 110 includes a maintenance information request unit 110a, a maintenance information transmission unit (specific information transmission unit) 110b, and a beacon information transmission unit (identification information transmission unit) 110c.

When the beacon signal received by the BLE module 101 includes a maintenance notification signal, the maintenance information request unit 110a transmits a response request to the signal to the automatic door system 40.

If the beacon signal transmitted from the automatic door system 40 as a response to the response request includes maintenance information, the maintenance information included in the beacon signal is acquired by the maintenance information transmission unit 110b. Then, the maintenance information transmission unit 110b transmits the transmission data including the acquired maintenance information to the automatic door management server 60 through the network 80 via the wireless LAN module 102 or the LTE module 103. The specific structure of the data to be transmitted will be described later.

The beacon information transmission unit 110c includes beacon information included in the beacon signal received by the BLE module 101, that is, UUID (Universally Unique IDentifier) which is identification information, Major value, and Minor value, and RSSI which is information of signal strength. Is acquired, and the transmission data including these is transmitted to the advertisement distribution server 50 through the network 80 via the wireless LAN module 102 or the LTE module 103.

Further, the processor 104 is configured with the privilege information receiving unit 111 by executing the specific application or other application.

The privilege information receiving unit 111 receives coupons, advertisements, profitable information, etc. from the advertisement distribution server 50 via the network 80 via the wireless LAN module 102 or the LTE module 103 and displays them on the touch panel display 106. In addition, the privilege information receiving unit 111 receives the address of the Web page to which the coupon, the advertisement, the profit information, etc. are uploaded, and accesses the address from the mobile communication terminal A10, so that the coupon, the advertisement, the profit information, etc. May be displayed on the touch panel display 106.

As described above, since the mobile communication terminal A10 executes the above-mentioned process when a specific application is installed, the mobile communication terminal A10 is used by the own terminal to transmit maintenance information without being recognized by the user of the mobile communication terminal A10. It is possible to prevent it from being damaged.

Further, the specific application may be something that gives merits and incentives to the user of the mobile communication terminal A10. As a result, the possibility that the user of the mobile communication terminal A10 installs the application is increased, and the maintenance information of the automatic door system 40 can be reliably transmitted to the automatic door management server 60.

Even if a specific application is not installed, maintenance information may be transmitted.

[Configuration of mobile communication terminal B]
Next, a configuration of a main part of the mobile communication terminal B20 will be described with reference to FIG. FIG. 4 is a block diagram showing a configuration of a main part of the mobile communication terminal B20. As shown in FIG. 4, the mobile communication terminal B20 includes a BLE module 201, a wireless LAN module 202, an LTE module 203, a processor 204, a memory 205, and a touch panel display 206.

The BLE module 201 receives the beacon signal transmitted from the BLE module 410 of the automatic door system, and also transmits a response signal to the BLE module 410 in response to the received beacon signal.

The wireless LAN module 202 communicates with the automatic door management server 60 via the network 80. In this communication, the network 80 is composed of a wireless LAN and the Internet.

Like the wireless LAN module 202, the LTE module 203 also communicates with the automatic door management server 60 via the network 80. However, in this communication, the network 80 is composed of an LTE communication network and the Internet.

The processor 204 controls various information processing and control in the mobile communication terminal B20 including the processing described later, and the memory 205 stores data and various programs necessary for that purpose.

The touch panel display 206 accepts operation input by the user by the touch panel and displays an image on the display.

As described above, the mobile communication terminal B20 is a mobile communication terminal owned by the owner, the owner of the automatic door system 40. Therefore, the mobile communication terminal B20 is installed with a management application incorporating a management program that performs operation processing and monitoring processing for the automatic door system 40. Then, when the management program is executed, the monitoring / operation processing unit 211 is configured in the processor 204. The monitoring / operation processing unit 211 includes an operation unit 211a and a monitoring information request unit 211b. Further, the management program incorporates the BLE signal processing program described in the mobile communication terminal A10. The BLE signal processing program constitutes the BLE signal processing unit 210 in the processor 204 by being executed in the background.

The operation unit 211a operates the automatic door system 40 by transmitting the operation content received via the touch panel display 206 to the automatic door system 40 via the BLE module 201.

The monitoring information request unit 211b requests and acquires monitoring information from the automatic door system 40 via the BLE module 201, and displays the acquired monitoring information on the touch panel display 206. Here, the monitoring information is communication abnormality information, setting abnormality information, environmental information (ambient temperature, humidity, etc.), energization information, activation information (opening / closing count, opening time, etc.).

To send and receive data between the mobile communication terminal B20 and the automatic door system 40 by the operation unit 211a and the monitoring information request unit 211b, first, pairing by Bluetooth (registered trademark) is performed between the mobile communication terminal B20 and the automatic door system 40. After that, data is sent and received.

The BLE signal processing unit 210 includes a maintenance information request unit 210a and a maintenance information transmission unit 210b.

When the beacon signal received by the BLE module 201 includes a maintenance notification signal, the maintenance information request unit 210a transmits a response request to the signal to the automatic door system 40.

If the beacon signal transmitted from the automatic door system 40 as a response to the response request includes maintenance information, the maintenance information included in the beacon signal is acquired by the maintenance information transmission unit 210b. Then, the maintenance information transmission unit 210b transmits the transmission data including the acquired maintenance information to the automatic door management server 60 through the network 80 via the wireless LAN module 202 or the LTE module 203.

It should be noted that the mobile communication terminal B20 is provided with a beacon information transmission unit 210c like the mobile communication terminal A10, and even if it is configured to acquire coupons, advertisements, profitable information, etc. by transmitting and receiving to and from the advertisement distribution server 50. good.

As described above, in the mobile communication terminal B20, by using the management application that operates and monitors the automatic door system 40, the automatic door system 40 can be managed and maintenance information is acquired from the automatic door system 40. , Can be transmitted to the automatic door management server 60. In addition, the acquisition and transmission of maintenance information operates in the background of the management program by the management application. Therefore, maintenance information can be acquired and transmitted even if the management application is not started.

It should be noted that a measuring unit (communication amount measuring unit) that measures the data communication amount required for transmitting maintenance information separately from the communication amount of other communications may be provided. As a result, the amount of data communication required for transmitting maintenance information can be handled differently from the normal amount of communication.

[Example of beacon signal data structure]
Next, the details of the beacon signal transmitted from the BLE module 410 of the automatic door system 40 will be described with reference to FIG. FIGS. 5A to 5C are diagrams showing an example of a data structure of a beacon signal transmitted from the automatic door system 40.

First, FIG. 5A shows an example of a data structure of a beacon signal normally transmitted by the automatic door system 40. As shown in FIG. 5A, the BLE module 410 of the automatic door system 40 periodically transmits a first signal as a beacon signal. The first signal is composed of a UUID (Universally Unique IDentifier), a Major value, a Minor value, an RSSI, and an empty packet. The UUID is an identifier for identifying the BLE module, and the Major value and the Minor value indicate more detailed information (location, position). Also, RSSI is information for acquiring signal strength. Therefore, the UUID, Major value, and Minor value can be collectively referred to as identification information. Further, the identification information can also be said to be information for discriminating the attribute of the installation location of the own BLE module 410. This is because the side receiving the identification information can determine from the identification information where the corresponding BLE module 410 is located, in what store, and the like. For example, if a table in which the identification information and the location information are associated with each other is prepared on the side receiving the identification information, the identification information is transmitted on the side receiving the identification information by referring to the table. It is possible to determine where the BLE module 410 is installed.

As described above, the beacon signal transmitted from the BLE module 410 is generated by the transmission signal generation unit 411 and transmitted from the signal transmission unit 413. Therefore, the transmission signal generation unit 411 generates the first signal as the beacon signal to be normally transmitted.

Next, FIG. 5B shows the configuration of the maintenance beacon signal and the beacon signal including the maintenance information. In FIG. 5B, the maintenance beacon signal is referred to as a first signal, and the beacon signal including maintenance information is referred to as a second signal. As shown in FIG. 5B, the maintenance beacon signal is composed of a UUID, a Major value, a Minor value, an RSSI, a maintenance notification signal, and an empty packet.
Then, upon receiving the response request for the "maintenance notification signal", the request signal receiving unit 412 expands the maintenance beacon signal to the beacon signal (second signal) in which the maintenance information is stored. Then, the signal transmitting unit 413 transmits the expanded second signal.

Next, FIG. 5 (c) shows the configuration of the beacon signal for setting information and the beacon signal including the setting information. In FIG. 5 (c), the setting information beacon signal is described as the first "signal, and the beacon signal including the setting information is described as the third signal. As shown in FIG. 5 (c), the setting information beacon is described. The signal is composed of a UUID, a Major value, a Minor value, an RSSI, a notification signal for setting information, and an empty packet. When a response request for the "notification signal for setting information" is received, the request signal receiving unit 412 receives the response request. , The setting information beacon signal is expanded to the beacon signal (third signal) in which the setting information is stored. Then, the signal transmitting unit 413 transmits the expanded third signal. The setting information is information set in the automatic door system 40, and is, for example, the sensitivity of the door sensor unit 440, the detection area, the opening time of the door unit 470, and the like.

The maintenance information included in the second signal may be divided into a plurality of pieces and transmitted. This case will be described with reference to FIG. FIG. 6 is a diagram showing a configuration of a second signal when maintenance information is divided into a plurality of pieces and transmitted. As shown in FIG. 6, when the maintenance information is divided into a plurality of pieces, in the second signal to be periodically transmitted, for example, the maintenance information A is stored in the first second signal and the maintenance information is stored in the second second signal. B is stored, and maintenance information C is stored in the third second signal. As a result, even if the maintenance information has a large amount of data that cannot be stored in one second signal, the maintenance information can be appropriately transmitted to the mobile communication terminal A10.

[Example of data transmitted from a mobile communication terminal]
Next, the data transmitted from the mobile communication terminal A10 will be described with reference to FIG. 7. FIG. 7 is a diagram showing data transmitted from the mobile communication terminal A10. Here, an example of a case where the user's instruction data, the beacon signal identification information, and the maintenance information are transmitted from the mobile communication terminal A10 will be shown. Here, the user's instruction data is data transmitted by the user's operation when the user is performing some processing using the mobile communication terminal A10, and is, for example, uploading when uploading the data. Data, mail data when sending mail, etc.

As described above, it is conceivable that three data are transmitted from the mobile communication terminal A10. Then, among these three data, the user's instruction data is transmitted to the user's instruction destination, the beacon signal identification information is transmitted to the advertisement distribution server 50, and the maintenance information is transmitted to the automatic door management server 60.

[Process flow in the system including the mobile communication terminal A]
Next, with reference to FIG. 8, the flow of the process of collecting maintenance information in the information collection system 100 including the mobile communication terminal A10 will be described. FIG. 8 is a sequence diagram showing a processing flow in the information collection system 100. As shown in FIG. 8, first, the automatic door system 40 periodically transmits a first'signal as a beacon signal (S101). Then, when the owner of the mobile communication terminal A10 approaches the automatic door system 40 and enters the range where the beacon signal can reach, the mobile communication terminal A10 receives the first'signal transmitted from the automatic door system 40 (YES in S201). ). In the mobile communication terminal A10 that has received the first'signal, the maintenance information requesting unit 110a requests the automatic door system 40 for maintenance information (response request, reception confirmation signal) (S202).

Upon receiving the request for maintenance information, the BLE module 410 of the automatic door system 40 transmits a second signal including maintenance information, which is an extension of the first'signal (S102).

The mobile communication terminal A10 that has received the second signal generates transmission data including identification information (UUID, Major value, Minor value) and maintenance information of the second signal (S204). Then, the beacon information transmission unit 110c of the BLE signal processing unit 110 transmits the identification information of the second signal to the advertisement distribution server 50, and the maintenance information transmission unit 110b transmits the maintenance information to the automatic door management server 60 (S205). ..

The advertisement distribution server 50 that has received the identification information generates the corresponding information (coupon, advertisement, profitable information, etc.) (S301) and transmits it to the mobile communication terminal A10.

The above is the flow of processing in the information collection system 100. As described above, in the present embodiment, the maintenance information of the automatic door system 40 not connected to the network such as the Internet can be transmitted to the automatic door management server 60 via the mobile communication terminal A10 connected to the network. can. Further, the mobile communication terminal A10 may be any mobile communication terminal existing in the vicinity of the automatic door system 40, and it is considered that a large number of mobile communication terminals A10 exist in the vicinity of the automatic door system 40. Can be transmitted to the automatic door management server 60.

[Process flow in the system including the mobile communication terminal B]
Next, with reference to FIG. 9, the flow of processing in the information collection system 100 including the mobile communication terminal B20 will be described. FIG. 9 is a sequence diagram showing a processing flow in the information collection system 100 including the mobile communication terminal B20. As shown in FIG. 9, when the maintenance information is transmitted via the mobile communication terminal B20, the maintenance information requesting unit 210a of the mobile communication terminal B20 first requests the maintenance information from the automatic door system 40 (S211).
Upon receiving the maintenance information request, the automatic door system 40 transmits the maintenance information to the mobile communication terminal B20 (S111). Then, the mobile communication terminal B20 that has received the maintenance information generates transmission data including the maintenance information (S212) and transmits it to the automatic door management server 60 (S213).

[Example of maintenance information]
Next, an example of using the maintenance information will be described with reference to FIG. 10 (a) to 10 (f) are diagrams for explaining a usage example of maintenance information. As described above, the maintenance information includes, for example, the number of people passing through, the number of times of opening and closing, the presence / absence of impact, the time, the presence / absence of vibration, the load of the door drive unit, the ambient temperature, the humidity, and the like.

As shown in FIG. 10A, by using the number of passing people as maintenance information, it is possible to recognize the number of passing people by time zone. In the example shown in FIG. 10A, it can be seen that the number of people passing by at 12:00 and 18:00 is large. By using this, for example, when inspecting the automatic door system 40, it is possible to take measures such as performing it in a time zone when the number of passing people is small.

Further, as shown in FIGS. 10B and 10C, by using the opening / closing number as maintenance information, it is possible to recognize the opening / closing number for each date and the cumulative opening / closing number. As the number of times of opening and closing increases, the degree of wear of parts and the like in the automatic door system 40 increases. Therefore, by recognizing the number of times of opening and closing, parts can be replaced at an appropriate timing. Note that FIG. 10B shows an example of timing for replacing the door roller, and FIG. 10C shows an example of timing for belt replacement.

Further, as shown in FIG. 10D, by using the level of vibration, impact, etc. as the maintenance information, the impact, vibration level for each time zone can be recognized. In the example shown in FIG. 10 (d), it can be seen that a large impact was received at 8:30. By using this, for example, it is possible to recognize that a person or an object has been hit by an earthquake, which can lead to quick maintenance.

Further, as shown in FIG. 10 (e), by using the load state of the door drive unit 460 (door engine) as maintenance information, it is possible to recognize the load degree for each time zone. In the example shown in FIG. 10 (e), it can be seen that a large load was applied to the door drive unit 460 at 8:30. By using this, it is possible to lead to appropriate maintenance.

Further, as shown in FIG. 10 (f),
By using the temperature and humidity around the automatic door system 40 as maintenance information, it is possible to recognize the temperature and humidity for each time zone. In the example shown in FIG. 10 (e), it can be seen that the temperature and humidity were high from 12:00 to 14:00. By using this, the service life conditions and the like of the automatic door system 40 can be appropriately set.

[Modification example]
In the above-described embodiment, the automatic door system 40 has been described as an example of an external device. The present invention is not limited to this, and can be applied to any device that is not connected to the network and is useful for transmitting information about the own device to the network. For example, the external device may be a meter device for electricity, gas, water, etc., a high-voltage electric power receiving device such as a cubicle, or a vending machine.

For example, when the external device is a meter device for electricity, gas, water, etc., a meter value can be mentioned as a device corresponding to maintenance information. By including the meter value in the beacon signal and transmitting it, the meter value can be acquired on the management device side connected to the network even when the meter device itself is not connected to the network. As a result, the time required for meter reading of the meter value can be significantly reduced.

Further, when the external device is a high-voltage electric power receiving facility, the temperature of the facility, the presence or absence of electric leakage, and the like can be mentioned as corresponding to the maintenance information. Further, when the external device is a vending machine, inventory information, ambient temperature, and the like can be mentioned as corresponding to maintenance information.

[Modification 2]
In the above-described embodiment, a configuration in which maintenance information is transmitted via the network 80 by interposing a mobile communication terminal has been described. However, the use of the BLE module 410 according to the present invention is not limited to this.

The beacon signal can be received as long as the receiving device (receiving device) is within the reach of the beacon signal. Therefore, the maintenance information can be acquired only by the owner of the receiving device passing in the vicinity of the automatic door system 40.

For example, the receiving device receives the beacon signal from the BLE module 410, extracts the maintenance information contained therein, and performs the processing necessary for maintenance (accumulation of maintenance information, display of maintenance information to the owner, etc.) in the own machine. It is conceivable that it will be completed with. For such a receiving device, the owner can obtain maintenance information of all the automatic door systems 40 provided in the building only by patrol the inside of the building. As a result, maintenance information can be easily acquired in each automatic door system 40 without performing specific work (such as connecting a communication line to retrieve information) for acquiring maintenance information individually.

[Example of implementation by software]
When the automatic door system 40 includes a control block, the control block, the mobile communication terminal A10 and the mobile communication terminal B20 control blocks (BLE signal processing unit 110, maintenance information request unit 110a, maintenance information transmission unit 110b, beacon information transmission unit). The 110c, privilege information receiving unit 111, monitoring / operation processing unit 211, BLE signal processing unit 210, maintenance information requesting unit 210a, maintenance information transmitting unit 210b, operation unit 211a, monitoring information requesting unit 211b) are integrated circuits (IC chips). ) Or the like, it may be realized by a logic circuit (hardware), or it may be realized by software.

In the latter case, the automatic door system 40, the mobile communication terminal A10, and the mobile communication terminal B20 include a computer that executes instructions of a program that is software that realizes each function. The computer includes, for example, one or more processors and a computer-readable recording medium that stores the above program. Then, in the computer, the processor reads the program from the recording medium and executes the program, thereby achieving the object of the present invention. As the processor, for example, a CPU (Central Processing Unit) can be used. As the recording medium, a "non-temporary tangible medium", for example, a ROM (Read Only Memory) or the like, a tape, a disk, a card, a semiconductor memory, a programmable logic circuit, or the like can be used. Further, a RAM (Random Access Memory) for expanding the above program may be further provided. Further, the program may be supplied to the computer via any transmission medium (communication network, broadcast wave, etc.) capable of transmitting the program. It should be noted that one aspect of the present invention can also be realized in the form of a data signal embedded in a carrier wave, in which the above program is embodied by electronic transmission.

The present invention is not limited to the above-described embodiments, and various modifications can be made within the scope of the claims, and the embodiments obtained by appropriately combining the technical means disclosed in the different embodiments. Is also included in the technical scope of the present invention.

10 Mobile communication terminal A (mobile communication terminal)
20 Mobile communication terminal B (Mobile communication terminal)
30 Mobile communication terminal C (mobile communication terminal)
40 Automatic door system 50 Advertisement distribution server 60 Automatic door management server 70 Remote management device 80 Network 100 Information collection system 101 BLE module 102 Wireless LAN module 103 LTE module 104 Processor 105 Memory 106 Touch panel display 110 BLE signal processing unit 110a Maintenance information request unit 110b Maintenance information transmitter 110c Beacon information transmitter 111 Bonus information receiver 201 BLE module 202 Wireless LAN module 203 LTE module 204 Processor 205 Memory 206 Touch panel display 210 BLE signal processing unit 210a Maintenance information request unit 210b Maintenance information transmission unit 211 Monitoring / Operation processing unit 211a Operation unit 211b Monitoring information request unit 400 CAN communication network 410 BLE module (signal transmitter)
411 Transmission signal generation unit (acquisition unit, signal processing unit)
412 Request signal receiver (receiver)
413 Signal transmitter (transmitter)
420 Various sensor units 430 Door system setting unit 440 Door sensor unit 450 Door control unit 460 Door drive unit 470 Door unit

Claims (2)

An acquisition unit that acquires maintenance information related to the maintenance of the external device from an external device that requires maintenance,
It is provided with identification information for determining the attribute of the installation location of the own machine by short-range wireless communication, and a transmission unit for repeatedly transmitting a signal including the maintenance information .
The external device is an automatic door system including an automatic door that detects a person and opens the door.
The maintenance information includes a signal transmitting device including the number of people passing through the automatic door . A signal processing unit that divides the maintenance information into a plurality of information and includes each of the divided information in the plurality of signals is provided.
The signal transmission device according to claim 1, wherein the transmission unit transmits the signal including the divided maintenance information.

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