JP6819511B2 - Address book display system, electronic devices, address book display program - Google Patents

Description

The present invention relates to an address book display system, an electronic device, and an address book display program suitable for using an address book.

For example, in an image forming device such as a multifunction printer or an MFP (Multifunction Peripheral), which is an electronic device, in addition to a printing function, a copy function, a fax function, and a data transmission / reception function via a network, for example, a mobile terminal such as a smartphone. Some models have a wireless communication function for exchanging data with and from.

Regarding an image forming apparatus having such a wireless communication function, in Patent Document 1, BLE (Bluetooth (registered trademark) Low Energy) transmitted from a plurality of printers detected by a distance detection unit of a portable POS terminal: , Beacon signal) The closest printer is detected, and the printer detected by the processing execution control unit of the mobile POS terminal is instructed to execute the printing process using a wireless LAN (Local Area Network). Even while the mobile POS terminal is transmitting print data to a specific printer by wireless LAN in the system, the other mobile POS terminal receives the beacon signal to include the specific printer. We are proposing a control system that can detect the nearest printer from multiple printers.

JP-A-2015-200989

In the control system of Patent Document 1 described above, even while the mobile POS terminal is transmitting print data to a specific printer by wireless LAN, the other mobile POS terminal receives the beacon signal by receiving the beacon signal. Since the nearest printer can be detected from multiple printers including a specific printer, the nearest printer can be reliably detected.

By the way, in the control system of Patent Document 1, the print data can be output by the printer by transmitting the print data from the mobile POS terminal to the printer by the wireless LAN, but the address book possessed by the mobile terminal such as a smartphone, for example. When sending the address information of the printer to the printer for registration, display, or deletion, for example, an operation via the panel section on the printer side is required.

In this case, it is necessary to perform operations for registering, displaying, and deleting the address information, and there is a problem that the convenience of the user is lowered due to the troublesome operation. Moreover, if the address information registered on the printer side is forgotten to be deleted, the address information may be leaked, and there is a problem that the security against information leakage is lowered.

The present invention has been made in view of such a situation, and an object of the present invention is to provide an address book display system, an electronic device, and an address book display program capable of solving the above problems.

The address book display system of the present invention receives a mobile terminal that transmits radio waves with a constant output, receives the radio waves, and adjusts to a change in the intensity of the received radio waves according to a distance from the mobile terminal. The electronic device includes an electronic device that registers, displays, and deletes the address information of the received address book, and the electronic device changes the intensity of the received radio wave from the first level to the third level ( Judgment is made in three stages of (1st level> 2nd level> 3rd level), and at the 3rd level, a message prompting the mobile terminal to register the address information is notified, and the first level. At the second level, the address information received from the mobile terminal is registered in the storage device, and at the first level, the address information registered in the storage medium is displayed on the panel unit, and the first level is displayed. The address information registered in the storage device is deleted when the level changes from the second level to the second level.
The electronic device of the present invention includes a receiving unit that receives a radio wave transmitted by a mobile terminal with a constant output, an intensity detecting unit that detects the intensity of the received radio wave that changes according to a distance from the mobile terminal, and the mobile phone. The storage device for registering the address information of the address book received from the terminal, the panel unit for displaying the address information, and the storage device according to the change in the intensity of the received radio wave detected by the intensity detection unit. The system control unit includes a system control unit that controls registration of address information, display of the address information on the panel unit, and deletion of the address information registered in the storage device, and the system control unit includes the received radio wave. The change in the intensity of the above is judged in three stages from the first level to the third level (first level> second level> third level), and at the third level, the mobile terminal is affected. A message prompting the registration of the address information is notified to the storage device, the address information received from the mobile terminal is registered in the storage device at the second level, and the storage medium is registered at the first level. The address information registered in the storage device is displayed on the panel unit, and when the level changes from the first level to the second level, the address information registered in the storage device is deleted.
The address book display program of the present invention includes a receiving unit that receives radio waves transmitted by a mobile terminal with a constant output, an intensity detecting unit that detects the intensity of the received radio waves that changes according to a distance from the mobile terminal, and the mobile phone. The address to the storage device according to the change in the intensity of the received radio wave detected by the storage device for registering the address information of the address book received from the terminal, the panel unit for displaying the address information , and the intensity detection unit. The computer functions as a system control unit that controls registration of information, display of the address information on the panel unit, and deletion of the address information registered in the storage device, and the system control unit receives the reception. The change in the intensity of the radio wave is judged in three stages from the first level to the third level (first level> second level> third level), and at the third level, the mobile terminal. Is notified of a message prompting the registration of the address information, the address information received from the mobile terminal is registered in the storage device at the second level, and the storage is performed at the first level. It is characterized in that the address information registered in the medium is displayed on the panel unit, and when the level changes from the first level to the second level, the address information registered in the storage device is deleted.
In the address book display system, electronic device, and address book display program of the present invention, for example, a mobile terminal transmits a radio wave indicating position information with a constant output, and the electronic device changes the intensity of the radio wave according to the distance to the mobile terminal. The address information of the address book received from the mobile terminal is registered, displayed, and deleted according to the above.
In this way, the electronic device receives the radio wave from the mobile terminal, and the address information of the address book received from the mobile terminal is registered, displayed, and deleted according to the change in the intensity of the radio wave from the mobile terminal according to the distance. By executing and, it is possible to eliminate each operation related to registration, display, and deletion of address information by the user. In addition, the leakage of the address information can be reliably prevented by deleting the address information in the registered address book according to the change in the strength of the radio wave from the mobile terminal according to the distance of the electronic device.

According to the address book display system, electronic device, and address book display program of the present invention, it is possible to eliminate each operation related to registration, display, and deletion of address information by the user, and at the same time, reliably prevent leakage of address information. Therefore, it is possible to improve both the convenience of the user and the safety against information leakage.

It is a figure for demonstrating one Embodiment of the address book display system of this invention. It is a figure for demonstrating an example of the structure of the MFP and the mobile terminal of FIG. It is a figure which shows an example of the distance determination graph which the system control part of the MFP of FIG. 2 refers to when determining the position of a mobile terminal. It is a flowchart for demonstrating the process with respect to the address information of the address book received from the mobile terminal on the MFP side of FIG.

Hereinafter, an embodiment of the address book display system of the present invention will be described with reference to FIGS. 1 to 4. An example of an electronic device in the following description is an MFP (Multifunction Peripheral), which is a complex peripheral device equipped with, for example, a printing function, a copying function, a fax function, and a data transmission / reception function via a network. And. Further, it is assumed that the address information of the address book from the mobile terminal described below is used for setting the other party, for example, when using the FAX function of the MFP or data transmission.

First, the MFP 100 shown in FIG. 1 receives BLE (Bluetooth (registered trademark) Low Energy: hereinafter referred to as a beacon signal) transmitted by a mobile terminal 200 such as a smartphone, and determines the position of the mobile terminal 200. Here, it is assumed that the beacon signal from the mobile terminal 200 is transmitted at a constant interval (for example, at an interval of 1 second) and at a constant output. Further, on the MFP 100 side, the intensity (dBm) of the beacon signal received from the mobile terminal 200 is detected at regular intervals (for example, 1 second interval), and the position of the mobile terminal 200 is determined (hereinafter, "beacon signal". "Strength" indicates the strength of the beacon signal received by the MFP 100 from the mobile terminal 200.). Further, the MFP 100 notifies the mobile terminal 200 of a message prompting the mobile terminal 200 to register the address book according to the detection result of the intensity (dBm) of the beacon signal transmitted by the mobile terminal 200, and also receives the address book from the mobile terminal 200. Performs the process of registering, displaying, and deleting the address information of. In addition to the notification of the message prompting the mobile terminal 200 to register the address book, the timing for executing the processing of registering, displaying, and deleting the address information in the address book is, for example, the first level to the third level. It shall be based on the intensity (dBm) of the beacon signal divided into three levels (first level> second level> third level). Further, the receivable distance of the beacon signal transmitted by the mobile terminal 200 is set to, for example, a radius of 20 m. The receivable distance of the beacon signal transmitted by the mobile terminal 200 is not limited to the radius of 20 m, and may be less than the radius of 20 m or may exceed the radius of 20 m. Further, in addition to the above-mentioned message notification, the timing for executing the processing of registering, displaying, and deleting the address information in the address book is the beacon signal divided into three stages of the first level to the third level. The level is not limited to the one based on the intensity (dBm), and the level may be set to 4 or more levels or 2 levels.

Here, the first level is assumed to have the highest intensity (dBm) of the beacon signal, for example, −30 dBm (see FIG. 3). Further, it is assumed that this first level can be detected at a position of, for example, 1 m from the mobile terminal 200 of the transmission source. The second level has a beacon signal intensity (dBm) next to the first level, for example −63 dBm (see FIG. 3). Further, it is assumed that this second level can be detected at a position of, for example, 12 m from the source mobile terminal 200. The third level has a beacon signal intensity (dBm) next to the second level, for example −67 dBm (see FIG. 3). Further, it is assumed that this third level can be detected at a position of, for example, 20 m from the source mobile terminal 200.

When the MFP 100 detects the first level of the intensity (dBm) of the beacon signal from the mobile terminal 200, it can determine that the mobile terminal 200 is the closest. Further, the MFP 100 can determine that the mobile terminal 200 is far away when it detects the second level of the intensity (dBm) of the beacon signal from the mobile terminal 200. Further, when the MFP 100 detects the third level of the intensity (dBm) of the beacon signal from the mobile terminal 200, it can determine that the mobile terminal 200 is the farthest.

The beacon signal transmitted by the mobile terminal 200 includes connection information for connecting to the mobile terminal 200 and user identification information such as a user ID required for login processing in the MFP 100. Then, although the details will be described later, when the MFP 100 detects the third level of the intensity (dBm) of the beacon signal from the mobile terminal 200, it notifies the mobile terminal 200 of a message prompting the mobile terminal 200 to register the address book. The level of the notification timing of the message prompting the mobile terminal 200 to register the address book is not limited to the third level. A value higher or lower by a certain level than the third level may be used as a reference. In addition, the message includes identification information (for example, MAC address and IP address) of the MFP 100.

When the mobile terminal 200 instructs the mobile terminal 200 to register the address book, the MFP 100 receives the address information of the designated address book and registers it in the HDD 105 shown in FIG. 2 to be described later. The address information of the address book may be registered in the HDD 105 at the time when the address information of the address book is received, or at the time when the second level is detected after the third level is detected. Assuming that the registration of the address information of the address book to the HDD 105 is the time when the second level is detected, the user leaves the MFP 100 even though the user has sent the address information of the address book to the MFP 100 at the time when the third level is detected. By doing so, it is possible to execute a process of preventing information leakage due to the fact that the second level is not detected after the third level is detected. That is, if the address information of the address book is not registered in the HDD 105 if the second level cannot be detected even after a certain period of time has passed after the third level is detected, the address is sent to the MFP 100 side. Since the address information of the book does not remain, it is possible to prevent the leakage of the address information.

Further, when the MFP 100 detects the first level of the intensity (dBm) of the beacon signal from the mobile terminal 200, it determines that the mobile terminal 200 is closest to the mobile terminal 200, and the HDD 105 is attached to the panel unit 104 shown in FIG. 2 to be described later. Display the address information of the address book registered in. The MFP 100 acquires user identification information such as a user ID required for login processing included in the beacon signal transmitted by the mobile terminal 200, and executes the acquired user identification information via the panel unit 104. You can omit the authentication process at login. This eliminates the need for a user who uses the mobile terminal 200 to perform a login operation by inputting a user ID or the like via the panel unit 104.

Further, when the MFP 100 detects the first level of the intensity (dBm) of the beacon signal from the mobile terminal 200 and then detects the second level, it determines that the user has left, and the HDD 105 shown in FIG. 2 to be described later. Delete the address information of the address book registered in. The level at which the address information of the address book registered in the HDD 105 is deleted is not limited to the second level, but may be the third level. In this way, when the user leaves the MFP 100, the leakage of the address information can be prevented by deleting the address information in the address book registered in the HDD 105.

Next, an example of the configuration of the MFP 100 and the mobile terminal 200 will be described with reference to FIG. First, the MFP 100 includes a printer unit 101, an I / F (interface) 102, a beacon receiver 103, a panel unit 104, and a control unit 110 that controls the HDD 105. The MFP 100 may include a scanner unit, a fax unit, and the like.

The printer unit 101 is a device that prints an image on paper (not shown) based on the print data output from the control unit 110. The I / F 102 is in charge of communication with the mobile terminal 200 via the network. The I / F 102 may be in charge of communication with a content server, a web server, or the like. In addition, the I / F 102 uses each communication method such as Wi-Fi (registered trademark) for wireless LAN, Wi-Fi Direct (registered trademark), and Bluetooth (registered trademark) for short-range communication via a transmission / reception unit (not shown). , May be in charge of communication with the mobile terminal 200.

The beacon receiver 103 receives the beacon signal transmitted by the mobile terminal 200. The panel unit 104 is a device such as a print function, a copy function, a fax function, a data transmission / reception function via a network, and a touch panel for displaying various settings of the MFP 100.

The HDD 105 is a storage device that stores application programs and the like for providing various functions of the MFP 100. Further, the HDD 105 has a user box for storing print jobs registered from, for example, a mobile terminal 200 or a user terminal (not shown). Further, the HDD 105 registers the address information of the address book transmitted from the mobile terminal 200.

The control unit 110 is a processor that executes an image forming program, a control program, or the like to control the operation of the entire MFP 100. The control unit 110 includes a printer control unit 111, a communication control unit 112, a beacon control unit 113, a RAM (Random Access Memory) 114, a ROM (Read-Only Memory) 115, a signal strength detection unit 116, an image processing unit 117, and a panel operation. It includes a control unit 118, an HDD control unit 119, and a system control unit 120. Further, these are connected to the data bus 121. The printer control unit 111 controls the printing operation of the printer unit 101. The communication control unit 112 controls transmission / reception of data or the like via the network via the I / F 102.

The beacon control unit 113 controls the operation of the beacon receiver 103. The RAM 114 is a work memory for executing a program. The ROM 115 stores a control program that checks the operation of each part. The signal strength detection unit 116 detects the strength (dBm) of the beacon signal transmitted by the mobile terminal 200. The image processing unit 117 performs image processing (rasterization) on, for example, a print job registered in the user box of the HDD 105. The system control unit 120 temporarily stores the print data image-processed by the image processing unit 117 in the RAM 114.

The panel operation control unit 118 controls the display operation of the panel unit 104. Further, the panel operation control unit 118 receives settings for starting printing, copying, faxing, data transmission / reception via a network, etc. via the panel unit 104. The HDD control unit 119 controls reading and writing of data to the HDD 105.

The system control unit 120 controls the cooperative operation of each unit. Further, when the system control unit 120 receives, for example, a print instruction from the panel unit 104 or the mobile terminal 200, the system control unit 120 gives an image processing instruction to the image processing unit 117, a print instruction by the printer unit 101 to the printer control unit 111, and the like. .. Further, although the details will be described later, the system control unit 120 confirms the above-mentioned changes in the first level to the third level based on the intensity (dBm) of the beacon signal detected by the signal strength detection unit 116. , In addition to notifying the mobile terminal 200 of a message prompting the mobile terminal 200 to register the address book, the process of registering, displaying, and deleting the address information of the address book received from the mobile terminal 200 is executed.

The mobile terminal 200 includes a control unit 210 that controls the antenna 201 and the panel unit 202. The antenna 201 transmits and receives radio waves to and from a radio base station (not shown). Further, the antenna 201 transmits a beacon signal generated by the beacon generation unit 214, which will be described later, with a constant output. Further, the antenna 201 receives a message prompting the registration of the address book from the MFP 100 by the following communication method, and transmits the address information managed by the address book management unit 215 described later. That is, when the communication method is Wi-Fi (registered trademark), radio waves are transmitted and received to and from the MFP 100 via a wireless LAN router (not shown). Further, when the communication method is P2P (Peer to Peer) (for example, Wi-Fi Direct (registered trademark), Bluetooth (registered trademark)), the antenna 201 transmits / receives radio waves to / from a transmitting / receiving unit (not shown) of the MFP 100. ..

The control unit 210 is a processor that executes a control program or the like to control the operation of the entire mobile terminal 200. The control unit 210 includes a communication control unit 211, a RAM 212, a ROM 213, a beacon generation unit 214, an address book management unit 215, a panel operation control unit 216, and a system control unit 217. Also, these are connected to the data bus 218.

The communication control unit 211 controls transmission / reception of data or the like via the network via the antenna 201. Further, the communication control unit 211 transmits the beacon signal generated by the beacon generation unit 214 via the antenna 201. Further, the communication control unit 211 receives a message prompting the registration of the address book from the MFP 100 via the antenna 201, and transmits the address information managed by the address book management unit 215. The RAM 212 is a work memory for executing a program. The ROM 213 stores a control program for checking the operation of each part. Beacon generation unit 214 generates a beacon signal. The address book management unit 215 manages the address information registered via, for example, the panel unit 202. The panel operation control unit 216 controls the display operation of the panel unit 202.

The system control unit 217 controls the cooperative operation of each unit. In addition, the system control unit 217 transmits the beacon signal generated by the beacon generation unit 214 via the communication control unit 211. Further, when the system control unit 217 transmits the beacon signal via the communication control unit 211, the system control unit 217 includes user identification information such as a user ID in the beacon signal. Further, when the system control unit 217 receives a message prompting the registration of the address book from the MFP 100 and receives an instruction to register the address book via the panel unit 202, the system control unit 217 manages the address book managed by the address book management unit 215. Based on the identification information (for example, MAC address and IP address) included in the message, the address information of is transmitted to the MFP 100 that notified the message via the communication control unit 211. In this case, when the system control unit 217 is instructed to specify the address book or select the address book list via the panel unit 202, the address information of the designated address book or the list of the selected address book is given. Is transmitted to the MFP 100 that has notified the message via the communication control unit 211.

Next, with reference to FIG. 3, the intensity (dBm) of the beacon signal transmitted by the mobile terminal 200 will be described. FIG. 3 shows an example of a distance determination graph that the system control unit 120 of the MFP 100 refers to when determining the position of the mobile terminal 200 based on the intensity (dBm) of the beacon signal detected by the signal intensity detection unit 116. .. In the distance determination graph 130 shown in FIG. 3, the horizontal axis shows the distance (m) to the mobile terminal 200, and the vertical axis shows the intensity (dBm) of the beacon signal transmitted by the mobile terminal 200.

That is, the intensity (dBm) of the beacon signal transmitted by the mobile terminal 200 is attenuated in inverse proportion to the square of the distance. Here, when the signal strength detection unit 116 detects the beacon signal strength (dBm) as, for example, -30 dBm (0.001 mW), the system control unit 120 sets the distance from the distance determination graph 130 to the mobile terminal 200 as, for example, 1 m. to decide. Further, when the signal strength detection unit 116 detects the beacon signal strength (dBm) as, for example, −63 dBm (0.00000005 mW), the system control unit 120 determines that the distance from the distance determination graph 130 to the mobile terminal 200 is, for example, 12 m. To do. Further, when the signal strength detection unit 116 detects the beacon signal strength (dBm) as, for example, −67 dBm (0.00000001 mW), the system control unit 120 determines that the distance from the distance determination graph 130 to the mobile terminal 200 is, for example, 20 m. To do.

The system control unit 120 divides the beacon signal intensity (dBm) detected by the signal intensity detection unit 116 into three stages, for example, a first level to a third level, as described above, and at each level. , In addition to notifying the mobile terminal 200 of a message prompting the mobile terminal 200 to register the address book, the process of registering, displaying, and deleting the address information of the address book received from the mobile terminal 200 is executed.

Next, processing on the MFP100 side will be described with reference to FIG. In the following description, it is assumed that the address information of the address book is registered in the HDD 105 when the second level is detected after the third level is detected. Further, in the following description, it is assumed that the beacon signal from the mobile terminal 200 is transmitted at regular intervals (for example, 1 second intervals). Further, the signal strength detection unit 116 of the MFP 100 shall detect the strength (dBm) of the beacon signal at regular intervals (for example, 1 second intervals). Further, it is assumed that the first level has the highest intensity (dBm) of the beacon signal, for example, −30 dBm, and can be detected from the source mobile terminal 200 at a position of, for example, 1 m. Further, in the second level, the intensity (dBm) of the beacon signal is assumed to be the second highest after the first level, for example, -63 dBm, and can be detected at a position of, for example, 12 m from the source mobile terminal 200. .. Further, in the third level, the intensity (dBm) of the beacon signal is assumed to be the second highest after the second level, for example, -67 dBm, and can be detected at a position of, for example, 20 m from the source mobile terminal 200. ..

(Step S101)
The system control unit 120 determines whether or not the beacon signal has been received.
In this case, the system control unit 120 determines that the beacon signal has not been received unless there is a notification from the beacon control unit 113 that the beacon signal has been received (step S101: No).
On the other hand, the system control unit 120 determines that the beacon signal has been received if there is a notification from the beacon control unit 113 that the beacon signal has been received (step S101: Yes), and proceeds to step S102.

(Step S102)
The system control unit 120 detects the intensity (dBm) of the beacon signal.
In this case, the system control unit 120 causes the signal strength detection unit 116 to detect the intensity (dBm) of the beacon signal.
At this time, the signal strength detection unit 116 detects the intensity (dBm) of the beacon signal transmitted from the mobile terminal 200 at regular intervals (for example, 1 second intervals) at regular intervals (for example, 1 second intervals), and the system control unit 116. Notify 120.

(Step S103)
The system control unit 120 determines whether or not the detection result has been received.
In this case, the system control unit 120 determines that the detection result has not been received unless there is a notification from the signal strength detection unit 116 (step S103: No).
On the other hand, the system control unit 120 determines that the detection result has been received if there is a notification from the signal strength detection unit 116 (step S103: Yes), and proceeds to step S104.
At this time, the system control unit 120 acquires the connection information for connecting to the mobile terminal 200 included in the beacon signal and the user identification information such as the user ID required for the login process in the MFP 100.

(Step S104)
The system control unit 120 determines whether or not the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is at the third level.
In this case, when the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is at the third level (step S104: Yes), the system shifts to step S105.
On the other hand, when the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is not the third level (step S104: No), the system control unit 120 proceeds to step S106.

(Step S105)
The system control unit 120 sends a message prompting the user to register the address book.
In this case, the system control unit 120 transmits a message prompting the mobile terminal 200 to register the address book based on the connection information included in the beacon signal via the communication control unit 112.

(Step S106)
The system control unit 120 determines whether or not the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is the second level.
In this case, when the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is the second level (step S106: Yes), the system proceeds to step S107.
On the other hand, when the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is not the second level (step S106: No), the system control unit 120 proceeds to step S110.

(Step S107)
The system control unit 120 determines whether or not the first level has been detected.
In this case, the system control unit 120 determines that the first level has not been detected when the intensity (dBm) of the beacon signal received from the signal strength detection unit 116 is only the third level (step S107: No). ), The process proceeds to step S108.
On the other hand, when the system control unit 120 receives the intensity (dBm) of the beacon signal of the first level from the signal intensity detection unit 116, it determines that the first level has been detected (step S107: Yes). , Step S113.

(Step S108)
The system control unit 120 determines whether or not the address information in the address book has been received.
In this case, the system control unit 120 determines that the address information of the address book has not been received unless there is a notification from the communication control unit 112 indicating that the address information of the address book has been received (step S108: No).
On the other hand, the system control unit 120 determines that the address information of the address book has been received if there is a notification indicating that the address information of the address book has been received from the communication control unit 112 (step S108: Yes), and step S109. Move to.

(Step S109)
The system control unit 120 registers the address information of the address book.
In this case, the system control unit 120 causes the HDD control unit 119 to register the address information of the address book in the HDD 105.

(Step S110)
The system control unit 120 determines whether or not the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is the first level.
In this case, if the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is not the first level (step S110: No), it waits until the first level is detected. To do.
On the other hand, when the system control unit 120 determines that the intensity (dBm) of the beacon signal received from the signal intensity detection unit 116 is the first level (step S110: Yes), the system control unit 120 proceeds to step S111.

(Step S111)
The system control unit 120 displays the address information of the address book.
In this case, the system control unit 120 executes the authentication process based on the user identification information such as the user ID required for the login process in the MFP 100 that has already been acquired, and executes the authentication process via the panel operation control unit 118, and the panel unit 104. Displays the address information of the address book registered in the HDD 105.
This eliminates the need for a user who uses the mobile terminal 200 to perform a login operation by inputting a user ID or the like via the panel unit 104. Further, the operation of displaying the address information of the address book via the panel unit 104 becomes unnecessary.
Further, by including the user identification information such as the user ID in the address information of the address book registered in the HDD 105, the address information corresponding to the user who succeeded in the authentication process can be surely displayed on the panel unit 104. it can.
The system control unit 120 continues to display the address information of the address book on the panel unit 104 only during the period when the signal strength detection unit 116 is detecting the beacon signal of the first level, and the signal strength detection unit 116 causes the signal strength detection unit 116 to continue displaying the address information. When a beacon signal at a level lower than the first level is detected, the display of the address information in the address book on the panel unit 104 may be canceled.
As a result, even if the user leaves the MFP 100, the display of the address information in the address book on the panel unit 104 is canceled, so that information leakage is prevented.
Here, when the user selects, for example, the FAX function via the panel unit 104, the user can easily set the connection information of the other party by selecting from the address information of the address book displayed on the panel unit 104. ..

(Step S112)
The system control unit 120 determines whether or not the use of the function has been completed.
In this case, for example, when the FAX function is selected, the system control unit 120 determines that the use of the function has not been completed unless there is a notification from the FAX control unit (not shown) indicating the completion of transmission (step S112: No). ), Wait until there is a notification from the FAX control unit indicating the completion of transmission.
On the other hand, when the FAX function is selected, for example, the system control unit 120 determines that the use of the function is completed if there is a notification indicating the completion of transmission from the FAX control unit (not shown) (step S112: Yes). ), Return to step S103.

(Step S113)
The system control unit 120 deletes the address information in the address book.
Here, when the user moves away from the MFP 100 after performing, for example, FAX transmission with the MFP 100, the intensity (dBm) of the beacon signal by the signal strength detection unit 116 decreases.
Then, when the system control unit 120 determines that the detection result by the signal strength detection unit 116 is the second level in step S106, since the first level has already been detected in step S107, the HDD 105 is referred to the HDD control unit 119. Delete the address information in the registered address book of.
As a result, since the address information of the address book received from the user does not remain in the HDD 105, information leakage can be prevented.

As described above, in the present embodiment, the mobile terminal 200 transmits the beacon signal (radio wave) indicating the position information at a constant output, and the mobile terminal (electronic device) receives the beacon signal (radio wave) from the mobile terminal 200. The address information of the address book received from the mobile terminal 200 is registered, displayed, and deleted according to the change in the intensity of the beacon signal (radio wave) according to the distance from the 200.

That is, the MFP 100 (electronic device) registers, displays, and deletes the address information of the address book received from the mobile terminal 200 according to the change in the intensity of the beacon signal (radio wave) from the mobile terminal 200 according to the distance. By executing this, it is possible to eliminate each operation related to registration, display, and deletion of address information by the user. In addition, the MFP 100 (electronic device) deletes the address information in the registered address book according to the change in the intensity of the beacon signal (radio wave) from the mobile terminal 200 according to the distance, thereby reliably preventing the leakage of the address information. it can. In this way, by eliminating each operation related to the registration, display, and deletion of address information by the user and preventing the leakage of the address information, it is possible to improve both the convenience of the user and the safety against information leakage. it can.

Further, in the present embodiment, the MFP 100 is applied as an electronic device, but the present invention is not limited to this, and the MFP 100 may be applied to a printer or a multifunction printer.

100 MFP
101 Printer unit 102 I / F
103 Beacon receiver 104 Panel part 105 HDD
110, 210 Control unit 111 Printer control unit 112, 211 Communication control unit 113 Beacon control unit 114, 212 RAM
115, 213 ROM
116 Signal strength detection unit 117 Image processing unit 118, 216 Panel operation control unit 119 HDD control unit 120, 217 System control unit 121, 218 Data bus 130 Distance judgment graph 200 Mobile terminal 201 Antenna 202 Panel unit 214 Beacon generator 215 Address book Management Department

Claims (3)

A mobile terminal that transmits radio waves with a constant output,
An electronic device that receives the radio wave and registers, displays, and deletes the address information of the address book received from the mobile terminal according to the change in the intensity of the received radio wave according to the distance from the mobile terminal. Equipped with equipment,
The electronic device is
The change in the intensity of the received radio wave is judged in three stages from the first level to the third level (first level> second level> third level).
At the third level, the mobile terminal is notified of a message prompting the registration of the address information.
At the second level, the address information received from the mobile terminal is registered in the storage device, and the storage device is registered.
At the first level, the address information registered in the storage medium is displayed on the panel unit.
An address book display system characterized in that the address information registered in the storage device is deleted when the level changes from the first level to the second level. A receiver that receives radio waves transmitted by a mobile terminal with a constant output,
An intensity detection unit that detects the intensity of the received radio wave, which changes according to the distance to the mobile terminal.
A storage device for registering the address information of the address book received from the mobile terminal, and
The panel section that displays the address information and
Registration of the address information in the storage device, display of the address information in the panel unit, and the address registered in the storage device according to a change in the intensity of the received radio wave detected by the intensity detection unit. Equipped with a system control unit that controls the deletion of information
The system control unit
The change in the intensity of the received radio wave is judged in three stages from the first level to the third level (first level> second level> third level).
At the third level, the mobile terminal is notified of a message prompting the registration of the address information.
At the second level, the address information received from the mobile terminal is registered in the storage device.
At the first level, the address information registered in the storage medium is displayed on the panel unit.
An electronic device characterized in that when the level changes from the first level to the second level, the address information registered in the storage device is deleted. A receiver that receives radio waves transmitted by a mobile terminal with a constant output,
An intensity detection unit that detects the intensity of the received radio wave, which changes according to the distance to the mobile terminal .
A storage device that registers the address information of the address book received from the mobile terminal ,
A panel section that displays the address information , and
Registration of the address information in the storage device, display of the address information in the panel unit, and the address registered in the storage device according to a change in the intensity of the received radio wave detected by the intensity detection unit. The computer functions as a system control unit that controls the deletion of information.
The system control unit
The change in the intensity of the received radio wave is judged in three stages from the first level to the third level (first level> second level> third level).
At the third level, the mobile terminal is notified of a message prompting the registration of the address information.
At the second level, the address information received from the mobile terminal is registered in the storage device.
At the first level, the address information registered in the storage medium is displayed on the panel unit.
An address book display program characterized by deleting the address information registered in the storage device when the level changes from the first level to the second level.

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