JP2019080089A - Communication device, image processing device, control method, and program - Google Patents

Abstract

To make it possible to give a user notice corresponding to an opposite device disallowing the connection of Bluetooth (R) low energy.SOLUTION: A communication device receives an advertising packet in accordance with Bluetooth low energy, and if the advertising packet is a packet indicating that connection by Bluetooth low energy is not available, gives a user notice corresponding to the unavailability of connection of Bluetooth low energy.SELECTED DRAWING: Figure 5

Description

  The present invention relates to an apparatus that performs notification based on advertising packets.

  In the Bluetooth low energy (hereinafter also referred to as BLE) standard which is a part of the Bluetooth (registered trademark) standard, a central and a peripheral are defined as the device role. When the central receives the advertising packet transmitted by the peripheral, the central transmits a connect request packet to establish a connection (BLE connection).

  Patent Document 1 discloses a configuration in which an image processing apparatus operates as a peripheral and a portable terminal operates as a central to perform BLE connection. In Patent Document 1, when it is determined that the portable terminal approaches the image processing apparatus based on the radio wave strength of the advertising packet transmitted by the image processing apparatus, the portable terminal transmits a connect request packet to perform BLE connection.

  Depending on the application, there is a method of connecting when the portable terminal approaches the image processing apparatus as described above. On the other hand, there is also a method of performing BLE connection by user's instruction even when the portable terminal is separated from the image processing apparatus. In this case, the portable terminal transmits a connect request packet in accordance with a user instruction to perform BLE connection.

JP, 2017-10109, A

  The Bluetooth low energy standard defines an advertising packet that indicates that a BLE connection can not be made. Therefore, it is conceivable to transmit an advertising packet indicating that the BLE connection can not be made when the above-mentioned image processing apparatus can not make the BLE connection.

  In this case, the BLE connection can not be made even if the connect request packet is transmitted in response to the portable terminal approaching the image processing apparatus or the user instructing the BLE connection. However, there is a possibility that the user can not identify whether the image processing apparatus does not permit the BLE connection or whether it is due to other reasons such as a radio wave environment or a device failure.

  In view of the above problems, it is an object of the present invention to enable a user to be notified in accordance with the fact that the partner apparatus does not permit connection of Bluetooth low energy.

  A communication device according to the present invention comprises receiving means for receiving an advertising packet conforming to Bluetooth low energy from another communication device, and a packet indicating that the advertising packet can not connect to the other communication device according to Bluetooth low energy. And notifying means for notifying the user that the connection to the other communication apparatus can not be made, if any.

  According to the present invention, it is possible to notify the user in accordance with the fact that the partner apparatus does not permit the Bluetooth low energy connection.

FIG. 1 is a block diagram schematically showing a configuration of a communication system 100. FIG. 6 is a sequence diagram for explaining BLE communication performed by the communication system 100. 5 is a flowchart implemented by the image processing apparatus 102. 5 is a flowchart implemented by the mobile terminal 101. 5 is a flowchart implemented by the mobile terminal 101. FIG. 6 is a sequence diagram for explaining BLE communication performed by the communication system 100.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following embodiments, a mobile terminal and an image processing apparatus are described as an example, but the application destination of the present invention is not limited to the mobile terminal and the image processing apparatus.

  FIG. 1 is a block diagram schematically showing a configuration of a communication system 100 according to an embodiment of the present invention.

  The communication system 100 includes portable terminals 101 and 121 and an image processing apparatus 102. The mobile terminals 101 and 121 are communication devices such as a mobile phone such as a smartphone, a notebook computer, and a PDA (Personal Digital Assistant). The communication device is assumed to be portable, but is not limited thereto. The image processing apparatus 102 is an MFP (Multi Function Printer) having various functions such as printing, scanning, and copying. The present invention is not limited to the MFP, and may be a single function printer (SFP), or a communication device such as a camera, a projector, a storage, a personal computer and the like.

  The portable terminal 101 includes a control unit 103, a storage unit 104, a wireless LAN communication unit 105, a BLE communication unit 106, and a UI (User Interface) unit 107 as a hardware configuration. The control unit 103 is connected to the storage unit 104, the wireless LAN communication unit 105, the BLE communication unit 106, and the UI unit 107. In addition, BLE is an abbreviation of Bluetooth low energy.

  The control unit 103 is configured of, for example, one or more processors such as a CPU and an MPU. The control unit 103 may be configured by an ASIC (application specific integrated circuit), a DSP (digital signal processor), an FPGA (field programmable gate array) or the like in addition to or instead of the processor. Here, CPU is an abbreviation for Central Processing Unit, and MPU is an abbreviation for Micro Processing Unit. The control unit 103 controls the entire portable terminal 101 by the cooperation of the program stored in the storage unit 104 and the OS. Here, OS is an abbreviation of Operating System.

  The storage unit 104 includes, for example, a ROM for storing a control program to be executed by the control unit 103, and a RAM for use as a work area required to execute the control program. Here, ROM is an abbreviation of Read Only Memory, and RAM is an abbreviation of Random Access Memory. The storage unit 104 may use a storage medium such as a hard disk, an optical disk, a magneto-optical disk, a CD, a DVD, or the like in addition to or instead of the memory such as the ROM or the RAM. In addition, the storage unit 104 may be configured by one memory.

  The wireless LAN communication unit 105 includes an antenna for performing wireless LAN communication such as Wi-Fi (communication conforming to the IEEE 802.11 series). The wireless LAN communication is used for an application that involves transmission of a large amount of data. For example, when receiving image data scanned by the image processing apparatus 102, the wireless LAN communication is used.

  The BLE communication unit 106 includes an antenna for performing BLE communication. Here, BLE communication is communication compliant with Bluetooth low energy. In the present embodiment, the BLE communication unit 106 of the portable terminal 101 operates as a central. When the central receives the advertising packet sent by the peripheral, it sends a connect request packet to establish a BLE connection. Here, the advertising packet is a packet compliant with Bluetooth low energy, and is a packet that the peripheral periodically broadcasts (broadcasts). The connect request packet is a packet compliant with Bluetooth low energy, and is a packet that the central transmits to establish a BLE connection.

  After the connection is established, the portable terminal 101 operating as a central operates as a master, and the peripheral operates as a slave to perform bidirectional communication.

  Although the wireless LAN communication unit 105 and the BLE communication unit 106 each have an antenna in this embodiment, a single antenna is switched between the wireless LAN communication unit 105 and the BLE communication unit 106 and used. It is also good.

  The UI unit 107 includes an input device such as a button for accepting various operations from the user, and an output device such as a liquid crystal display or a speaker for notifying the user of information. The UI unit 107 may be configured by an apparatus that realizes both input and output with one module, like a touch panel.

  The portable terminal 121 has the same configuration as the portable terminal 101, and thus the description thereof is omitted here.

  The image processing apparatus 102 includes a control unit 108, a storage unit 109, a wireless LAN communication unit 110, a BLE communication unit 111, a scanner unit 112, a printer unit 113, and a UI unit 114. The control unit 108 is connected to the storage unit 109, the wireless LAN communication unit 110, the BLE communication unit 111, the scanner unit 112, the printer unit 113, and the UI unit 114.

  The control unit 108 is configured of, for example, one or more processors such as a CPU and an MPU. The control unit 103 includes, in addition to or instead of the processor, an ASIC, a DSP, an FPGA, and the like. The control unit 108 controls the entire image processing apparatus 102 by cooperation of the program stored in the storage unit 109 and the OS.

  The storage unit 109 includes, for example, a ROM for storing a control program executed by the control unit 108, and a RAM for use as a work area required to execute the control program. Here, ROM is an abbreviation of Read Only Memory, and RAM is an abbreviation of Random Access Memory. The storage unit 109 may use a storage medium such as a hard disk, an optical disk, a magneto-optical disk, a CD, a DVD or the like in addition to or instead of the memory such as the ROM or the RAM. In addition, the storage unit 109 may be configured by one memory.

  The wireless LAN communication unit 110 includes an antenna for performing wireless LAN communication such as Wi-Fi (communication compliant with the IEEE 802.11 series).

  The BLE communication unit 111 includes an antenna for performing BLE communication. In the present embodiment, the BLE communication unit 111 of the image processing apparatus 102 operates as a peripheral. The peripheral sends an advertising packet and establishes a BLE connection by receiving a connect request packet from the central in response. After the connection is established, the image processing apparatus 102 operating as a peripheral operates as a slave, and the central operates as a master to perform bidirectional communication.

  Although the wireless LAN communication unit 110 and the BLE communication unit 111 each have an antenna in this embodiment, a single antenna is switched between the wireless LAN communication unit 110 and the BLE communication unit 111 and used. It is also good.

  The scanner unit 112 performs scan processing based on the control of the control unit 108. For example, the scanner unit 112 reads image information of a document placed on a document table (not shown), generates image data based on the image information, and outputs the image data to the control unit 108.

  The printer unit 113 performs print processing based on the control of the control unit 108. For example, based on the image data transmitted from the control unit 108, print processing is performed on the recording paper.

  The UI unit 114 includes an input device such as a button for accepting various operations from the user, and an output device such as a liquid crystal display or a speaker for notifying the user of information. The UI unit 114 may be configured by a device such as a touch panel in which both input and output are realized by one module.

  The BLE applications provided by the communication system 100 are roughly classified into user-directed applications and proximity detection applications.

  In the user instruction type application, when it is detected that the user instructs the application execution by the UI unit 107, the portable terminal 101 establishes a BLE connection and executes the application. As a specific example of the user instruction type application, an E-mail address registration application to the image processing apparatus 102, a printing application, etc. may be mentioned. For example, in the E-mail address registration application, the user selects an E-mail address to be registered in the image processing apparatus 102 using the UI unit 107. Then, when the user performs an operation indicating transmission to the image processing apparatus 102, the BLE connection is established, and the selected e-mail address is transmitted to the image processing apparatus 102. Further, in the print application, the user selects an image to be printed by the image processing apparatus 102 using the UI unit 107. Then, when an operation indicating a user print instruction is performed, a BLE connection is established, and print data of the selected image is transmitted to the image processing apparatus 102.

  On the other hand, in the proximity detection type application, the portable terminal 101 measures the received signal strength of the advertising packet transmitted by the image processing apparatus 102. Then, when it is detected that the image processing apparatus 102 is approached based on the signal strength, the BLE connection is established and the application is executed. Note that the method of detecting the approach to the image processing apparatus 102 is not limited to the measurement of the received signal strength, and for example, distance measurement using BLE may be used, or other distance measurement may be used. In addition, position information of the portable terminal 101 may be acquired using GPS, a Wi-Fi Positioning System, or the like, and the approach to the image processing apparatus 102 may be detected based on the position information. At this time, the image processing apparatus 102 includes the position information of the image processing apparatus 102 in the advertising packet. Thereby, the portable terminal 101 can determine the relative position with the image processing apparatus 102, and can detect that the image processing apparatus 102 is approached. GPS is an abbreviation of Global Positioning System.

  A specific example of the proximity detection type application is a proximity login application. For example, after the user transmits a print job from the computer or the like to the image processing apparatus 102 via the wired LAN, when the user approaches the image processing apparatus 102, a BLE connection is established and login processing is performed. Then, when the login process is completed, the image processing apparatus 102 executes the printing process. By this operation, since the image processing apparatus 102 can start printing when the user who has sent the print job approaches, it is possible to prevent another user from erroneously collecting the printed matter. It is also possible to prevent the user who sent the print job from forgetting to collect the printed material. In this login process, the user does not have to operate the portable terminal 101, and a system with high convenience can be provided.

  FIG. 2 is a sequence diagram for explaining BLE communication performed in the communication system 100 of the present embodiment.

  In FIG. 2, both the portable terminal 101 and the image processing apparatus 102 start operation in a standby state in which packet communication is not performed. Thereafter, when the control unit 108 instructs transmission of the advertising packet, the image processing apparatus 102 transitions to the advertising state, and broadcasts the advertising packet (step S201).

  Thereafter, in the advertising state, the image processing apparatus 102 broadcasts the advertising packet at predetermined intervals (advInterval) (step S202). Note that the image processing apparatus 102 transmits the advertising packet transmission interval to an arbitrary natural number multiple of 625 μs (micros) within a range of 20 ms (milliseconds) to 10.24 s based on the BLE standard. Can be set as advInterval. The advertising packet includes device information that can specify the image processing apparatus 102, address information, and the like. The image processing apparatus 102 according to the present embodiment transmits ADV_IND indicating that BLE connection is possible as the type of advertising packet.

  When the control unit 103 instructs scanning of the advertising packet, the portable terminal 101 transitions to the scanning state, and receives the advertised packet broadcasted. Here, in response to activation of one of the BLE applications described above, the control unit 103 instructs scanning of the advertising packet. Note that the start instruction of the BLE application may be instructed by the user via the UI unit 107 of the portable terminal 101 or may be instructed by the user from an external apparatus. In addition, the control unit 103 may instruct start of the BLE application in response to satisfying a predetermined condition such as reaching a predetermined time.

  Next, when the control unit 103 instructs establishment of a BLE connection with the image processing apparatus 102, the portable terminal 101 transitions to the initiating state. Here, if the type of the activated BLE application is a user instruction type application, the control unit 103 instructs establishment of a BLE connection with the image processing apparatus 102 according to an instruction from the user. The user instruction may be a BLE connection instruction or an instruction according to the activated application. For example, when the activated application is an e-mail address registration application, the control unit 103 is operated in response to a user operation for transmitting an e-mail address registered in the image processing apparatus 102 to the image processing apparatus 102. Instructs BLE connection establishment. Further, for example, when the activated application is a print application, the control unit 103 responds to the user selecting an image to be printed on the image processing apparatus 102 or according to a print instruction from the user. Instructs BLE connection establishment.

  On the other hand, if the type of the activated BLE application is the proximity detection type application, the control unit 103 performs BLE with the image processing apparatus 102 according to the detection that the portable terminal 101 approaches the image processing apparatus 102. Direct connection establishment.

  The portable terminal 101 that has transitioned to the initiating state receives the advertising packet transmitted from the image processing apparatus 102 (step S203), and transmits a connect request packet (CONNECT_REQ) to the image processing apparatus 102. The connect request packet is a packet requesting a BLE connection, and is a packet conforming to the BLE standard. When the connect request packet is transmitted, the portable terminal 101 transitions to the connection state. On the other hand, when the image processing apparatus 102 receives the connect request packet from the portable terminal 101 (step S204), the image processing apparatus 102 transitions to the connection state. Thereby, the BLE connection between the portable terminal 101 and the image processing apparatus 102 is established.

  In the connection state, the central portable terminal 101 operates as a master, and the image processing apparatus 102 as a peripheral operates as a slave, and bidirectional communication is performed. This two-way communication is performed at predetermined intervals (connInterval), and is performed in a form in which the image processing apparatus 102 as the slave responds (step S206) to the transmission packet (step S205) of the portable terminal 101 as the master. Based on the BLE standard, the portable terminal 101 can set the connInterval, which is the packet transmission interval, to a value of an arbitrary natural number multiple of 1.25 ms in the range of 7.5 ms to 4 seconds. The connection state is continued until either the portable terminal 101 or the image processing apparatus 102 transmits a disconnection request packet (LL_TERMINATE_IND) thereafter. Here, the disconnection request packet (LL_TERMINATE_IND) is a packet compliant with Bluetooth low energy, and is a packet requesting disconnection of the BLE connection.

  Subsequently, processing executed by the portable terminal 101 and the image processing apparatus 102 will be described.

  FIG. 3 is a flowchart when the image processing apparatus 102 performs BLE communication. The flowchart illustrated in FIG. 3 is started when an operation for turning on BLE is performed by the user in the image processing apparatus 102. However, the present invention is not limited to this, and may be started when the power of the image processing apparatus 102 is turned on, when a predetermined time comes, or when a predetermined time passes after the flowchart of FIG. May be Also, the predetermined application may be started when it is started by the user or another trigger.

  In the present embodiment, the flowchart illustrated in FIG. 3 is realized by the control unit 108 reading out and executing the program stored in the storage unit 109. A part or all of the steps shown in the flowchart of FIG. 3 may be realized by hardware such as an ASIC.

  First, the control unit 108 causes the BLE communication unit 111 to transition to the advertising state, and the BLE communication unit 111 starts transmission of an advertising packet (step S301). The advertising packet transmitted here is an advertising packet conforming to Bluetooth low energy, and is an advertising packet (ADV_IND) indicating BLE connection permission. Then, in the advertising state, the BLE communication unit 111 waits for a connect request packet from the portable terminal 101 (step S302). If the connection request packet can not be received in step S302 for a predetermined time while waiting for the connection request packet, the process may return to step S301, or the flowchart illustrated in FIG. 3 may be ended. In addition, the flowchart illustrated in FIG. 3 may be ended in response to the number of times the process returns to step S301 having exceeded the predetermined threshold.

When the connect request packet transmitted by the portable terminal 101 is received (YES in step S302), the control unit 108 shifts the BLE communication unit 111 to the connection state. Then, the BLE communication unit 111 in the connection state starts application communication with the portable terminal 101 using BLE (step S303). Here, the BLE communication unit 111 starts reception of application data transmitted from the portable terminal 101. Next, the control unit 108 transmits to the BLE communication unit 111 an advertising packet (ADV_NONCONN_IND) indicating that BLE connection is not possible. Is started (step S304). The advertising packet is an advertising packet compliant with Bluetooth low energy.

  Thereafter, the control unit 108 causes the BLE communication unit 111 to continue the transmission of ADV_NONCONN_IND while the BLE communication unit 111 is in the connection state (No in step S305). When the disconnection request packet is received from the portable terminal 101 and the BLE connection is disconnected (YES in step S305), the control unit 108 stops transmission of ADV_NONCONN_IND from the BLE communication unit 111 (step S306).

  As described above, when the image processing apparatus 102 is in the connection state, that is, when it has already made BLE connection with another communication apparatus, it transmits an advertising packet (ADV_NONCONN_IND) indicating that BLE connection is not possible. In this manner, the image processing apparatus 102 notifies the other apparatus that no further BLE connection is possible.

  FIG. 4 shows a flowchart showing a procedure of processing the user instruction type application by the portable terminal 101. The flowchart shown in FIG. 4 is started when the portable terminal 101 is powered on. Here, the flowchart illustrated in FIG. 4 is realized by the control unit 103 reading and executing the program stored in the storage unit 104. Note that part or all of the steps shown in the flowchart of FIG. 4 may be realized by hardware such as an ASIC.

  First, the control unit 103 waits for a start instruction of the proximity detection type application from the user via the UI unit 107 (S401). Then, when activation of the proximity detection type application is instructed (YES in step S401), the control unit 103 activates the instructed application (step S402). When the application is activated, the control unit 103 displays information of a device (here, the image processing apparatus 102) which has already been paired with the portable terminal 101 via the UI unit 107, and a connection instruction (connection instruction) from the user. (Step S403). As a method of pairing the portable terminal 101 and the image processing apparatus 102 in advance, a method of inputting the PIN code displayed on one side to the other, a method of performing an operation to pair the both within a predetermined time, There is a method of using NFC, and the like. Here, NFC is an abbreviation for Near Filed Communication.

  When the control unit 103 receives a connection instruction from the user (Yes in step S403), the BLE communication unit 106 searches (scans) the device (here, the image processing apparatus 102) instructed to be connected (step S404). Specifically, the BLE communication unit 106 waits for the advertising packet from the image processing apparatus 102.

  When the BLE communication unit 106 receives an advertising packet from the image processing apparatus 102, the control unit 103 determines whether the advertising packet is ADV_IND (step S405). Here, ADV_IND is an advertising packet conforming to the Bluetooth standard, which indicates that the image processing apparatus 102 is BLE connectable.

  If ADV_IND has been received (YES in step S405), the control unit 103 controls the BLE communication unit 106 to transmit a connect request packet (CONNECT_REQ) requesting a BLE connection to the image processing apparatus 102 (step S406). By this operation, a BLE connection is established between the portable terminal 101 and the image processing apparatus 102.

  In step S405, when ADV_IND is received with radio wave strength (reception strength) equal to or higher than a predetermined threshold, the above determination is performed, and ADV_IND is received with radio wave strength (reception strength) less than the predetermined threshold. In this case, the above determination may not be performed. Thereby, when the portable terminal 101 and the image processing apparatus 102 are brought close to each other, BLE connection can be established.

  When the BLE connection is established, the control unit 103 controls the BLE communication unit 106 to transmit the BLE packet including the application data to the image processing apparatus 102 (step S407). Here, the application data is, for example, print data. When the transmission of application data is completed, the control unit 103 controls the BLE communication unit 106 to transmit a disconnection request packet (LL_TERMINATE_IND) for disconnecting the BLE connection to the image processing apparatus 102 (step S408). After that, the control unit 103 ends the application and ends the present flow.

  On the other hand, when the advertising packet received from the image processing apparatus 102 is not ADV_IND (NO in step S405), the control unit 103 determines whether the advertising packet is ADV_NONCONN_IND (step S409). Here, ADV_NONCONN_IND is an advertising packet conforming to the Bluetooth standard which indicates that the image processing apparatus 102 can not connect BLE.

  If the BLE communication unit 106 receives ADV_NONCONN_IND transmitted by the image processing apparatus 102 (YES in step S409), the process advances to step S410. Then, the control unit 103 notifies the user that the image processing apparatus 102 can not make further BLE connection (i.e., BLE connection impossible) via the UI unit 107 (step S410). Thereafter, the BLE communication unit 106 waits for reception of ADV_IND from the transmission of the image processing apparatus 102 (step S411). Then, the control unit 103 continues the BLE connection disable notification until the ADV_IND transmitted by the image processing apparatus 102 is received (in the case of NO at step S411). On the other hand, when the BLE communication unit 106 receives ADV_IND (YES in step S411), the control unit 103 ends the BLE connection disable notification (step S412), and proceeds to step S406.

  When the advertising packet received from the image processing apparatus 102 is neither ADV_IND nor ADV_NONCONN_IND (NO in step S409), the BLE communication unit 106 discards the advertising packet. Then, the process returns to step S405.

  In this way, when the partner apparatus to which the user instructs the connection transmits the BLE connection disable notification, it is possible to appropriately notify the user that the partner apparatus can not BLE connect.

  FIG. 5 is a flowchart showing a procedure of processing the proximity detection type application by the portable terminal 101. The flowchart shown in FIG. 5 is started when the portable terminal 101 is powered on. Here, the flowchart illustrated in FIG. 5 is realized by the control unit 103 reading and executing the program stored in the storage unit 104. A part or all of the steps shown in the flowchart of FIG. 5 may be realized by hardware such as an ASIC.

  Also, the flowchart shown in FIG. 4 and the flowchart shown in FIG. 5 may be started in parallel. In this case, the flowchart in which the activation of the application is instructed first (that is, the person who first made YES in S401 of FIG. 4 and S501 of FIG. 5) is continuously executed, and the other flowcharts are ended. Good. In addition, the user or the like may set in advance which of the flowcharts of FIGS. 4 and 5 is to be executed. Further, which one of the flowcharts of FIG. 4 and FIG. 5 is to be executed may be selected depending on the mode of the portable terminal 101 or the like.

  When the flowchart illustrated in FIG. 5 is started, first, the control unit 103 waits for a start instruction of the proximity detection type application from the user via the UI unit 107 (S501). Then, when activation of the proximity detection type application is instructed (YES in step S501), the control unit 103 activates the instructed application (step S502). When the application is activated, the control unit 103 shifts the BLE communication unit 106 to the scanning state (step S503). Then, the BLE communication unit 106 waits for the advertising packet transmitted by the image processing apparatus 102 (steps S503 to S504).

  Here, if the BLE communication unit 106 does not receive ADV_IND transmitted by the image processing apparatus 102 in step S504 (NO in step S504), the process advances to step S510.

  In step S510, the control unit 103 determines whether the BLE communication unit 106 has received ADV_NONCONN_IND transmitted by the image processing apparatus 102. If ADV_NONCONN_IND has not been received (NO in step S510), the process returns to step S504, and the BLE communication unit 106 continues waiting for the advertising packet from the image processing apparatus 102.

  On the other hand, when the BLE communication unit 106 receives ADV_NONCONN_IND transmitted by the image processing apparatus 102 (YES in step S510), the process proceeds to step S511. Then, the control unit 103 notifies the user that the image processing apparatus 102 can not make further BLE connection (i.e., BLE connection is not possible) via the UI unit 107 (step S511). Thereafter, the BLE communication unit 106 waits for reception of ADV_IND from the transmission of the image processing apparatus 102 (step S512). Then, the control unit 103 continues the BLE connection disable notification until the ADV_IND transmitted by the image processing apparatus 102 is received (in the case of NO at step S512). On the other hand, when the BLE communication unit 106 receives ADV_IND (YES in step S512), the control unit 103 ends the BLE connection disable notification (step S513), and returns to step S504 to continue the process.

  On the other hand, when the BLE communication unit 106 receives the advertising packet from the image processing apparatus 102 in step S504 (YES in step S504), the control unit 103 measures the received signal strength (step S505).

  If the received signal strength is less than the threshold (NO in step S506), the process returns to step S504, and the BLE communication unit 106 continues waiting for the advertising packet to be transmitted by the image processing apparatus 102. In addition, although the said threshold value shall be predetermined in this embodiment, you may enable it to change according to a user's setting. Also, the value may be set for each application.

  On the other hand, when the received signal strength is equal to or higher than the threshold (YES in step S506), the control unit 103 determines that the portable terminal 101 and the image processing apparatus 102 approach each other, and transmits the connect request packet Control is performed (step S507). By this operation, a BLE connection is established between the portable terminal 101 and the image processing apparatus 102.

  As described above, as a method of detecting that the portable terminal 101 and the image processing apparatus 102 approach each other and the portable terminal 101 is within the predetermined range, not only the received signal strength but other methods are used. It can also be done. Moreover, you may determine by these combinations.

  When the BLE connection is established, the control unit 103 controls the BLE communication unit 106 to transmit the BLE packet including the application data to the image processing apparatus 102 (step S508). The application data is, for example, authentication information for login processing in the proximity login application, and more specifically, a user ID and a password.

  When the transmission of application data is completed, the control unit 103 controls the BLE communication unit 106 to transmit a disconnection request packet (LL_TERMINATE_IND) for disconnecting the BLE connection to the image processing apparatus 102 (step S509). After that, the control unit 103 ends the application and ends the present flow.

  FIG. 6 is a sequence diagram for explaining BLE communication performed by the communication system 100 of the present embodiment.

  In the sequence diagram of FIG. 6, the same operation steps as the sequence diagram shown in FIG. 2 carry the same reference numerals, and the explanation thereof is omitted. The portable terminal 121 is added in the sequence diagram of FIG.

  In FIG. 5, when the image processing apparatus 102 establishes a BLE connection with the portable terminal 101 (steps S201 to 204), it performs BLE communication with the portable terminal 101 (steps S205 and S206).

  Since the image processing apparatus 102 has established a BLE connection with the portable terminal 101, the image processing apparatus 102 starts transmission of NON_CONN_ADV indicating that connection is not possible (step S601). The transmission operation of NON_CONN_ADV is equivalent to operating as a broadcaster compliant with Bluetooth low energy that only transmits data periodically by advertising packets. That is, in the present embodiment, the image processing apparatus 102 operating as the peripheral switches between the peripheral and the broadcaster after the BLE connection is established. That is, when the BLE connection is established, the image processing apparatus 102 switches the role in the BLE standard.

  The control unit 108 may arbitrarily determine the switching timing of the role to the peripheral and the broadcaster. However, it is desirable to perform timing control so that the connection communication between NON_CONN_ADV and the mobile terminal 101 does not collide. For example, the control unit 108 sets the advInterval of NON_CONN_ADV to a natural number multiple of connInterval in connection communication with the portable terminal 101. Then, the NON_CONN_ADV transmission timing may be controlled so that the NON_CONN_ADV transmission timing does not coincide with the connection communication timing. Alternatively, when the NON_CONN_ADV transmission timing coincides with the connection communication timing with the portable terminal 101, the connection communication may be prioritized, and the transmission of the NON_CONN_ADV may not be performed.

  By the operation of the image processing apparatus 102 described above, NON_CONN_ADV is transmitted in the BLE connection state. Upon receiving the NON_CONN_ADV transmitted by the image processing apparatus 102, the portable terminal 101 can determine that the image processing apparatus 102 is in the BLE connection state, and can notify the UI unit 107 that the BLE connection can not be made.

  In the present embodiment, in step S511, which is the process of the portable terminal 101, the UI unit 107 notifies that connection is not possible. However, instead of or in addition to this, the UI unit 107 may notify the time until the portable terminal 101 and the image processing apparatus 102 disconnect the BLE connection. Further, the estimated completion time of the application processing being executed by the mobile terminal 101 and the image processing apparatus 102 may be notified as to the time until the BLE connection is disconnected.

  In this case, the image processing apparatus 102 transmits information such as information (time information) of the estimated completion time of the application being executed by the portable terminal 101 in the ADV_NONCONN_IND. Then, in step S702, the portable terminal 101 notifies the completion prediction time included in ADV_NONCONN_IND by the UI unit 107.

  By this operation, the user who approaches the image processing apparatus 102 to execute the proximity login application can check the completion estimated time notified by the UI unit 107, thereby enabling BLE connection and enabling proximity login. You can know the time of Therefore, the user can obtain information for determining whether to stand by on the spot, thereby further improving convenience.

  In addition, when the portable terminal 101 searches for a device corresponding to BLE, and the result is notified by the UI unit 107, it may be notified that connection is not possible. In this case, the portable terminal 101 receives an advertising packet for a predetermined time, and determines whether the received advertising packet is ADV_IND or ADV_NONCONN_IND. Then, a notification indicating that the device can transmit ADV_IND may be notified, and a notification indicating that the device can transmit ADV_NONCONN_IND may be notified.

  In addition, when the said notification is performed by display, you may display the information (whether it is connectable or not connectable) regarding several apparatuses in a list format. Also, when displaying in a list format, it may be displayed based on the detection order of the devices (the order in which the advertising packet was received), or by the attribute information (device name etc.) of the devices included in the advertising packet. You may sort and display. Also, the group of devices that transmitted ADV_IND and the group of devices that transmitted ADV_NONCONN_IND may be displayed separately. Also, the device that has transmitted ADV_NONCONN_IND may be grayed out and displayed, and the connection instruction for the device may not be accepted. Even in such an embodiment, the user can know whether or not the connection according to the Bluetooth low energy of the other device is possible.

  In addition to displaying a search result in a list format or the like, indicating that connection is not possible, or in place of the display indicating that connection is not possible, the estimated completion time of application processing may be notified. According to this, the user can know the time until the BLE connection becomes possible by confirming the estimated completion time notified by the UI unit 107. The user can obtain information for determining whether to stand by on the spot. Therefore, the convenience of the user can be further improved.

  The present invention supplies a program that implements one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in a computer of the system or apparatus read the program. It can also be realized by the process to be executed. It can also be implemented by a circuit (eg, an ASIC) that implements one or more functions.

REFERENCE SIGNS LIST 101 portable terminal 102 image processing apparatus 103 control unit 104 storage unit 105 wireless LAN communication unit 106 BLE communication unit 107 UI unit 108 control unit 109 storage unit 110 wireless LAN communication unit 111 BLE communication unit 112 scanner unit 113 printer unit 114 UI unit

Claims (12)

A communication device,
Receiving means for receiving an advertising packet compliant with Bluetooth low energy from another communication device;
When the advertising packet is a packet indicating that the connection to the other communication device can not be established by Bluetooth low energy, the user is notified that the connection to the other communication device can not be made. Notification means,
A communication apparatus comprising:   The communication device further comprises transmission means for transmitting a request packet requesting connection of Bluetooth low energy to the other communication device when the advertising packet is a packet indicating that the connection to the other communication device is possible. The communication device according to claim 1. It further comprises acquisition means for acquiring time information until the other communication device permits connection of new Bluetooth low energy,
The communication apparatus according to claim 1, wherein the notification unit performs notification corresponding to the time information acquired by the acquisition unit.   The communication device according to any one of claims 1 to 3, wherein the advertising packet indicating that connection to the other communication device can not be performed is ADV_NONCONN_IND conforming to Bluetooth low energy.   The communication device according to any one of claims 1 to 4, wherein the notification means performs display according to the fact that the connection to the other communication device can not be made.   The communication apparatus according to any one of claims 1 to 5, wherein the notification unit displays information on whether or not the connection can be established for a plurality of other communication apparatuses.   When the advertising packet received by the receiving means is a packet indicating that the other communication device can be connected by the Bluetooth low energy, it further comprises transmitting means for transmitting a connect request packet to the other communication device. The communication apparatus according to any one of claims 1 to 6, wherein   If the advertising packet received by the receiving means is a packet indicating that the other communication device can be connected by the Bluetooth low energy, the transmitting means uses the other communication device based on the reception strength of the packet. 8. The communication apparatus according to claim 7, further comprising transmitting the connect request packet to the communication apparatus.   If the advertising packet received by the receiving means is a packet indicating that the other communication device can be connected by Bluetooth low energy, the transmitting means sends the other communication device to the other communication device based on an instruction from the user. The communication apparatus according to claim 7, wherein the connection request packet is transmitted.   An image processing apparatus for transmitting an advertising packet compliant with Bluetooth low energy, which communicates with the communication apparatus according to any one of claims 1 to 9. A control method of the communication device,
Receiving an advertising packet compliant with Bluetooth low energy from another communication device;
When the advertising packet is a packet indicating that the connection to the other communication device can not be established by Bluetooth low energy, the user is notified that the connection to the other communication device can not be made. Notification process,
A control method characterized by comprising:   The program for functioning a computer as each means of the communication apparatus of any one of Claim 1 to 9.

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