JP6927255B2 - Communication equipment - Google Patents

Description

This specification discloses a communication device capable of performing wireless communication according to a plurality of communication methods.

Patent Document 1 discloses a technique for the first terminal and an external device to execute wireless communication according to Wi-Fi. The first terminal provides information about the AP (abbreviation of Access Point) to which the first terminal itself is connected (that is, MAC address, SSID, channel number, security key, etc.) of BLE (Bluetooth (registered trademark) Low Energy). It is transmitted to an external device via (omitted). In this case, the external device activates the Wi-Fi module and uses the information to connect to the AP. As a result, the first terminal and the external device can execute wireless communication according to Wi-Fi.

Japanese Unexamined Patent Publication No. 2014-53007

In the technique of Patent Document 1, even in a situation where the user does not want the external device to be connected to the AP, when the information about the AP is transmitted from the first terminal to the external device via BLE, the external device Is connected to the AP.

In the present specification, after the wireless communication according to the second communication method is executed between the first communication device and the second communication device, the first communication method is followed in an appropriate situation. Disclose the technology in which a wireless connection can be established.

The printer disclosed herein follows a print execution unit, a Wi-Fi interface for performing wireless communication according to the Wi-Fi method, and a 4.0 or later version of the Bluetooth® system. A first establishment unit that executes pairing with a terminal device via the Bluetooth interface for executing wireless communication and the Bluetooth interface to establish a Bluetooth connection with the terminal device, and the terminal device. After the Bluetooth connection is established, the first transition is to shift the operating state of the printer from a state in which the printer is not operating as the master station of the Wi-Fi network to a state in which the printer is operating as the master station of the Wi-Fi network. Using the unit and the established Bluetooth connection, the connection information for establishing the Wi-Fi connection via the Wi-Fi interface with the terminal device is transmitted to the terminal device via the Bluetooth interface. The Wi-Fi connection is a connection for making the terminal device belong to the Wi-Fi network in which the printer operates as the master station. A request to receive a connection request from the terminal device via the Wi-Fi interface after the connection information is transmitted to the terminal device and the operating state is shifted to the state of operating as the master station. In response to receiving the connection request from the request receiving unit and the terminal device, which is a receiving unit and the connection request is a request obtained by using the connection information, the Wi-Fi interface is provided. A second establishment unit that establishes the Wi-Fi connection via the terminal device and forms the Wi-Fi network to which both the printer and the terminal device belong, and the Wi-Fi network are used. Then, the data receiving unit that receives the image data from the terminal device via the Wi-Fi interface and the printing control unit that causes the printing execution unit to perform printing according to the received image data. Be prepared.
Further, the first communication device disclosed by the present specification includes a first interface for executing wireless communication according to the first communication method and a second communication different from the first communication method. Through the second interface in a state where the distance between the second interface for executing wireless communication according to the method and the first communication device and the second communication device is less than a predetermined distance. The first network-related information transmission unit that transmits the first network-related information related to the first wireless network to the second communication device, and the first wireless network is the first wireless network. The first interface is provided from the first network-related information transmission unit, which is a network for executing wireless communication via the interface, and the second communication device that has received the first network-related information. The first network-related information in response to receiving the first wireless connection request from the first connection request receiving unit that receives the first wireless connection request and the second communication device via the second communication device. To establish a first wireless connection via the first interface with the second communication device, and to which both the first communication device and the second communication device belong. A first establishment unit that forms a first wireless network, a device identification information receiving unit that receives second device identification information for identifying the second communication device from the second communication device, and a device identification information receiving unit. The storage control unit that stores the second device identification information in the memory of the first communication device, and the second communication device after the second device identification information is stored in the memory. The specific information receiving unit that receives the specific information including the third device identification information for identifying the third communication device and the third device identification information in the specific information are the above. When it is determined that the identification information determination unit that determines whether or not the second device identification information in the memory matches the second device identification information and the third device identification information matches the second device identification information, the said Through the second interface, the second network-related information related to the second wireless network is transmitted to the second communication device matching the third communication device, and the third device identification information is transmitted. The second network-related information transmission unit that does not transmit the second network-related information to the third communication device when it is determined that the second device identification information does not match. Wireless network The second network-related information is different from the first network-related information, and the second network-related information is different from the first network-related information. A second connection request receiving unit that receives a second wireless connection request from the transmitting unit and the second communication device that has received the second network-related information via the first interface, and the above. In response to receiving the second wireless connection request from the second communication device, the second wireless connection via the first interface is made by using the second network-related information. It is provided with a second establishment unit that is established with the communication device of the above and forms the second wireless network to which both the first communication device and the second communication device belong.

According to the above configuration, the first communication device is in a state where the distance between the first communication device and the second communication device is less than a predetermined distance, that is, the user follows the first communication method wirelessly. The first network-related information is transmitted to the second communication device via the second interface in a state where it is highly likely that the connection is established. As a result, the first communication device can form the first wireless network by establishing the first wireless connection according to the first communication method with the second communication device. Then, the first communication device receives the second device identification information from the second communication device and stores it in the memory. After that, when the first communication device receives the specific information from the third communication device via the second interface, the third device identification information in the specific information becomes the second device identification information in the memory. Judge whether or not it matches. The fact that the third device identification information matches the second device identification information means that the third communication device has a second communication in which the first wireless connection according to the first communication method has been established in the past. Means to match the device. Therefore, if the third device identification information matches the second device identification information, it is highly likely that the user wants to reestablish the wireless connection according to the first communication method. On the other hand, if the third device identification information does not match the second device identification information, it is unlikely that the user wants to establish a wireless connection according to the first communication method. Therefore, when the first communication device determines that the third device identification information does not match the second device identification information, the first communication device does not transmit the second network-related information to the third communication device, and this As a result, the wireless connection according to the first communication method is not established with the third communication device. Then, when the first communication device determines that the third device identification information matches the second device identification information, the first communication device transfers the second network-related information to the third communication device via the second interface. It is transmitted to the second communication device that matches. Thereby, the first communication device can establish the second wireless connection according to the first communication method with the second communication device to form the second wireless network. In this way, the first communication device can establish a wireless connection according to the first communication method in an appropriate situation after executing wireless communication according to the second communication method.

A control method for realizing the above-mentioned first communication device, a computer program, and a computer-readable recording medium for storing the computer program are also new and useful.

The present specification also discloses a computer program for a terminal device. The terminal device has a Wi-Fi interface for executing wireless communication according to the Wi-Fi method and a Bluetooth interface for executing wireless communication according to 4.0 or a later version of the Bluetooth (registered trademark) method. And a processor. The computer program has already established the first establishment process for establishing a Bluetooth connection with the printer by executing the following processes on the processor, that is, pairing with the printer via the Bluetooth interface. In the connection information receiving process for receiving connection information for establishing a Wi-Fi connection via the Wi-Fi interface with the printer from the printer via the Bluetooth interface using the Bluetooth connection of the above. The Wi-Fi connection is a connection for assigning the terminal device to a Wi-Fi network in which the printer operates as a master station. The connection information reception process and the connection information are received from the printer. A request transmission process for transmitting a connection request to the printer via the Wi-Fi interface, wherein the connection request is a request obtained by using the connection information. In response to transmitting the connection request to the printer, the Wi-Fi connection via the Wi-Fi interface is established with the printer, and the Wi to which both the printer and the terminal device belong. -The second establishment process for forming the Fi network and the data transmission process for transmitting image data to the printer via the Wi-Fi interface using the Wi-Fi network are executed.
The present specification also discloses a computer program for a second communication device. The second communication device executes a first interface for executing wireless communication according to the first communication method and wireless communication according to a second communication method different from the first communication method. It is provided with a second interface for the operation and a processor. The computer program causes the processor to perform the following processes, that is, from the first communication device in a state where the distance between the first communication device and the second communication device is less than a predetermined distance. The first network-related information receiving process for receiving the first network-related information related to the first wireless network via the second interface, wherein the first wireless network is the first wireless network. The first network-related information reception process, which is a network for executing wireless communication via an interface, and the first network-related information reception from the first communication device. The first connection request transmission process for transmitting the first wireless connection request to the first communication device and the transmission of the first wireless connection request to the first communication device via the interface 1. Correspondingly, the first wireless connection via the first interface is established with the first communication device by using the first network-related information, and the first communication device and the first communication device are established. The first establishment process for forming the first wireless network to which both of the two communication devices belong, and the first device identification for identifying the first communication device from the first communication device. After the device identification information reception process for receiving the information, the storage control process for storing the first device identification information in the memory of the second communication device, and the storage control process for storing the first device identification information in the memory. , A first predetermined signal reception that receives a first predetermined signal including a third device identification information for identifying the third communication device from the third communication device via the second interface. The processing, the identification information determination process for determining whether or not the third device identification information in the first predetermined signal matches the first device identification information in the memory, and the third device. When it is determined that the identification information matches the first device identification information, the third predetermined request for requesting the network-related information related to the wireless network via the second interface is made. When it is transmitted to the first communication device that matches the communication device and it is determined that the third device identification information does not match the first device identification information, the first predetermined request is made by the first. The second interface from the first communication device in response to the first predetermined request transmission process that is not transmitted to the communication device 3 and the transmission of the first predetermined request to the first communication device. Through The second network-related information reception process for receiving the second network-related information related to the second wireless network, wherein the second wireless network performs wireless communication via the first interface. The second network-related information is a network for execution, and the second network-related information is different from the first network-related information. A second connection request transmission process for transmitting a second wireless connection request to the first communication device via the first interface and the second wireless connection in response to receiving network-related information. In response to transmitting the connection request to the first communication device, the second wireless connection via the first interface is made with the first communication device by using the second network-related information. The second establishment process of forming the second wireless network to which both the first communication device and the second communication device belong is executed.

The above computer program can realize the following second communication device. That is, in the second communication device, a state in which the distance between the first communication device and the second communication device is less than a predetermined distance, that is, a wireless connection in which the user follows the first communication method is established. The first network-related information is received from the first communication device via the second interface in a state in which it is highly likely that the user wants to do so. As a result, the second communication device can form the first wireless network by establishing the first wireless connection according to the first communication method with the first communication device. Then, the second communication device receives the first device identification information from the first communication device and stores it in the memory. After that, when the second communication device receives the first predetermined signal from the third communication device via the second interface, the third device identification information in the first predetermined signal is stored in the memory. It is determined whether or not the information matches the first device identification information. The fact that the third device identification information matches the first device identification information means that the third communication device is the first communication in which the first wireless connection according to the first communication method has been established in the past. Means to match the device. Therefore, it is likely that the user wants the wireless connection according to the first communication method to be reestablished. On the other hand, if the third device identification information does not match the first device identification information, it is unlikely that the user wants to establish a wireless connection according to the first communication method. Therefore, when the second communication device determines that the third device identification information does not match the first device identification information, the second communication device does not transmit the first predetermined request to the third communication device, and as a result, , Do not establish a wireless connection according to the first communication method with the third communication device. Then, when the second communication device determines that the third device identification information matches the first device identification information, the second communication device sends the first predetermined request to the third communication device via the second interface. Send to the matching first communication device. As a result, the second communication device receives the second network-related information from the first communication device via the second interface, and makes a second wireless connection according to the first communication method. It can be established with a communication device to form a second wireless network. In this way, the second communication device can establish a wireless connection according to the first communication method in an appropriate situation after executing wireless communication according to the second communication method.

Computer-readable recording media that store the above computer programs are also new and useful. Further, the above-mentioned second communication device itself is also new and useful. Further, the control method for realizing the above-mentioned second communication device is also new and useful. Further, a communication system including the above-mentioned first communication device and the second communication device is also new and useful.

The configuration of the communication system is shown. The flow chart of the processing of the printer of 1st Example is shown. The flowchart of the process of the mobile terminal of 1st Example is shown. The sequence diagram of the case A of the 1st Example is shown. The sequence diagram of the case B1 and B2 of the 1st Example is shown. The flowchart of the printer processing of 2nd Example is shown. The flowchart of the process of the mobile terminal of 2nd Example is shown. The sequence diagram of the case C of the 2nd Example is shown. The sequence diagram of case D1 and D2 of the 2nd Example is shown. The flowchart of the printer processing of 3rd Example is shown. The flowchart of the process of the mobile terminal of 3rd and 4th Examples is shown. The sequence diagram of the case E of the 3rd and 4th Examples is shown. The sequence diagram of the case F1 and F2 of the 3rd Example is shown. The flowchart of the printer processing of 4th Example is shown. The sequence diagram of the case G1 and G2 of the 4th Example is shown.

(First Example)
(Configuration of communication system 2)
As shown in FIG. 1, the communication system 2 includes a printer PR and a plurality of mobile terminals PT1 and PT2. The printer PR and the mobile terminals PT1 and PT2 can mutually execute wireless communication.

(Configuration of printer PR)
The printer PR is a peripheral device capable of executing a printing function, that is, a peripheral device such as a mobile terminal PT1. The printer PR includes an operation unit 12, a display unit 14, a print execution unit 16, a Wi-Fi interface 20, a BT (abbreviation of Bluetooth (registered trademark)) interface 22, and a control unit 30. Each part 12 to 30 is connected to a bus line (reference numeral omitted). In the following, the interface will be referred to as "I / F". In addition, although NFC (abbreviation of Near Field Communication) I / F24 is also disclosed in FIG. 1, NFCI / F24 is an I / F used in the third and fourth examples described later, and the first It may or may not be provided in the printer PRs of the first and second embodiments.

The operation unit 12 includes a plurality of keys. The user can input various instructions to the printer PR by operating the operation unit 12. The display unit 14 is a display for displaying various information. The display unit 14 also functions as a so-called touch panel. That is, the display unit 14 also functions as an operation unit operated by the user. The print execution unit 16 is a printing mechanism such as an inkjet method or a laser method.

The Wi-Fi I / F 20 is an I / F for executing wireless communication according to the Wi-Fi method (hereinafter referred to as "Wi-Fi communication"). The Wi-Fi method is based on, for example, the IEEE (abbreviation of The Institute of Electrical and Electronics Engineers, Inc.) 802.11 standard and the equivalent standard (for example, 802.11a, 11b, 11g, 11n, etc.). It is a wireless communication method based on. More specifically, the Wi-Fi I / F20 supports the WFD (short for Wi-Fi Direct®) scheme developed by the Wi-Fi Alliance. The WFD method is a wireless communication method described in the standard "Wi-Fi Peer-to-Peer (P2P) Technical Specification Version 1.1" created by Wi-Fi Alliance.

The BTI / F22 is an I / F for executing wireless communication (hereinafter referred to as "BT communication") according to the Bluetooth system. The Bluetooth system is, for example, a wireless communication system based on the standard of IEEE802.5.1 and a standard equivalent thereto. More specifically, the BTI / F22 supports BLE (short for Bluetooth Low Energy). BLE is a standard realized by version 4.0 or later of the Bluetooth system. In the following, a version less than 4.0 of the Bluetooth method will be referred to as a "classic BT". In order to execute BT communication according to BLE between a pair of BTI / F, one BTI / F corresponds to "Bluetooth Smart Ready" defined by the BT method, and the other BTI / F. However, it may correspond to "Bluetooth Smart Ready" or "Bluetooth Smart" defined by the BT method. The BTI / F corresponding to "Bluetooth Smart Ready" is an I / F (that is, a so-called dual mode I / F) capable of performing both an operation according to BLE and an operation according to a classic BT. The BTI / F corresponding to "Bluetooth Smart" is an I / F that can execute an operation according to BLE but cannot execute an operation according to a classic BT. In this embodiment, BT communication according to BLE is executed between the printer PR and the mobile terminals PT1 and PT2. Since the BTI / F (for example, reference numeral 62) described later of the mobile terminals PT1 and PT2 is compatible with "Bluetooth Smart Ready", the BTI / F22 of the printer PR is of "Bluetooth Smart Ready" and "Bluetooth Smart". It does not matter which one is supported. However, in the modified example, when the BTI / F22 of the printer PR is compatible with "Bluetooth Smart Ready", the BTI / F of the mobile terminals PT1 and PT2 may be compatible with "Bluetooth Smart".

Describe the differences between Classic BT and BLE. The number of BLE channels (ie 40) is less than the number of classic BT channels (ie 79). The current consumption during data communication of BLE (for example, 15 mA) is smaller than the current consumption during data communication of classic BT (for example, 35 mA). Therefore, the power consumption of BLE is lower than the power consumption of classic BT. Further, in BLE, the Advantage signal is used, but in the classic BT, the Advantage signal is not used.

The differences between the Wi-Fi method and the BT method will be described. The communication speed of Wi-Fi communication (for example, the maximum communication speed is 600 Mbps) is faster than the communication speed of BT communication (for example, the maximum communication speed is 24 Mbps). The frequency of the carrier wave in Wi-Fi communication is 2.4 GHz band or 5.0 GHz band. The frequency of the carrier in BT communication is the 2.4 GHz band. That is, when the 5.0 GHz band is adopted as the carrier frequency in Wi-Fi communication, the carrier frequency in Wi-Fi communication and the carrier frequency in BT communication are different. Further, the maximum distance at which Wi-Fi communication can be executed (for example, about 100 m) is larger than the maximum distance at which BT communication can be executed (for example, about several tens of m).

The control unit 30 includes a CPU 32 and a memory 34. The CPU 32 executes various processes according to the program 36 stored in the memory 34. The memory 34 is composed of a volatile memory, a non-volatile memory, and the like. The memory 34 stores the BT device name "NP" of the printer PR. The BT device name "NP" is a unique name assigned to the BTI / F22, in other words, a name used as information for identifying the printer PR in order for the printer PR to execute BT communication. be. Although the memory 34 is shown to include the area 40 in FIG. 1, the area 40 is used in the second and fourth embodiments described later.

(Configuration of mobile terminals PT1 and PT2)
The mobile terminals PT1 and PT2 are portable terminal devices such as mobile phones (for example, smartphones), PDAs, notebook PCs, tablet PCs, portable music playback devices, and portable moving image playback devices. Hereinafter, the configuration of the mobile terminal PT1 will be described, but the mobile terminal PT2 also has the same configuration as the mobile terminal PT1.

The mobile terminal PT1 includes an operation unit 52, a display unit 54, a Wi-Fi I / F60, a BTI / F62, and a control unit 70. Each part 52 to 70 is connected to a bus line (reference numeral omitted). The NFCI / F64 is an I / F used in the third and fourth embodiments described later, and may or may not be provided in the mobile terminal PT1 of the first and second embodiments. May be good.

The operation unit 52 includes a plurality of keys. The user can input various instructions to the mobile terminal PT1 by operating the operation unit 52. The display unit 54 is a display for displaying various information. The display unit 54 also functions as a so-called touch panel (that is, also functions as an operation unit). The Wi-Fi I / F60 is an I / F for executing Wi-Fi communication. The Wi-Fi I / F60 may or may not support WFD. BTI / F62 is an I / F for executing BT communication and supports BLE. The difference between the I / Fs 60 and 62 is the same as the difference between the I / Fs 20 and 22 of the printer PR.

The control unit 70 includes a CPU 72 and a memory 74. The CPU 72 executes various processes according to the OS program 76 stored in the memory 74. The memory 74 is composed of a volatile memory, a non-volatile memory, and the like. The memory 74 stores not only the OS program 76 but also the printer application 78. The printer application 78 is an application for causing the printer PR to execute a printing function. The printer application 78 is launched by the user when the user wants the printer PR to perform a printing function. The printer application 78 may be installed on the mobile terminal PT1 from a server on the Internet provided by the vendor of the printer PR, or may be installed on the mobile terminal PT1 from the media shipped together with the printer PR.

The memory 74 further stores the BT device name "N1" of the mobile terminal PT1. The BT device name "N1" is a unique name assigned to the BTI / F62, in other words, it is used as information for identifying the mobile terminal PT1 in order for the mobile terminal PT1 to execute BT communication. It is a name. The mobile terminal PT2 has a BT device name "N2" different from the BT device name "N1". The memory 74 includes a BT device name storage area 80. The BT device name storage area 80 is a BT device name of a printer (hereinafter referred to as "established printer") for which a wireless connection via Wi-Fi I / F60, that is, a wireless connection according to the Wi-Fi method has been established. It is an area for storing.

(Printer PR processing; Fig. 2)
Subsequently, the process executed by the CPU 32 of the printer PR will be described with reference to FIG. The CPU 32 starts the process of FIG. 2 when the power of the printer PR is turned on.

In S2, the CPU 32 randomly generates a character string to generate an SSID (abbreviation of Service Set Identifier). Then, the CPU 32 stores the SSID in the memory 34. The SSID is an identifier for identifying a wireless network for executing Wi-Fi communication.

In S4, the CPU 32 changes the BTI / F22 from the OFF state to the ON state. Here, the OFF state of the BTI / F22 is a state in which power is not supplied to the BTI / F22, that is, a state in which BT communication cannot be executed. Further, the ON state of the BTI / F22 is a state in which power is supplied to the BTI / F22, that is, a state in which BT communication can be executed. The power consumption of the BTI / F22 in the ON state (that is, the power consumption of the BLE) is lower than the power consumption of the Wi-Fi I / F20 in the ON state.

In S6, the CPU 32 starts a transmission process of repeatedly broadcasting and transmitting the Advance signal via the BTI / F22. The Update signal includes the BT device name "NP" of the printer PR in the memory 34. The Update signal is a signal for notifying the devices around the printer PR of the existence of the printer itself. In particular, the CPU 32 transmits an Advantage signal to the outside without establishing a Bluetooth logical link (that is, a Bluetooth wireless connection). More specifically, in the Bluetooth protocol stack, communication of the L2CAP layer and above is not executed, communication of a layer lower than the L2CAP layer (that is, a Link Manager layer or a Link Layer layer) is executed, and an Advanced signal is communicated. Will be done. The L2CAP layer is the top layer for establishing a Bluetooth logical link. That is, the communication of the uppermost layer for establishing the logical link is not executed, the communication of the lower layer than the uppermost layer is executed, and the Advanced signal is communicated.

In S10, the CPU 32 monitors the reception of the Scan Request signal (hereinafter referred to as “Scan_Req signal”) from the mobile terminal via the BTI / F22. The Scan_Req signal is a signal transmitted from the mobile terminal that has received the Advantage signal. The Scan_Req signal is a unicast signal, includes the BT device name "NP" of the printer PR as information indicating the transmission destination, and the BT device name of the mobile terminal (for example, the BT device name of the mobile terminal PT1) as information indicating the transmission source. "N1") is included. The Scan_Req signal is a signal for requesting the printer PR for network information including the SSID and password. In particular, the CPU 32 can receive the Scan_Req signal without establishing a logical link. That is, the communication of the uppermost layer for establishing the logical link is not executed, the communication of the lower layer than the uppermost layer is executed, and the Scan_Req signal is communicated. When the CPU 32 receives the Scan_Req signal, it determines YES in S10 and proceeds to S12.

In S12, the CPU 32 transmits a Scan Response signal (hereinafter referred to as “Scan_Res signal”) to the mobile terminal from which the Scan_Req signal is transmitted via the BTI / F22. The Scan_Res signal is a unicast signal that is a response signal to the Scan_Req signal, includes the BT device name of the mobile terminal (that is, the BT device name of the source in the Scan_Req signal) as information indicating the transmission destination, and also includes the transmission source. The BT device name "NP" of the printer PR is included as the information to be shown. The CPU 32 transmits the Scan_Res signal without establishing a logical link. That is, the communication of the uppermost layer for establishing the logical link is not executed, the communication of the lower layer than the uppermost layer is executed, and the Scan_Res signal is communicated.

The Scan_Res signal includes an SSID in the memory 34 and a predetermined password. As described above, in S2, the SSID is stored in the memory 34. However, when S32, which will be described later, is executed after S2 is executed, a new SSID is stored in the memory 34 instead of the old SSID in the memory 34. Therefore, in the situation where S32 is not executed even once after S2 is executed, the SSID in the Scan_Res signal is the SSID generated in S2. Further, in the situation where S32 has been executed after S2 is executed, the SSID in the Scan_Res signal is the SSID generated in the latest S32. Hereinafter, the SSID currently stored in the memory 34 is referred to as a "current SSID". The predetermined password is a fixed character string preset in the printer PR. That is, in this embodiment, when the power of the printer PR is turned on or S32 described later is executed, the SSID is changed, but the password is not changed.

In S14, the CPU 32 changes the Wi-Fi I / F 20 from the OFF state to the ON state. Here, the OFF state of the Wi-Fi I / F 20 is a state in which power is not supplied to the Wi-Fi I / F 20, that is, a state in which Wi-Fi communication cannot be executed. Further, the ON state of the Wi-Fi I / F 20 is a state in which power is supplied to the Wi-Fi I / F 20, that is, a state in which Wi-Fi communication can be executed. Since the Wi-Fi I / F20 can be set to the OFF state until S14 is executed, the power consumption of the printer PR can be reduced.

In S14, the CPU 32 voluntarily shifts the operating state of the printer PR from the device state of the WFD to the G / O state without executing the G / O (abbreviation of Group Owner) negotiation of the WFD. The printer PR in the G / O state transmits a beacon signal for notifying surrounding devices of its existence via Wi-Fi I / F20. On the other hand, the printer PR in a state other than the G / O state (for example, the above device state and client state) does not transmit the beacon signal. Therefore, the power consumption of the printer PR in the G / O state is higher than the power consumption of the printer PR in the state other than the G / O state. Since the operating state of the printer PR can be set to the device state until S14 is executed, the power consumption of the printer PR can be reduced.

In S16, the CPU 32 receives a Wi-Fi connection request signal including the current SSID from the mobile terminal via the Wi-Fi I / F 20. The Wi-Fi connection request signal is a signal for requesting the printer PR to establish a wireless connection (hereinafter referred to as "Wi-Fi connection") according to the Wi-Fi method. Specifically, the Association Request signal. It is a signal.

In S18, the CPU 32 establishes a Wi-Fi connection with the mobile terminal. Specifically, the CPU 32 executes communication of various signals (for example, transmission of an Association Response signal, communication of 4-Way Handshake, etc.) with the mobile terminal via Wi-Fi I / F 20. The CPU 32 receives network information including the SSID and password from the mobile terminal in the process of communicating the various signals described above, and authenticates the network information. The CPU 32 determines that the network information authentication is successful when the received SSID matches the current SSID and the received password matches the predetermined password, and Wi-Fi connection with the mobile terminal. To establish. As described above, in S12, since the Scan_Res signal including the current SSID and the predetermined password is transmitted to the mobile terminal, the network information including the current SSID and the predetermined password is received from the mobile terminal. Therefore, in S18, the authentication of the network information is usually successful, and the Wi-Fi connection with the mobile terminal is established.

As described above, in S18, a Wi-Fi connection is established between the printer PR and the mobile terminal. As a result, a Wi-Fi wireless network (hereinafter referred to as "Wi-Fi network") in which the printer PR operates in the G / O state and the mobile terminal operates as a so-called legacy is formed. Legacy means a device that participates in a Wi-Fi network without performing operations according to the WFD. Since the printer PR in the G / O state manages the Wi-Fi network, it can be said that the printer PR in the G / O state is the master station (in other words, the master device) of the Wi-Fi network. Further, since the legacy mobile terminal participates in the Wi-Fi network, it can be said that the legacy mobile terminal is a slave station (in other words, a slave device) of the Wi-Fi network.

Next, the CPU 32 repeats sequentially executing each of the monitoring processes of S20 and S30. In S20, the CPU 32 determines whether or not the print data representing the image to be printed has been received from the mobile terminal via the Wi-Fi I / F20 using the Wi-Fi network. When the CPU 32 receives the print data (YES in S20), the CPU 32 supplies the print data to the print execution unit 16 in S22, and causes the print execution unit 16 to execute printing according to the print data. When S22 is completed, the process returns to S20.

Further, in S30, the CPU 32 determines whether or not a disconnection signal has been received from the mobile terminal via the Wi-Fi I / F 20 by using the Wi-Fi network. The disconnection signal is a signal for requesting disconnection of the Wi-Fi connection. Therefore, when the disconnection signal is received (YES in S30), the Wi-Fi connection between the printer PR and the mobile terminal is disconnected, and the process proceeds to S32.

In S32, the CPU 32 shifts the operating state of the printer PR from the G / O state to the device state. As a result, the power consumption of the printer PR can be reduced. Further, in S32, the CPU 32 further changes the Wi-Fi I / F 20 from the ON state to the OFF state. As a result, the power consumption of the printer PR can be reduced. In the modified example, instead of being changed to the OFF state in which power is not supplied, it may be changed to the standby state in which power is supplied. Here, the power consumption in the standby state is lower than the power consumption in the ON state. In S32, the CPU 32 further generates a new SSID and stores the new SSID in the memory 34 in place of the old SSID in the memory 34. That is, the CPU 32 changes the SSID. In this way, the SSID is changed each time the printer PR stops the G / O state, so that the security of the Wi-Fi network can be enhanced. When S32 is completed, the process returns to S10.

(Processing of mobile terminal PT1; Fig. 3)
Subsequently, the process executed by the CPU 72 of the mobile terminal PT1 will be described with reference to FIG. The mobile terminal PT2 can also perform the same processing. When the operation for starting the printer application 78 is executed by the mobile terminal PT1, the CPU 72 starts the process of FIG. 3 according to the printer application 78. The operation on the mobile terminal PT1 may be executed by the operation unit 52 or the display unit 54 (that is, the touch panel). This point is the same in the following.

In S50, the CPU 72 monitors the reception of the Advanced signal via the BTI / F62. As described above, the printer PR broadcasts an Advance signal including the BT device name "NP" (see S6 in FIG. 2). Therefore, if the distance between the printer PR and the mobile terminal PT1 is shorter than the maximum distance at which BT communication can be executed, the CPU 72 receives the Advantage signal from the printer PR via the BTI / F62. In this case, the CPU 72 determines YES in S50 and proceeds to S52.

In S52, the CPU 72 determines whether or not the BT device name (that is, the received BT device name) in the received Advantage signal is stored in the BT device name storage area 80. As described above, the BT device name storage area 80 stores the BT device name of the established printer. Therefore, the determination in S52 means determining whether or not the printer PR that is the source of the Advanced signal is an established printer. When the CPU 72 determines that the received BT device name is stored in the BT device name storage area 80 (YES in S52), the CPU 72 proceeds to S60. On the other hand, when the CPU 72 determines that the received BT device name is not stored in the BT device name storage area 80 (NO in S52), the process proceeds to S54.

In S54, the CPU 72 determines whether or not the distance between the printer PR, which is the source of the Advantage signal, and the mobile terminal PT1 is less than the threshold value. Here, the threshold value is a distance (for example, 1 m) smaller than the maximum distance (for example, several tens of meters) at which BT communication can be executed. Specifically, the printer application 78 describes the radio field strength (hereinafter referred to as “transmission strength”) of the Advantage signal at the time of transmission from the printer PR. Then, the CPU 72 acquires the radio wave intensity of the Advanced signal at the time of being received by the BTI / F62 (hereinafter referred to as “reception intensity”) from the BTI / F62, and determines the attenuation rate of the reception intensity with respect to the transmission intensity. calculate. The printer application 78 further describes the relationship between the attenuation factor and the distance. The CPU 72 specifies the distance between the printer PR and the mobile terminal PT1 by using the calculated attenuation factor and the above relationship, and determines whether or not the specified distance is less than the threshold value. When the CPU 72 determines that the specified distance is less than the threshold value (YES in S54), the CPU 72 proceeds to S60, and when it determines that the specified distance is equal to or greater than the threshold value (NO in S54), the CPU 72 proceeds to S50. Return to.

In S60, the CPU 72 unicasts the Scan_Req signal to the printer PR via the BTI / F62. As a result, the Scan_Req signal can be received by the printer PR (see YES in S10 of FIG. 2). Then, in S62, the CPU 72 receives the Scan_Res signal from the printer PR via the BTI / F62 (see S12 in FIG. 2).

In S64, the CPU 72 transmits a Wi-Fi connection request signal including the SSID (that is, the current SSID of the printer PR) in the Scan_Res signal received in S62 to the printer PR via the Wi-Fi I / F60. As a result, the Wi-Fi connection request signal can be received by the printer PR (see S16 in FIG. 2).

In S66, the CPU 72 establishes a wireless connection (that is, a Wi-Fi connection) via the Wi-Fi I / F60 with the printer PR. Specifically, the CPU 72 executes communication of various signals (for example, reception of an Association Response signal, communication of a 4-way Handshake, etc.) with the printer PR via Wi-Fi I / F60. In the process of communicating the various signals described above, the CPU 72 transmits network information including the SSID and password in the Scan_Res signal received in S62 to the printer PR. If the network information is successfully authenticated by the printer PR, a Wi-Fi connection with the printer PR is established. As a result, a Wi-Fi network is formed in which the printer PR operates in the G / O state and the mobile terminal PT1 operates as a legacy (see S18 in FIG. 2).

In S70, the CPU 72 determines whether or not the print instruction operation has been executed by the user on the mobile terminal PT1. The print instruction operation includes an operation of selecting one image file from one or more image files stored in the memory 74, and an operation of selecting a button indicating execution of printing. The image file selected here is print data representing an image to be printed by the printer PR. When the print instruction operation is executed, the CPU 72 determines YES in S70 and proceeds to S72. On the other hand, when the print instruction operation is not executed by the elapse of a predetermined time after the end of S66, or when the operation of selecting the button indicating the cancel is executed by the user on the mobile terminal PT1, the CPU 72 may perform the print instruction operation. It is determined as NO in S70, skips S72 and S74, and proceeds to S80.

In S72, the CPU 72 uses the Wi-Fi network to transmit print data to the printer PR via the Wi-Fi I / F60. As a result, the printer PR can be made to print the image represented by the print data (see S22 in FIG. 2).

In S74, the CPU 72 stores the BT device name “NP” of the printer PR in the Scan_Res signal received in S62 in the BT device name storage area 80. As a result, the BT device name "NP" of the established printer is stored in the BT device name storage area 80. If S74 is executed after the determination in S52 is YES, the BT device name "NP" is already stored in the BT device name storage area 80. In this case, the CPU 72 skips S74 and proceeds to S80.

In S80, when the transmission of the print data to the printer PR is completed, the CPU 72 transmits the disconnection signal to the printer PR via the Wi-Fi I / F60 using the Wi-Fi network. As a result, the Wi-Fi connection between the printer PR and the mobile terminal PT1 is disconnected (see YES in S30 of FIG. 2). When S80 is completed, the process returns to S50.

(Specific case)
Subsequently, a specific case realized by each of the processes of FIGS. 2 and 3 will be described with reference to FIGS. 4 and 5. In FIGS. 4 and 5, the thick and thin arrows between the printer PR and the mobile terminals PT1 and PT2 indicate Wi-Fi communication and BT communication, respectively. This point is the same in the second and subsequent examples described later.

(Case A; Fig. 4)
In the initial state of case A, the power of the printer PR is turned off. Further, the mobile terminal PT1 has not established a Wi-Fi connection with the printer PR in the past. That is, the BT device name "NP" of the printer PR is not stored in the BT device name storage area 80 of the mobile terminal PT1.

At A0, the power of the printer PR is turned on by the user. In this case, the printer PR generates the SSID "X1" at T2 (S2 in FIG. 2) and changes the BTI / F22 to the ON state at T4 (S4). Then, at T6, the printer PR repeats transmitting the Advantage signal (S6).

In A1, an operation for activating the printer application 78 is executed by the user on the mobile terminal PT1. At this point, the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value (that is, 1 m). In this case, when the mobile terminal PT1 receives the Advantage signal from the printer PR (YES in S50 in FIG. 3), it determines that the BT device name "NP" in the Advantage signal has not been stored in T10 (NO in S52). Further, it is determined that the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value (NO in S54). In this case, the mobile terminal PT1 does not transmit the Scan_Req signal to the printer PR (if NO in S54, it does not proceed to S60). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT1.

When the user wants the printer PR to perform printing, the user brings the mobile terminal PT1 closer to the printer PR in A2. As a result, the distance between the printer PR and the mobile terminal PT1 becomes less than the threshold value. In this case, when the mobile terminal PT1 receives the Advantage signal from the printer PR (YES in S50 in FIG. 3), it determines in T12 that the BT device name "NP" in the Advantage signal has not been stored (NO in S52). Further, it is determined that the distance between the printer PR and the mobile terminal PT1 is less than the threshold value (YES in S54). In this case, at T20, the mobile terminal PT1 transmits the Scan_Req signal to the printer PR (S60). The Scan_Req signal includes the BT device name "NP" as the information indicating the transmission destination and the BT device name "N1" as the information indicating the transmission source.

When the printer PR receives the Scan_Req signal from the mobile terminal PT1, it transmits the Scan_Res signal to the mobile terminal PT1 at T22 (YES, S12 in S10 of FIG. 2). The Scan_Res signal includes the BT device name "N1" as the information indicating the transmission destination and the BT device name "NP" as the information indicating the transmission source. The Scan_Res signal also includes the SSID "X1" and the password "PS". Then, in T24, the printer PR changes the Wi-Fi I / F 20 to the ON state and shifts to the G / O state (S14).

When the mobile terminal PT1 receives the Scan_Res signal from the printer PR (S62 in FIG. 3), the mobile terminal PT1 transmits a Wi-Fi connection request signal including the SSID "X1" in the Scan_Res signal to the printer PR at T30 (S64). .. When a Wi-Fi connection request signal is transmitted from the mobile terminal PT1 to the printer PR, a Wi-Fi connection is established between the printer PR and the mobile terminal PT1 at T32 (S18 in FIG. 2 and S66 in FIG. 3). ). In the process of T32, the printer PR receives the network information including the SSID "X1" and the password "PS" from the mobile terminal PT1 and executes the authentication of the network information. In this case, the authentication is successful. Establish a Wi-Fi connection with the mobile terminal PT1. As a result, a Wi-Fi network is formed in which the printer PR operates as a master station and the mobile terminal PT1 operates as a slave station.

In A3, the print instruction operation is executed on the mobile terminal PT1 (YES in S70 in FIG. 3). In this case, the mobile terminal PT1 transmits the print data to the printer PR at T40 using the Wi-Fi connection (S72), and stores the BT device name “NP” in the Scan_Res signal of T22 at T42. (S74).

When the printer PR receives the print data from the mobile terminal PT1, the printer PR executes the print process according to the print data at T44 (S22 in FIG. 2). It is conceivable that the printer PR receives print data from the mobile terminal PT1 using BT communication. However, the data size of the print data may be large, and the communication speed of BT communication is slower than the communication speed of Wi-Fi communication. Therefore, if a configuration for communicating print data using BT communication is adopted, it may take a long time to communicate the print data. On the other hand, in this embodiment, since the print data is communicated using Wi-Fi communication, the print data can be communicated quickly.

After transmitting the print data to the printer PR, the mobile terminal PT1 transmits a disconnection signal for disconnecting the Wi-Fi connection to the printer PR at T50 (S80 in FIG. 3). As a result, the Wi-Fi connection between the printer PR and the mobile terminal PT1 is disconnected.

After receiving the disconnection signal from the mobile terminal PT1 (YES in S30 of FIG. 2), the printer PR shifts from the G / O state to the device state at T52, changes the Wi-Fi I / F20 to the OFF state, and changes the Wi-Fi I / F20 to the OFF state. Generate an SSID "X2" different from the SSID "X1" (S32). Since T52 is executed, the power consumption of the printer PR can be reduced.

(Case B1; Fig. 5)
Case B1 of FIG. 5 is a continuation of case A of FIG. 4, Wi-Fi I / F20 is in the OFF state (see T52 in FIG. 4), and BTI / F22 is in the ON state (see T4). Further, the BT device name "NP" of the printer PR, which is an established printer, is stored in the BT device name storage area 80 of the mobile terminal PT1 (see T42).

In A11, an operation for activating the printer application 78 is executed by the user on the mobile terminal PT1. At this point, the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value. When the mobile terminal PT1 receives the Update signal of T106 from the printer PR (YES in S50 of FIG. 3), it determines that the BT device name "NP" in the Advantage signal has been stored in T110 (YES in S52). .. Then, in T120, the mobile terminal PT1 transmits a Scan_Req signal to the printer PR even though the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value (S60).

A13 and T122 to T152 are the same as A3 and T22 to T52 in FIG. However, it differs from Case A in that the SSID "X2" is used. Further, since the mobile terminal PT1 has already stored the BT device name "NP", the process corresponding to T42 in FIG. 4 is not executed. Further, in T152, SSID "X3" different from SSID "X1" and "X2" is generated.

(Case B2)
Case B2 is also a continuation of Case A. The BT device name "NP" is not stored in the BT device name storage area (not shown) of the mobile terminal PT2.

In A15, an operation for invoking a printer application (not shown) is executed by the user on the mobile terminal PT2. At this point, the distance between the printer PR and the mobile terminal PT2 is equal to or greater than the threshold value. When the mobile terminal PT2 receives the Update signal of T206 from the printer PR (YES in S50 of FIG. 3), it determines that the BT device name "NP" in the Advantage signal has not been stored in T210 (NO in S52). ), Further, it is determined that the distance between the printer PR and the mobile terminal PT2 is equal to or greater than the threshold value (NO in S54). In this case, the mobile terminal PT2 does not transmit the Scan_Req signal to the printer PR (if NO in S54, it does not proceed to S60). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT2.

(Effect of this example)
The mobile terminal PT1 wants a state in which the distance between the printer PR and the mobile terminal PT1 is less than the threshold, that is, the user wants to establish a Wi-Fi connection between the printer PR and the mobile terminal PT1. When the Advanced signal is received from the printer PR in a highly probable state (T6 in FIG. 4), the Scan_Req signal is transmitted to the printer PR (T20), and the Scan_Res signal is received (T22). As a result, the mobile terminal PT1 can establish a Wi-Fi connection with the printer PR and transmit print data to the printer PR by using the network information in the Scan_Res signal (T30, T32, T40). Then, the mobile terminal PT1 stores the BT device name "NP" of the printer PR, which is an established printer (T42).

After storing the BT device name "NP" of the printer PR, the mobile terminal PT1 can receive an Advantage signal from an unconnected printer (not shown) for which a Wi-Fi connection with the mobile terminal PT1 has not been established. The mobile terminal PT1 wants a state in which the distance between the unconnected printer and the mobile terminal PT1 is equal to or greater than the threshold value, that is, the user desires to establish a Wi-Fi connection between the unconnected printer and the mobile terminal PT1. Even if the Advantage signal is received from the unconnected printer in a state where the possibility of being unconnected is low, the Scan_Req signal is not transmitted to the unconnected printer (NO in S52 and NO in S54 in FIG. 4). As a result, the mobile terminal PT1 does not establish a Wi-Fi connection with the unconnected printer.

On the other hand, when the mobile terminal PT1 receives the Advantage signal from the printer PR which is an established printer (T106 in FIG. 5), it determines that the BT device name "NP" in the Advantage signal has been stored (T110). .. In this case, since the printer PR is an established printer, it is highly likely that the user wants the Wi-Fi connection to be reestablished between the printer PR and the mobile terminal PT1. Therefore, the mobile terminal PT1 transmits the Scan_Req signal to the printer PR (T120) and receives the Scan_Res signal (T122) even though the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value. As a result, the mobile terminal PT1 can reestablish the Wi-Fi connection with the printer PR and transmit the print data to the printer PR by using the network information in the Scan_Res signal (T130, T132, T140). .. In this way, the mobile terminal PT1 can establish a Wi-Fi connection with the printer PR, which is an established printer, in an appropriate situation after executing the BT communication.

Further, in the present embodiment, the mobile terminal PT1 receives the Advanced signal (for example, T106 in FIG. 5), transmits the Scan_Req signal (T120), and scan_Res signal (T122) without establishing a BT type logical link. To receive. Since it is not necessary to establish a BT type logical link, the processing load of the mobile terminal PT1 can be reduced.

(Correspondence)
The mobile terminal PT1 is an example of a "second communication device". The printer PR is an example of a "first communication device" and a "third communication device". The BT device name "NP" of the printer PR is an example of "first device identification information" and "third device identification information". The Wi-Fi method and the BT method are examples of the "first communication method" and the "second communication method", respectively. The Wi-Fi I / F60 and BTI / F62 of the mobile terminal PT1 are examples of the "first interface" and the "second interface", respectively. The threshold value of S54 in FIG. 3 is an example of the “predetermined distance”. The Advantage signal of T106 in FIG. 5 and the Advantage signal of T6 in FIG. 4 are examples of a “first predetermined signal” and a “second predetermined signal”, respectively. The Scan_Req signal of T20 in FIG. 4 and the Scan_Req signal of T120 in FIG. 5 are examples of a “first predetermined request” and a “second predetermined request”, respectively. The SSID “X1” and the password “PS” in the Scan_Res signal of T22 in FIG. 4 are examples of the “first network-related information”. The Wi-Fi connection request signal of T30 and the Wi-Fi connection of T32 are examples of "first wireless connection request" and "first wireless connection", respectively. The SSID "X2" and the password "PS" in the Scan_Res signal of T122 in FIG. 5 are examples of "second network-related information". The Wi-Fi connection request signal of T130 and the Wi-Fi connection of T132 are examples of "second wireless connection request" and "second wireless connection", respectively.

(Second Example)
The points different from the first embodiment will be mainly described. In this embodiment, the mobile terminal PT1 does not include the BT device name storage area 80. The printer PR includes a BT device name storage area 40, and can store the BT device name of a mobile terminal (hereinafter referred to as an "established terminal") for which a Wi-Fi connection with the printer PR has been established.

(Printer PR processing; Fig. 6)
The CPU 32 of the printer PR executes the process of FIG. 6 instead of the process of FIG. S2 to S6 are the same as in FIG. In S100, the CPU 32 monitors the reception of the BT connection request from the mobile terminal via the BTI / F22. The BT connection request is a signal transmitted from the mobile terminal that has received the Advantage signal, and is a signal for requesting the establishment of a BT type logical link (that is, a BT connection). The BT connection request is a unicast signal, and includes the BT device name "NP" of the printer PR as information indicating the transmission destination and the BT device name of the mobile terminal as information indicating the transmission source. When the CPU 32 receives the BT connection request, it determines YES in S100 and proceeds to S102.

In S102, the CPU 32 transmits the BT setting information to the mobile terminal via the BTI / F22, executes pairing using the BT setting information with the mobile terminal, and establishes a BT connection with the mobile terminal. The BT setting information is information stored in advance in the memory 34, and includes various information (authentication method, encryption method, passkey, etc.) for establishing a BT connection.

S104 is the same as S14 in FIG. In S110, the CPU 32 monitors the reception of distance information via the BTI / F22 using the BT connection. The distance information is a signal that is repeatedly transmitted from a mobile terminal that has established a BT connection, and indicates the distance between the printer PR and the mobile terminal. The distance information indicates either "Far" which means that the distance between the printer PR and the mobile terminal is equal to or more than the threshold value and "Near" which means that the distance is less than the threshold value. Here, the threshold value is a distance (for example, 3 m) smaller than the maximum distance (for example, several tens of m) at which BT communication can be executed. The distance information is communicated using the BT connection. Therefore, the distance information is communicated by executing the communication of the uppermost layer (that is, L2CAP) for forming the logical link and the communication of the upper layer (for example, Attribute Protocol, Generic Attribute Profile, etc.). The distance information is a unicast signal, and includes the BT device name "NP" of the printer PR as the information indicating the transmission destination and the BT device name of the mobile terminal as the information indicating the transmission source. When the CPU 32 receives the distance information, it determines YES in S110 and proceeds to S112.

In S112, the CPU 32 determines whether or not the source BT device name (that is, the BT device name of the mobile terminal) in the received distance information is stored in the BT device name storage area 40. As described above, the BT device name storage area 40 stores the BT device name of the established terminal. Therefore, the determination in S112 means determining whether or not the mobile terminal that is the source of the distance information is an established terminal. When the CPU 32 determines that the source BT device name is stored in the BT device name storage area 40 (YES in S112), the CPU 32 proceeds to S116. On the other hand, when the CPU 32 determines that the source BT device name is not stored in the BT device name storage area 40 (NO in S112), the CPU 32 proceeds to S114.

In S114, the CPU 32 determines whether or not the distance information indicates "Near". When the CPU 32 determines that the distance information indicates "Near" (YES in S114), the CPU 32 proceeds to S116, and when it determines that the distance information indicates "Far" (NO in S114), the CPU 32 returns to S110. ..

In S116, the CPU 32 uses the BT connection to transmit network information including the current SSID and a predetermined password to the mobile terminal via the BTI / F22. The network information is transmitted by unicast communication, and includes the BT device name of the mobile terminal as the information indicating the transmission destination and the BT device name "NP" of the printer PR as the information indicating the transmission source. Subsequent S16 to S32 are the same as in FIG. In S120 after S22, the CPU 32 stores the BT device name of the mobile terminal in the distance information received in S110 in the BT device name storage area 40. As a result, the BT device name of the established terminal is stored in the BT device name storage area 40. If the BT device name in the distance information is already stored in the BT device name storage area 40, S120 is skipped.

(Processing of mobile terminal PT1; FIG. 7)
The CPU 72 of the mobile terminal PT1 executes the process of FIG. 7 instead of the process of FIG. S50 is the same as in FIG. In S150, the CPU 72 transmits a BT connection request to the printer PR via the BTI / F62 (see YES in S100 of FIG. 6). In S152, the CPU 72 receives the BT setting information from the printer PR via the BTI / F62, executes pairing using the BT setting information with the printer PR, and establishes a BT connection with the printer PR ( (See S102 in FIG. 6).

In S154, the CPU 72 starts a transmission process of transmitting distance information to the printer PR via the BTI / F62 using the BT connection (see YES in S110 of FIG. 6). The method for specifying the distance between the printer PR and the mobile terminal PT1 is the same as in the first embodiment.

In S160, the CPU 72 monitors that the printer PR receives network information including the current SSID and a predetermined password from the printer PR via the BTI / F62 using the BT connection. When the CPU 72 receives the network information, the CPU 72 determines YES in S160 and proceeds to S64. S64 to S80 are the same as in FIG. However, in this embodiment, S74 of FIG. 3 is not executed.

(Case C: Fig. 8)
Subsequently, a specific case realized by each of the processes of FIGS. 6 and 7 will be described with reference to FIGS. 8 and 9. The initial state of case C in FIG. 8 is the same as the initial state of case A in FIG. The contents of Case C will be described with a focus on the differences from Case A in FIG. A0, A1, T2 to T6 are the same as in FIG.

When the mobile terminal PT1 receives the Advantage signal from the printer PR, the mobile terminal PT1 transmits a BT connection request to the printer PR at T13 regardless of the distance between the printer PR and the mobile terminal PT1 (S150 in FIG. 7).

When the printer PR receives the BT connection request from the mobile terminal PT1, the printer PR establishes a BT connection with the mobile terminal PT1 at T14 (YES, S102 in S100 of FIG. 6). T15 is the same as T24 in FIG.

At T16, the mobile terminal PT1 transmits the distance information to the printer PR using the BT connection (S154 in FIG. 7). At this point, the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value. Therefore, the distance information indicates "Far".

When the printer PR receives the distance information of the T16 from the mobile terminal PT1, it determines that the BT device name "N1" in the distance information has not been stored in the T16A (NO in S112 of FIG. 6), and further, the distance. It is determined that the information indicates "Far" (NO in S114). In this case, the printer PR does not transmit the network information to the mobile terminal PT1 (if NO in S114, it does not proceed to S116). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT1.

When the user wants the printer PR to perform printing, the user brings the mobile terminal PT1 closer to the printer PR in A2. As a result, the distance between the printer PR and the mobile terminal PT1 becomes less than the threshold value. In this case, at T18, the mobile terminal PT1 uses the BT connection to transmit the distance information indicating “Near” to the printer PR (S154 in FIG. 7).

When the printer PR receives the distance information of the mobile terminal PT1 to the T18, the printer PR determines that the BT device name "N1" of the mobile terminal PT1 in the distance information has not been stored in the T18A (NO in S112 of FIG. 6). Further, it is determined that the distance information indicates "Near" (YES in S114). In this case, at T19, the printer PR transmits network information including the SSID "X1" and the password "PS" to the mobile terminal PT1 (S116). T30 to T52 excluding T45 are the same as in FIG. However, T42 in FIG. 4 is not executed. Further, in T45, the printer PR stores the BT device name "N1" in the distance information of T18 (S120).

(Case D1; FIG. 9)
Case D1 of FIG. 9 is a continuation of case C of FIG. 8, Wi-Fi I / F20 is in the OFF state (see T52 in FIG. 8), and BTI / F22 is in the ON state (see T4). Further, the BT device name "N1" of the mobile terminal PT1 which is an established terminal is stored in the BT device name storage area 40 of the printer PR (see T45).

A11, T106 to T116 are the same as A1, T6 to T16 in FIG. When the printer PR receives the distance information of the T116 from the mobile terminal PT1 (that is, the distance information indicating "Far"), the printer PR determines that the BT device name "N1" in the distance information has been stored in the T116A (that is, the distance information indicating "Far") has been stored. YES in S112 of FIG. 6). In this case, in T119, the printer PR transmits network information including the SSID "X2" and the password "PS" to the mobile terminal PT1 even though the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value. (S116). A13 and T130 to T152 are the same as in FIG.

(Case D2)
Case D2 is also a continuation of Case C. The BT device name "N2" of the mobile terminal PT2 is not stored in the BT device name storage area 40 of the printer PR. T106 to T115 are the same as in case D1 except that the mobile terminal PT2 is used instead of the mobile terminal PT1.

When the printer PR receives the distance information of T216 from the mobile terminal PT2, the printer PR determines in T216A that the BT device name "N2" in the distance information is not stored in the BT device name storage area 40 (NO in S112). ), Further, it is determined that the distance information indicates "Far" (NO in S114). In this case, the printer PR does not transmit the network information to the mobile terminal PT2 (if NO in S114, it does not proceed to S116). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT2.

(Effect of this example)
The printer PR may be in a state where the distance between the printer PR and the mobile terminal PT1 is less than the threshold, that is, the user wants a Wi-Fi connection to be established between the printer PR and the mobile terminal PT1. The network information is transmitted to the mobile terminal PT1 in a highly likely state (T19 in FIG. 8). As a result, the printer PR can establish a Wi-Fi connection with the mobile terminal PT1 and receive print data from the mobile terminal PT1 (T30, T32, T40). Then, the printer PR stores the BT device name "N1" of the mobile terminal PT1 which is an established terminal (T45).

After storing the BT device name "N1", the printer PR receives distance information from the mobile terminal PT2, which is an unconnected terminal for which a Wi-Fi connection with the printer PR has not been established (T216 in case D2 in FIG. 9). ). The printer PR wants a state in which the distance between the printer PR and the unconnected terminal (that is, the mobile terminal PT2) is equal to or greater than the threshold value, that is, the user wants to establish a Wi-Fi connection with the unconnected terminal. Even if the distance information is received from the unconnected terminal in a low possibility state, the network information is not transmitted to the unconnected terminal (NO in S112 and NO in S114 in FIG. 6). As a result, the printer PR does not establish a Wi-Fi connection with the mobile terminal PT2 which is an unconnected terminal.

On the other hand, when the printer PR receives the distance information from the mobile terminal PT1 (T116 in case D1 of FIG. 9), the printer PR determines that the BT device name "N1" in the distance information has been stored (T116A). In this case, since the mobile terminal PT1 is an established terminal, it is highly possible that the user wants the Wi-Fi connection to be established again between the printer PR and the mobile terminal PT1. Therefore, the printer PR transmits network information to the printer PR even though the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value (T119). As a result, the printer PR can establish a Wi-Fi connection with the mobile terminal PT1 and receive print data from the mobile terminal PT1 (T130, T132, T140). In this way, the printer PR can establish a Wi-Fi connection with the mobile terminal PT1 which is an established terminal in an appropriate situation after executing the BT communication.

(Correspondence)
The printer PR is an example of the "first communication device". The mobile terminal PT1 is an example of a "second communication device" and a "third communication device". The BT device name "N1" of the mobile terminal PT1 is an example of "second device identification information" and "third device identification information". The Wi-Fi I / F20 and BTI / F22 of the printer PR are examples of the "first interface" and the "second interface", respectively. The threshold value (for example, 3 m) of the boundary between “Near” and “Far” included in the distance information of S154 in FIG. 7 is an example of “predetermined distance”. The Advantage signal is an example of a "predetermined signal". The distance information of T16 (or T18) in FIG. 8 is an example of "first distance information", and the distance information of T116 in FIG. 9 is an example of "specific information" and "second distance information". .. The network information of T19 in FIG. 8 and the network information of T119 in FIG. 9 are examples of "first network-related information" and "second network-related information," respectively.

(Third Example)
The points different from the first and second embodiments will be mainly described. As shown in FIG. 1, the printer PR includes an NFCI / F24 for executing wireless communication according to the NFC method (hereinafter referred to as “NFC communication”). The NFCI / F24 includes a memory 26. Further, the mobile terminals PT1 and PT2 also have NFCI / F64, respectively. In this embodiment, the mobile terminal PT1 has a BT device name storage area 80, and the printer PR does not have a BT device name storage area 40.

The NFC system is a wireless communication system for so-called short-range wireless communication, and is, for example, a wireless communication system based on the international standard of ISO / IEC21481 or 18092. The communication speed of NFC communication (for example, the maximum communication speed is 424 Kbps) is slower than the communication speed of BT communication (for example, the maximum communication speed is 24 Mbps). The carrier frequency in NFC communication (for example, 13.56 MHz band) is the frequency of the carrier wave in Wi-Fi communication (for example, 2.4 GHz band or 5.0 GHz band) and the frequency of the carrier wave in BT communication (for example, 2.4 GHz band). Is different. Further, the maximum distance at which NFC communication can be executed (for example, about 10 cm) is smaller than the maximum distance at which BT communication can be executed (for example, about several tens of m).

(Printer PR processing; FIG. 10)
The CPU 32 of the printer PR executes the process of FIG. 10 instead of the process of FIG. S2 is the same as in FIG. In S200, the CPU 32 changes the BTI / F22 from the OFF state to the ON state, and further changes the NFCI / F24 from the OFF state to the ON state (that is, power is supplied to the NFCI / F24). In S202, the CPU 32 supplies the SSID generated in S2 and a predetermined password to the NFCI / F24. As a result, the current SSID and a predetermined password are stored in the memory 26 of the NFCI / F24. S6 is the same as in FIG. The CPU 32 repeats sequentially executing each of the monitoring processes of S210 and S212.

In S210, the CPU 32 monitors that a communication link via the NFCI / F24 (hereinafter referred to as "NFC link") is established. When the CPU 32 acquires information indicating that the NFC link has been established from the NFCI / F24, the CPU 32 determines YES in S210 and proceeds to S14. S14 to S18 are the same as in FIG. In S220, the CPU 32 uses the Wi-Fi connection to transmit the BT device name "NP" of the printer PR to the mobile terminal via the Wi-Fi I / F20.

In S212, the CPU 32 monitors the reception of the Scan_Req signal from the mobile terminal via the BTI / F22. When the CPU 32 receives the Scan_Req signal, it determines YES in S212 and proceeds to S12. S12 to S18 are the same as in FIG.

S20 to S32 are the same as in FIG. In S240, the CPU 32 supplies the SSID generated in S32 and a predetermined password to the NFCI / F24. As a result, the predetermined password in the memory 26 of the NFCI / F24 is not changed, but the current SSID in the memory 26 is changed.

(Processing of mobile terminal PT1; FIG. 11)
The CPU 72 of the mobile terminal PT1 executes the process of FIG. 11 instead of the process of FIG. The CPU 72 repeats sequentially executing each of the monitoring processes of S50 and S250. S52 to S80 after YES in S50 and S50 are the same as in FIG. However, in this embodiment, the process of S54 in FIG. 3 is not executed, and when YES in S50, the process of S74 in FIG. 3 is not executed.

In S250, the CPU 72 monitors that a communication link (that is, an NFC link) via NFCI / F64 is established. When the CPU 72 acquires information indicating that the NFC link has been established from the NFCI / F64, the CPU 72 determines YES in S250 and proceeds to S64. S64 and S66 are the same as in FIG. In S260, the CPU 72 receives the BT device name “NP” from the printer PR via the Wi-Fi I / F60 using the Wi-Fi connection (see S220 in FIG. 10). S70 to S80 after S260 are the same as in FIG. However, in S74, the CPU 72 stores the BT device name “NP” received in S260 by Wi-Fi communication in the BT device name storage area 80.

(Case E: Fig. 12)
Subsequently, a specific case realized by each of the processes of FIGS. 10 and 11 will be described with reference to FIGS. 12 and 13. In addition, in FIGS. 12 and 13, the thick line arrow, the thin line arrow, and the broken line arrow between the printer PR and the mobile terminals PT1 and PT2 indicate Wi-Fi communication, BT communication, and NFC communication, respectively. This point is the same in the fourth embodiment described later. The initial state of case E in FIG. 12 is the same as the initial state of case A in FIG. The contents of Case E will be described with a focus on the differences from Case A in FIG.

When the power is turned on by the user (A0), the printer PR generates the SSID "X1" at T302 (S2 in FIG. 10), and turns on each of BTI / F22 and NFCI / F24 at T304. Change (S200), and at T305, supply the SSID "X1" and the password "PS" to the NFCI / F24. A1 and T306 are the same as A1 and T6 in FIG.

When the mobile terminal PT1 receives the Advantage signal from the printer PR, it determines that the BT device name "NP" in the Advantage signal has not been stored in the T310 (NO in S52 of FIG. 11). In this case, the mobile terminal PT1 does not transmit the Scan_Req signal to the printer PR (if NO in S54, it does not proceed to S60). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT1.

When the user wants the printer PR to perform printing, the user brings the mobile terminal PT1 closer to the printer PR in A2. As a result, the distance between the printer PR and the mobile terminal PT1 becomes less than the maximum distance (for example, 10 cm) in which NFC communication can be executed. In this case, an NFC link is established between the printer PR and the mobile terminal PT1.

The SSID "X1" and the password "PS" are stored in the memory 26 of the NFCI / F24 of the printer PR (T305). Then, when the NFC link is established, the NFCI / F24 transmits the SSID “X1” and the password “PS” in the memory 26 to the mobile terminal PT1 in the T320 without receiving an instruction from the CPU 32 of the control unit 30. do. T324, T330, and T332 are the same as T24, T30, and T32 in FIG. 4 (YES in S210 in FIG. 10, YES in S14 to S18, YES in S250 in FIG. 11, S64, S66). Then, at T334, the printer PR transmits the BT device name "NP" to the mobile terminal PT1 using the Wi-Fi connection (S220 in FIG. 10).

A3, T340 to T352 are the same as A3, T40 to T52 in FIG. However, in T342, the mobile terminal PT1 stores the BT device name "NP" received from the printer PR by the Wi-Fi communication of T334 (S74 in FIG. 11). In T354, the printer PR supplies the SSID "X2" and the password "PS" to the NFCI / F24 (S240 in FIG. 10).

(Case F1; FIG. 13)
Case F1 of FIG. 13 is a continuation of case E of FIG. 12, Wi-Fi I / F20 is in the OFF state (see T352 in FIG. 12), and BTI / F22 and NFCI / F24 are in the ON state (see T304). ). Further, the BT device name "NP" of the printer PR, which is an established printer, is stored in the BT device name storage area 80 of the mobile terminal PT1 (see T342).

A11 and A13 are the same as in FIG. 5, and T406 to T452 are the same as T106 to T152 in FIG. 5 (YES in S212 in FIG. 10, YES in S12 to S18, S30 to S32 in FIG. YES in S52, S60 to S80). In T454, the printer PR supplies the SSID "X3" and the password "PS" to the NFCI / F24 (S240 in FIG. 10).

(Case F2)
Case F2 is also a continuation of Case E. The BT device name "NP" of the printer PR is not stored in the BT device name storage area (not shown) of the mobile terminal PT2.

A15 is the same as in FIG. When the mobile terminal PT2 receives the Advanced signal of T506 from the printer PR (YES in S50 of FIG. 11), it determines that the BT device name "NP" in the Advanced signal has not been stored in T510 (NO in S52). ). In this case, the mobile terminal PT2 does not transmit the Scan_Req signal to the printer PR (if NO in S52, it does not proceed to S60). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT2.

(Effect of this example)
In this embodiment as well, as in the first embodiment, the mobile terminal PT1 can establish a Wi-Fi connection with the printer PR, which is an established printer, in an appropriate situation after executing the BT communication. Further, since the mobile terminal PT1 does not need to establish a BT type logical link, the processing load of the mobile terminal PT1 can be reduced.

(Correspondence)
The BT method and the NFC method are examples of the "first type communication method" and the "second type communication method", respectively. BTI / F62 and NFCI / F64 of the mobile terminal PT1 are examples of "type 1 interface" and "type 2 interface", respectively. The maximum distance (for example, 10 cm) in which NFC communication can be executed is an example of a "predetermined distance". The SSID “X1” and password “PS” of T320 in FIG. 12 are examples of “first network-related information”, and the SSID “X2” and password “PS” in the Scan_Res signal of T422 in FIG. 13 are “1st network-related information”. This is an example of "second network-related information".

(Fourth Example)
The points different from the third embodiment will be mainly described. In this embodiment, the printer PR includes the BT device name storage area 40, and the mobile terminal PT1 does not include the BT device name storage area 80.

(Printer PR processing; FIG. 14)
The CPU 32 of the printer PR executes the process of FIG. 14 instead of the process of FIG. S2, S200, S202, S6, S210, and S212 are the same as in FIG. Further, S14 to S18 after YES in S210 are the same as in FIG. In S221 after S18, the CPU 32 receives the BT device name of the mobile terminal from the mobile terminal via Wi-Fi I / F20 by using the Wi-Fi connection.

In S213 after YES in S212, the CPU 32 determines whether or not the source BT device name in the Scan_Req signal is stored in the BT device name storage area 40. S12 to S18 after YES in S213 are the same as in FIG. Further, S20 to S32 and S240 are the same as those in FIG. In S230, the CPU 32 stores the BT device name received in S221 in the BT device name storage area 40.

(Processing of mobile terminal PT1; FIG. 11)
The CPU 72 of the mobile terminal PT1 executes the process shown in FIG. 11, but S260 is different from that of the third embodiment. In S260, the CPU 72 of the mobile terminal PT1 transmits the BT device name “N1” of the mobile terminal PT1 to the printer PR via the Wi-Fi I / F60 using the Wi-Fi connection (see S221 in FIG. 14). ). Further, in this embodiment, S52 and S74 are not executed.

(Case E: Fig. 12)
Subsequently, a specific case realized by each of the processes of FIGS. 11 and 14 will be described with reference to FIGS. 12 and 15. In case E of FIG. 12, T334 is not executed and T336 is executed instead. In T336, the mobile terminal PT1 uses the Wi-Fi connection to transmit the BT device name “N1” of the mobile terminal PT1 to the printer PR (S260 in FIG. 11). Also, T342 is not executed and T345 is executed instead. In T345, the printer PR stores the BT device name "N1" received from the mobile terminal PT1 by the Wi-Fi communication of T336 (S230 in FIG. 14).

(Case G1; FIG. 15)
Case G1 of FIG. 15 is a continuation of case E of FIG. The BT device name storage area 40 of the printer PR stores the BT device name "N1" of the mobile terminal PT1 which is an established terminal (see T345 in FIG. 12). The case G1 will be described focusing on the points different from the case F1 of FIG.

A11 and T406 to T420 are the same as those in FIG. In T421, the printer PR determines that the BT device name "N1" in the Scan_Req signal has already been stored (YES in S213 in FIG. 14). In this case, in T422, the printer PR transmits a Scan_Res signal including the SSID "X2" and the password "PS" to the mobile terminal PT1 even though the distance between the printer PR and the mobile terminal PT1 is equal to or greater than the threshold value. (S12). A13 and T424 to T454 are the same as those in FIG.

(Case G2)
Case G2 is also a continuation of Case E. The BT device name "N2" of the mobile terminal PT2 is not stored in the BT device name storage area 40 of the printer PR.

When the mobile terminal PT2 receives the T506 Threshold signal from the printer PR after the operation of the A15 is executed (YES in S50 of FIG. 11), the distance between the printer PR and the mobile terminal PT2 is large in T520. The Scan_Req signal is transmitted to the printer PR even though it is equal to or higher than the threshold value.

When the printer PR receives the Scan_Req signal from the mobile terminal PT2, it determines that the BT device name "N2" in the Scan_Req signal has not been stored in T521 (NO in S213 of FIG. 14). In this case, the printer PR does not transmit the SSID "X2" or the like to the mobile terminal PT2 (if NO in S213, it does not proceed to S12). As a result, a Wi-Fi connection is not established between the printer PR and the mobile terminal PT2.

(Effect of this example)
In this embodiment as well, as in the second embodiment, the printer PR can establish a Wi-Fi connection with the printer PR, which is an established printer, in an appropriate situation after executing the BT communication. Further, since the printer PR does not need to establish a BT type logical link, the processing load of the printer PR can be reduced.

(Correspondence)
BTI / F22 and NFCI / F24 of the printer PR are examples of "type 1 interface" and "type 2 interface", respectively. The maximum distance (for example, 10 cm) in which NFC communication can be executed is an example of a "predetermined distance". The Scan_Req signal of T420 in FIG. 15 is an example of "predetermined request" and "specific information". Further, the Scan_Res signal of T422 is an example of "response". The SSID "X1" and password "PS" of T320 in FIG. 12 are examples of "first network-related information", and the SSID "X2" and password "PS" in the Scan_Res signal of T422 of FIG. 15 are "1st network-related information". This is an example of "second network-related information".

Although specific examples of the present invention have been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples illustrated above. Modifications of the above embodiment are listed below.

(Modification 1) Instead of executing S60 and S62 of FIG. 3 or 11, the mobile terminal PT1 sends a BT connection request to the printer PR, establishes a BT connection with the printer PR, and then makes a BT connection. You may use it to receive the SSID and password from the printer PR. In this modification, the BT connection request is an example of the "first predetermined request" and the "second predetermined request". Generally speaking, the "first (or second) predetermined request" and the "first (or second) network-related information" are the second, as in the first and third embodiments described above. Communication may be performed without executing the communication of the uppermost layer for establishing the logical link of the communication method, or communication may be performed using the logical link as in this modification.

(Modification 2) When the mobile terminal PT1 repeatedly transmits the Advance signal, the printer PR does not have to execute S6 in FIG. In this case, when the printer PR receives the Advantage signal from the mobile terminal PT1, it may determine whether or not the BT device name "N1" of the mobile terminal PT1 in the Advantage signal has been stored. When the printer PR determines that the BT device name "N1" has been stored, the printer PR may execute the processing after S116. When the printer PR determines that the BT device name "N1" has not been stored, the printer PR specifies the distance between the printer PR and the mobile terminal PT1 based on the radio wave strength of the received Advertise signal, and the specified distance has been specified. It may be determined whether the distance is less than the threshold. When the printer PR determines that the specified distance is less than the threshold value, it executes the processing after S116, and when it determines that the specified distance is equal to or more than the threshold value, it executes the processing after S116. You don't have to. In S116, the network information may be transmitted without the BT connection being established, or the network information may be transmitted after the BT connection is established. In this modification, the Advanced signal is an example of "specific information", and the "predetermined signal transmitting unit" and the "distance information receiving unit" can be omitted.

(Modification 3) When the mobile terminal PT1 repeatedly transmits the Advance signal, the printer PR does not have to execute S6 in FIG. In this case, when the printer PR receives the Advantage signal from the mobile terminal PT1, it may determine whether or not the BT device name "N1" of the mobile terminal PT1 in the Advantage signal has been stored. When the printer PR determines that the BT device name "N1" has been stored, the printer PR executes the processing after S12, and when it determines that the BT device name "N1" has not been stored, the printer PR performs the processing after S12. You don't have to do it. In S12, the network information may be transmitted without the BT connection being established, or the network information may be transmitted after the BT connection is established. In this modification, the Advanced signal is an example of "specific information" and "predetermined request".

(Modification 4) The mobile terminal PT1 may receive the BT device name “NP” from the printer PR by NFC communication without executing S260 of the third embodiment of FIG. That is, in the "device identification information reception process", the first device identification information may be received via the first interface as in the third embodiment described above, or the first device identification information may be received as in the present modification. The first device identification information may be received via the second interface (particularly the second type interface).

(Modification 5) The printer PR may receive the BT device name “N1” from the mobile terminal PT1 by NFC communication without executing S221 in FIG. That is, the "device identification information receiving unit" may receive the second device identification information via the first interface as in the fourth embodiment described above, or the second device identification information receiving unit may receive the second device identification information as in the present modification. The second device identification information may be received via the second interface (particularly the second type interface).

(Modification 6) In each of the above embodiments, the SSID and password are transmitted from the printer PR to the mobile terminal PT1 (for example, S12 in FIG. 2). Instead, the printer PR transmits the SSID to the mobile terminal PT1, but does not have to transmit the password to the mobile terminal PT1. In this case, the password input screen is displayed on the mobile terminal PT1, and the password is input to the mobile terminal PT1 by the user. In this modification, only the SSID is an example of "first (or second) network-related information".

(Modification 7) The BTI / F22 of the printer PR may include a CPU and a memory. The memory of the BTI / F22 may store the program. The CPU of the BTI / F22 may be able to execute the operations of each of the above embodiments according to the program in the memory of the BTI / F22 without receiving an instruction from the CPU 32 in the control unit 30. Generally speaking, the "first communication device" includes two or more processors (for example, a CPU 32 in the control unit 30 of the printer PR and a CPU in the BTI / F22) and two or more memories (for example, the control unit). A memory 34 in 30 and a memory in BTI / F22) may be provided, and each processor may execute processing according to each program stored in each memory.

(Modification 8) In the third and fourth embodiments, in S202 and S240 of FIGS. 10 and 14, the CPU 32 of the printer PR supplies the current SSID and password to the NFCI / F24, and the memory 26 of the NFCI / F24. To store this information. As a result, when the NFC link with the mobile terminal is established, the NFCI / F24 can transmit the current SSID and password to the mobile terminal without receiving an instruction from the control unit 30 (that is, the CPU 32). Instead, the NFCI / F24 notifies the control unit 30 (that is, the CPU 32) that the NFC link has been established when the NFC link with the mobile terminal is established, and the control unit 30 notifies the current SSID and password. And send this information to the mobile terminal. Generally speaking, the "first network-related information transmitting unit" may transmit the first network-related information to the second communication device via the second type interface.

(Modification 9) In each embodiment, the printer PR changes the Wi-Fi I / F 20 to the OFF state, for example, in S32 of FIG. Instead of this, the Wi-Fi I / F 20 may be kept in the ON state at all times while the power of the printer PR is ON.

(Modification 10) The printer PR does not have to support WFD, and instead may support so-called SoftAP. In this case, the printer PR starts SoftAP in S14 of FIG. 2, and stops SoftAP in S32.

(Modification 11) The “device identification information” does not have to be a BT device name such as a printer PR or a mobile terminal PT1, but may be other identification information (for example, MAC address, IP address, etc.).

(Modification 12) The "first interface" does not have to be an I / F for executing Wi-Fi communication, and is for executing wireless communication according to another communication method capable of constructing a wireless LAN. I / F may be used. Further, the "second interface" does not have to be an I / F for executing BT communication, and may be, for example, another communication method capable of executing short-range wireless communication (for example, a TransferJet (registered trademark) method). It may be an I / F for executing the corresponding wireless communication.

(Modification 13) The "first communication device" does not have to be a printer PR, and may be, for example, a scanner. In this case, for example, in S20 of FIG. 2, the scanner may transmit the scan data generated by scanning the original to the mobile terminal PT1 instead of receiving the print data from the mobile terminal PT1. Further, the "first communication device" may be a device different from the printer and the scanner (for example, a copier, a facsimile, a telephone, a PC, a server, a mobile terminal, etc.). Further, the "second communication device" does not have to be a mobile terminal, and may be another device (for example, a printer, a scanner, a copier, a facsimile, a telephone, a desktop PC, a server, etc.).

(Modification 14) In each embodiment, each process of FIGS. 2 to 15 is realized by executing a program (that is, software) by the CPU 32 of the printer PR and the CPU 72 of the mobile terminal PT1. Instead, at least one of the processes of FIGS. 2 to 15 may be realized by hardware such as a logic circuit.

In addition, the technical elements described in the present specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the techniques illustrated in the present specification or drawings achieve a plurality of objectives at the same time, and achieving one of the objectives itself has technical usefulness.
(Item 1)
The first communication device
A first interface for executing wireless communication according to the first communication method,
A second interface for executing wireless communication according to a second communication method different from the first communication method, and
In a state where the distance between the first communication device and the second communication device is less than a predetermined distance, the first network-related information related to the first wireless network is transmitted via the second interface. The first network-related information transmission unit for transmitting to the second communication device, wherein the first wireless network is a network for executing wireless communication via the first interface. 1 network-related information transmitter and
A first connection request receiving unit that receives a first wireless connection request from the second communication device that has received the first network-related information via the first interface.
In response to receiving the first wireless connection request from the second communication device, the first wireless connection via the first interface is made by using the first network-related information. A first establishment unit that establishes with the second communication device and forms the first wireless network to which both the first communication device and the second communication device belong.
A device identification information receiving unit that receives a second device identification information for identifying the second communication device from the second communication device, and a device identification information receiving unit.
A storage control unit that stores the second device identification information in the memory of the first communication device, and
After the second device identification information is stored in the memory, the third device identification information for identifying the third communication device from the third communication device via the second interface is obtained. A specific information receiver that receives specific information including
An identification information determination unit that determines whether or not the third device identification information in the specific information matches the second device identification information in the memory.
When it is determined that the third device identification information matches the second device identification information, the second network-related information related to the second wireless network is transmitted via the second interface. When it is transmitted to the second communication device that matches the communication device 3 and it is determined that the third device identification information does not match the second device identification information, the second network-related information is transmitted. A second network-related information transmission unit that does not transmit to the third communication device, the second wireless network is a network for executing wireless communication via the first interface, and is the first. The second network-related information is different from the first network-related information, and the second network-related information transmitting unit and the second network-related information transmitting unit
A second connection request receiving unit that receives a second wireless connection request from the second communication device that has received the second network-related information via the first interface.
In response to receiving the second wireless connection request from the second communication device, the second wireless connection via the first interface is made by using the second network-related information. A second establishment unit that establishes with the second communication device and forms the second wireless network to which both the first communication device and the second communication device belong.
A first communication device comprising.
(Item 2)
The first communication device further includes
Instead of executing the communication of the uppermost layer for establishing the logical link of the second communication method, the communication of the lower layer lower than the uppermost layer is executed, and the communication of the lower layer lower than the uppermost layer is executed, and the communication of the lower layer is executed through the second interface. A predetermined signal transmitter that repeatedly transmits a predetermined signal is provided.
The first communication device according to item 1, wherein the specific information receiving unit receives the specific information from the third communication device that has received the predetermined signal via the second interface.
(Item 3)
The first communication device further includes
A distance information receiving unit that receives first distance information related to the distance between the first communication device and the second communication device from the second communication device via the second interface. With
The first network-related information transmission unit is
When the first distance information indicates that the distance between the first communication device and the second communication device is less than the predetermined distance, the second interface is used. The network-related information of 1 is transmitted to the second communication device, and the information is transmitted to the second communication device.
When the first distance information indicates that the distance between the first communication device and the second communication device is larger than the predetermined distance, the first network-related information is referred to as the second. Without sending to communication equipment
The specific information receiving unit is a second distance information related to the distance between the first communication device and the third communication device from the third communication device via the second interface. The first communication device according to item 1 or item 2, which receives the specific information.
(Item 4)
The distance information receiving unit uses the logical link of the second communication method established between the first communication device and the second communication device to obtain the distance information receiving unit from the second communication device. The first distance information is received via the second interface, and the first distance information is received.
The specific information receiving unit uses the logical link of the second communication method established between the first communication device and the third communication device to obtain the above-mentioned from the third communication device. The first communication device according to item 3, which receives the specific information which is the second distance information via the second interface.
(Item 5)
The item according to any one of items 1 to 4, wherein the device identification information receiving unit receives the second device identification information from the second communication device via the second interface. Communication device of 1.
(Item 6)
The second interface is
A first-class interface for executing wireless communication according to the first-class communication method of the second communication method, and
A second type of communication method among the second type of communication methods for executing wireless communication according to the second type of communication method different from the first type of communication method. With the interface of the second type, the distance at which wireless communication via the interface of the second type can be executed is smaller than the distance at which wireless communication via the interface of the first type can be executed. , With
The first network-related information transmitting unit is said to be via the second type interface in a state where the distance between the first communication device and the second communication device is less than the predetermined distance. The first network-related information is transmitted to the second communication device, and the information is transmitted to the second communication device.
The specific information receiving unit is in a state where the distance between the first communication device and the third communication device is larger than the predetermined distance, from the third communication device via the first type interface. To receive the specific information
When it is determined that the third device identification information matches the second device identification information, the second network-related information transmission unit uses the second network via the first type interface. The first communication device according to item 1 or item 2, which transmits related information to the second communication device corresponding to the third communication device.
(Item 7)
Item 6 wherein the device identification information receiving unit receives the second device identification information from the second communication device via the first interface by using the first wireless network. The first communication device described.
(Item 8)
The specific information receiving unit receives the specific information, which is a predetermined request for requesting network-related information, from the third communication device via the first type interface.
When it is determined that the third device identification information matches the second device identification information, the second network-related information transmission unit responds to the predetermined request via the first type interface. The first communication device according to item 6 or 7, wherein the response including the second network-related information is transmitted to the second communication device matching the third communication device.
(Item 9)
The specific information receiving unit executes communication of a lower layer lower than the uppermost layer without executing communication of the uppermost layer for establishing a logical link of the first type communication method. , The specific information which is the predetermined request is received from the third communication device via the first type interface.
When it is determined that the third device identification information matches the second device identification information, the second network-related information transmission unit does not execute the communication of the uppermost layer, but the lower layer. The first communication device according to item 8, wherein the communication of the above is executed, and the response is transmitted to the second communication device matching the third communication device via the first type interface.
(Item 10)
A computer program for a second communication device,
The second communication device is
A first interface for executing wireless communication according to the first communication method,
A second interface for executing wireless communication according to a second communication method different from the first communication method, and
With a processor,
The computer program causes the processor to perform the following processes, that is,
In a state where the distance between the first communication device and the second communication device is less than a predetermined distance, the first communication device is related to the first wireless network via the second interface. The first network-related information receiving process for receiving the first network-related information, wherein the first wireless network is a network for executing wireless communication via the first interface. First network-related information reception processing and
A first that transmits a first wireless connection request to the first communication device via the first interface in response to receiving the first network-related information from the first communication device. Connection request transmission processing and
In response to transmitting the first wireless connection request to the first communication device, the first wireless connection via the first interface is made by using the first network-related information. The first establishment process of establishing the first communication device and forming the first wireless network to which both the first communication device and the second communication device belong.
A device identification information reception process for receiving a first device identification information for identifying the first communication device from the first communication device, and a device identification information reception process.
A storage control process for storing the first device identification information in the memory of the second communication device, and
After the first device identification information is stored in the memory, the third device identification information for identifying the third communication device from the third communication device via the second interface is obtained. The first predetermined signal reception process for receiving the first predetermined signal including
The identification information determination process for determining whether or not the third device identification information in the first predetermined signal matches the first device identification information in the memory.
When it is determined that the third device identification information matches the first device identification information, a first predetermined method for requesting network-related information related to a wireless network via the second interface. When the request is transmitted to the first communication device that matches the third communication device and it is determined that the third device identification information does not match the first device identification information, the first A first predetermined request transmission process that does not transmit a predetermined request to the third communication device, and
A second network related to the second wireless network from the first communication device via the second interface in response to transmitting the first predetermined request to the first communication device. A second network related information receiving process for receiving related information, the second wireless network is a network for executing wireless communication via the first interface, and the second network related. The information is different from the first network-related information, the second network-related information receiving process, and the information.
A second communication device that transmits a second wireless connection request to the first communication device via the first interface in response to receiving the second network-related information from the first communication device. Connection request transmission processing and
In response to transmitting the second wireless connection request to the first communication device, the second wireless connection via the first interface is made by using the second network-related information. A second establishment process of establishing the first communication device and forming the second wireless network to which both the first communication device and the second communication device belong.
A computer program that runs.
(Item 11)
In the first predetermined signal reception process, communication of a lower layer lower than the uppermost layer is executed without executing communication of the uppermost layer for establishing a logical link of the second communication method. The computer program according to item 10, wherein the first predetermined signal is received from the third communication device via the second interface.
(Item 12)
In the first predetermined request transmission process, when it is determined that the third device identification information matches the first device identification information, the highest level for establishing the logical link of the second communication method. Without executing layer communication, communication of a lower layer lower than the uppermost layer is executed, and the first predetermined request is sent to the third communication device via the second interface. Send to the matching first communication device and
In the second network-related information reception process, the communication of the lower layer is executed without executing the communication of the uppermost layer, and the communication of the lower layer is executed from the first communication device via the second interface. The computer program according to item 10 or item 11, which receives the second network-related information.
(Item 13)
The computer program is applied to the processor, and each of the following processes, that is,
A second predetermined signal reception process for receiving a second predetermined signal including the first device identification information from the first communication device via the second interface.
A distance determination process for determining whether or not the distance between the first communication device and the second communication device is less than the predetermined distance by using the radio wave strength of the second predetermined signal.
When it is determined that the distance between the first communication device and the second communication device is less than the predetermined distance, network-related information related to the wireless network is transmitted via the second interface. When a second predetermined request for request is transmitted to the first communication device and it is determined that the distance between the first communication device and the second communication device is not less than the predetermined distance. , A second predetermined request transmission process that does not transmit the second predetermined request to the first communication device is executed.
In the first network-related information reception process, in response to transmitting the second predetermined request to the first communication device, the first communication device sends the second predetermined request to the first communication device via the second interface. The computer program according to any one of items 10 to 12, which receives the first network-related information.
(Item 14)
The computer according to any one of items 10 to 13, wherein in the device identification information receiving process, the first device identification information is received from the first communication device via the second interface. program.
(Item 15)
The second interface is
A first-class interface for executing wireless communication according to the first-class communication method of the second communication method, and
A second type of communication method among the second type of communication methods for executing wireless communication according to the second type of communication method different from the first type of communication method. With the interface of the second type, the distance at which wireless communication via the interface of the second type can be executed is smaller than the distance at which wireless communication via the interface of the first type can be executed. , With
In the first network-related information reception process, the second communication device from the first communication device in a state where the distance between the first communication device and the second communication device is less than the predetermined distance. The first network-related information is received via the seed interface.
In the first predetermined signal reception process, in a state where the distance between the first communication device and the third communication device is larger than the predetermined distance, the first type of communication device can be used from the third communication device. Upon receiving the predetermined signal including the third device identification information via the interface,
In the first predetermined request transmission process, when it is determined that the third device identification information matches the first device identification information, the predetermined request is sent via the first type interface. It is transmitted to the first communication device that matches the communication device of 3.
In the second network-related information reception process, any one of items 10 to 12, which receives the second network-related information from the first communication device via the first-class interface. The computer program described in.
(Item 16)
In the device identification information receiving process, the first device identification information is received from the first communication device via the first interface by using the first wireless network, according to item 15. The listed computer program.
(Item 17)
The second communication device,
A first interface for executing wireless communication according to the first communication method,
A second interface for executing wireless communication according to a second communication method different from the first communication method, and
In a state where the distance between the first communication device and the second communication device is less than a predetermined distance, the first communication device is related to the first wireless network via the second interface. The first network-related information receiving unit that receives the first network-related information, and the first wireless network is a network for executing wireless communication via the first interface. The first network-related information receiver and
A first that transmits a first wireless connection request to the first communication device via the first interface in response to receiving the first network-related information from the first communication device. Connection request transmitter and
In response to transmitting the first wireless connection request to the first communication device, the first wireless connection via the first interface is made by using the first network-related information. A first establishment unit that establishes with one communication device and forms the first wireless network to which both the first communication device and the second communication device belong.
A device identification information receiving unit that receives first device identification information for identifying the first communication device from the first communication device, and a device identification information receiving unit.
A storage control unit that stores the first device identification information in the memory of the second communication device, and
After the first device identification information is stored in the memory, the third device identification information for identifying the third communication device from the third communication device via the second interface is obtained. A first predetermined signal receiving unit that receives a first predetermined signal including
An identification information determination unit that determines whether or not the third device identification information in the first predetermined signal matches the first device identification information in the memory.
When it is determined that the third device identification information matches the first device identification information, a first predetermined method for requesting network-related information related to a wireless network via the second interface. When the request is transmitted to the first communication device that matches the third communication device and it is determined that the third device identification information does not match the first device identification information, the first A first predetermined request transmitting unit that does not transmit a predetermined request to the third communication device, and
A second network related to the second wireless network from the first communication device via the second interface in response to transmitting the first predetermined request to the first communication device. A second network-related information receiving unit that receives related information, the second wireless network is a network for executing wireless communication via the first interface, and is the second network-related. The information is different from the first network-related information, the second network-related information receiving unit, and the information.
A second communication device that transmits a second wireless connection request to the first communication device via the first interface in response to receiving the second network-related information from the first communication device. Connection request transmitter and
In response to transmitting the second wireless connection request to the first communication device, the second wireless connection via the first interface is made by using the second network-related information. A second establishment unit that establishes with one communication device and forms the second wireless network to which both the first communication device and the second communication device belong.
A second communication device comprising.

2: Communication system, PR: Printer, 12: Operation unit, 14: Display unit, 16: Print execution unit, 20: Wi-Fi I / F (interface), 22: BTI / F, 24: NFCI / F, 26: Memory, 30: Control unit, 32: CPU, 34: Memory, 36: Program, 40: BT device name storage area, PT1, PT2: Mobile terminal, 52: Operation unit, 54: Display unit, 60: Wi-FiI / F, 62: BTI / F, 64: NFCI / F, 70: Control unit, 72: CPU, 74: Memory, 76: OS program, 78: Printer application, 80: BT device name storage area

Claims (20)

It ’s a printer,
With the print execution department
A Wi-Fi interface for executing wireless communication according to the Wi-Fi method,
A Bluetooth interface for performing wireless communication according to the 4.0 or later version of the Bluetooth® method, and
An Advantage signal transmission unit that transmits an Advantage signal whose destination is not specified, including identification information that identifies the printer, via the Bluetooth interface.
A first request receiving unit that receives a Bluetooth connection request with the identification information as a transmission destination from a terminal device via the Bluetooth interface.
In response to receiving the Bluetooth connection request from said terminal device, said via Bluetooth interface, by performing the pairing with the terminal device, the terminal device and the first establishment unit for establishing a Bluetooth connection ,
After the Bluetooth connection with the terminal device is established, the operating state of the printer shifts from the state of not operating as the master station of the Wi-Fi network to the state of operating as the master station of the Wi-Fi network. The first transition part and
Connection information for transmitting connection information for establishing a Wi-Fi connection via the Wi-Fi interface to the terminal device via the Bluetooth interface using the established Bluetooth connection. The Wi-Fi connection, which is a transmission unit, is a connection for making the terminal device belong to the Wi-Fi network in which the printer operates as the master station, and the connection information transmission unit.
After the connection information is transmitted to the terminal device and the operating state is shifted to the state of operating as the master station, a Wi-Fi connection request is made from the terminal device via the Wi-Fi interface. The second request receiving unit for receiving, the Wi-Fi connection request is a request obtained by using the connection information, and the second request receiving unit
In response to receiving the Wi-Fi connection request from the terminal device, the Wi-Fi connection via the Wi-Fi interface is established with the terminal device so that both the printer and the terminal device can use the terminal device. With the second establishment part that forms the Wi-Fi network to which it belongs,
A data receiving unit that receives image data from the terminal device via the Wi-Fi interface using the Wi-Fi network.
A print control unit that causes the print execution unit to perform printing according to the received image data, and
A printer equipped with. The printer according to claim 1, wherein the pairing is performed using setting information including at least one of an authentication method, an encryption method, and a passkey. The printer further
The printer according to claim 2, further comprising a setting information transmission unit that transmits the setting information to the terminal device via the Bluetooth interface in response to receiving the Bluetooth connection request from the terminal device. The printer according to any one of claims 1 to 3, wherein the Bluetooth connection is a logical link. The printer according to any one of claims 1 to 4 , wherein the master station is a Group Owner in the Wi-Fi Direct system. The printer according to any one of claims 1 to 5 , wherein the connection information includes network identification information for identifying the Wi-Fi network. The printer according to claim 6 , wherein the network identification information is an SSID (abbreviation of Service Set Identifier). The printer further
The printer according to any one of claims 1 to 7 , further comprising a cutting portion for disconnecting the Wi-Fi connection after receiving the image data from the terminal device. The printer further
After the Wi-Fi connection is disconnected, the second operation state shifts from the state of operating as the master station of the Wi-Fi network to the state of not operating as the master station of the Wi-Fi network. The printer according to claim 8 , further comprising a transition unit. The printer further
The printer according to claim 8 or 9 , further comprising a generator that generates new connection information in place of the connection information transmitted to the terminal device after the Wi-Fi connection is disconnected. The Wi-Fi method is any one of claims 1 to 10 , which is a wireless communication method based on the IEEE (abbreviation of The Institute of Electrical and Electronics Engineers, Inc.) 802.11 standard and the standard equivalent thereto. The printer described in paragraph 1. The printer according to any one of claims 1 to 11 , wherein the version 4.0 or later of the Bluetooth system is a wireless communication system based on the standard of IEEE802.5.1 and a standard equivalent thereto. The printer according to any one of claims 1 to 11 , wherein the version 4.0 or later of the Bluetooth system is a wireless communication system based on a standard according to Bluetooth Low Energy. A computer program for terminal devices
The terminal device is
A Wi-Fi interface for executing wireless communication according to the Wi-Fi method,
A Bluetooth interface for performing wireless communication according to the 4.0 or later version of the Bluetooth® method, and
With a processor,
The computer program causes the processor to perform the following processes, that is,
An Advanced signal reception process for receiving an Advanced signal whose destination is not specified, including identification information for identifying the printer, via the Bluetooth interface.
A first request transmission process for transmitting a Bluetooth connection request to the printer using the identification information as a transmission destination via the Bluetooth interface, and
In response to sending the Bluetooth connection request to the printer, via the Bluetooth interface, by performing the pairing with the printer, the first establishment process for establishing the printer and Bluetooth connection,
Reception of connection information using the established Bluetooth connection to receive connection information from the printer via the Bluetooth interface to establish a Wi-Fi connection via the Wi-Fi interface with the printer. The Wi-Fi connection is a process for assigning the terminal device to a Wi-Fi network in which the printer operates as a master station.
After the connection information from the printer is received, via the Wi-Fi interface, a second request transmission process of transmitting a Wi-Fi connection request to the printer, the Wi-Fi connection request, The second request transmission process, which is a request obtained by using the connection information, and
In response to transmitting the Wi-Fi connection request to the printer, the Wi-Fi connection via the Wi-Fi interface is established with the printer, and both the printer and the terminal device belong to the printer. The second establishment process for forming the Wi-Fi network and
A data transmission process for transmitting image data to the printer via the Wi-Fi interface using the Wi-Fi network.
A computer program that runs. The computer program according to claim 14 , wherein the pairing is executed by using setting information including at least one of an authentication method, an encryption method, and a passkey. The computer program according to claim 14 or 15 , wherein the Bluetooth connection is a logical link. The computer program according to any one of claims 14 to 16 , wherein the master station is a Group Owner in the Wi-Fi Direct system. The computer program according to any one of claims 14 to 17 , wherein the connection information includes network identification information for identifying the Wi-Fi network. The computer program according to claim 18 , wherein the network identification information is an SSID (abbreviation of Service Set Identifier). It ’s a terminal device,
A Wi-Fi interface for executing wireless communication according to the Wi-Fi method,
A Bluetooth interface for performing wireless communication according to the 4.0 or later version of the Bluetooth® method, and
An Advantage signal receiving unit that receives an Advantage signal whose destination is not specified, including identification information that identifies the printer, via the Bluetooth interface.
A first request transmission unit that transmits a Bluetooth connection request to the printer using the identification information as a transmission destination via the Bluetooth interface.
In response to sending the Bluetooth connection request to the printer, said via Bluetooth interface, by performing the pairing with the printer, the printer and first establishment unit for establishing a Bluetooth connection,
Reception of connection information using the established Bluetooth connection to receive connection information from the printer via the Bluetooth interface to establish a Wi-Fi connection via the Wi-Fi interface with the printer. The Wi-Fi connection is a connection for making the terminal device belong to the Wi-Fi network in which the printer operates as a master station.
After the connection information from the printer is received, via the Wi-Fi interface, a second request transmission section for transmitting a Wi-Fi connection request to the printer, the Wi-Fi connection request, The second request transmission unit, which is a request obtained by using the connection information,
In response to transmitting the Wi-Fi connection request to the printer, the Wi-Fi connection via the Wi-Fi interface is established with the printer, and both the printer and the terminal device belong to the printer. With the second establishment part forming the Wi-Fi network,
A data transmission unit that transmits image data to the printer via the Wi-Fi interface using the Wi-Fi network.
A terminal device comprising.

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