JP2021057803A - Computer program for terminal device, and terminal device - Google Patents

Abstract

To provide a technique to improve user convenience in a state that a radio connection is established between a communication device and an access point.SOLUTION: In the flowchart of connection information transmission processing of a terminal device, the terminal device determines a target communication device type (S40). On determining the target communication device is of a type that AP connection can be established using the terminal device, the terminal device displays on a display unit operation screens SC6, SC8, SC9 which indicate that predetermined operations should be executed at the target communication device (S50). When a radio connection through a first radio interface is established between the terminal device and the target communication device, the communication device transmits connection information to the target communication device (S60). When the target communication device type is determined to be an impossible device which is not possible to establish an AP connection using the terminal device, a notification screen, which indicates that the AP connection should be established without using the terminal device, is displayed on the display unit (S42).SELECTED DRAWING: Figure 4

Description

This specification discloses a technique for establishing a wireless connection between a communication device and an access point using a terminal device.

Patent Document 1 discloses a technique for connecting a printing device to a network by using an information communication device. The information communication device distinguishes between the printing device that is preparing to connect to the network and the printing device that is already connected to the network, and when the printing device that is preparing to connect to the network is selected, the selected printing device is added to the network. Connect.

Japanese Unexamined Patent Publication No. 2016-224733

The present specification provides a technique for improving user convenience in a situation where a wireless connection is established between a communication device and an access point.

This specification discloses a computer program for a terminal device. The terminal device may include a display unit, a first wireless interface, and a computer. The computer program includes the following units, that is, a reception unit that accepts selection of a target communication device for which an AP connection, which is a wireless connection with an access point, should be established by using the terminal device, and the target. When it is determined that the determination unit for determining the type of the communication device of the above and the type of the target communication device are possible devices capable of establishing the AP connection by using the terminal device, a predetermined operation is performed. A first display control unit that causes the display unit to display an operation screen indicating that the target communication device should be executed, and the predetermined operation establishes the state of the target communication device and the AP connection. The state of the target communication device is changed due to the first display control unit and the predetermined operation being executed by the target communication device, which is an operation for shifting to the preparation state for the operation. When a wireless connection via the first wireless interface is established between the terminal device and the target communication device after the transition to the ready state, the wireless connection is established via the first wireless interface. A transmitter that transmits connection information for establishing an AP connection to the target communication device, and an impossible device in which the type of the target communication device cannot establish the AP connection using the terminal device. When it is determined that, the display control unit may function as a second display control unit that displays a notification screen indicating that the AP connection should be established without using the terminal device. ..

According to the above configuration, the terminal device displays an operation screen when it is determined that the target communication device is a possible device. As a result, the user can execute a predetermined operation according to the operation screen on the target communication device, and can establish a wireless connection between the terminal device and the target communication device. In this case, the terminal device transmits the connection information to the target communication device. As a result, the target communication device can establish an AP connection by using the connection information. On the other hand, the terminal device displays a notification screen when it is determined that the target communication device is an impossible device. By looking at the notification screen, the user can know that the target communication device should establish an AP connection without using the terminal device. As described above, according to the above configuration, in a situation where a wireless connection is established between the target communication device and the access point, it is appropriate depending on whether the target communication device is a possible device or an impossible device. The screen is displayed. Therefore, the convenience of the user can be improved.

This specification discloses other computer programs for terminal devices. The computer program may cause the computer to function as the reception unit, the determination unit, the first display control unit, and the transmission unit. When it is determined that the type of the target communication device is the first type of possible device, the first display control unit executes the first type of predetermined operation on the target communication device. The operation screen of the first type indicating what should be done is displayed on the display unit, and the type of the target communication device is the second type of possible device different from the first possible device. When it is determined, the display unit displays the operation screen of the second type indicating that the predetermined operation of the second type different from the predetermined operation of the first type should be executed on the target communication device. You may.

According to the above configuration, when the terminal device determines that the target communication device is a first-class possible device, the terminal device displays a first-class operation screen, and the target communication device is a second-class possible device. When it is determined that the operation screen of the second type is displayed. As a result, the user can execute a predetermined operation according to the type of the target communication device (that is, a predetermined operation of the first type or a predetermined operation of the second type) on the target communication device, and the terminal device and the target can perform a predetermined operation. A wireless connection can be established with the communication device. In this case, the terminal device transmits the connection information to the target communication device. As a result, the target communication device can establish an AP connection by using the connection information. As described above, according to the above configuration, in a situation where a wireless connection is established between the target communication device and the access point, whether the target communication device is a first-class possible device or a second-class possible device. An appropriate screen is displayed depending on whether or not there is one. Therefore, the convenience of the user can be improved.

Computer-readable recording media that store the above computer programs are also new and useful. Further, the terminal device itself and the method executed by the terminal device are also new and useful. Also, a communication system including a terminal device and another device (for example, a communication device) is new and useful.

The configuration of the communication system is shown. The configuration of the terminal and the multifunction device (MFP) is shown. The flowchart of the processing of the terminal of 1st and 2nd Examples is shown. The flowchart of connection information transmission processing is shown. The screen transition diagram of the terminal is shown. The continuation of the screen transition diagram is shown. The sequence diagram of the case A of the 1st Example is shown. The sequence diagram which continued with FIG. 7 is shown. The sequence diagram of the case B of the 2nd Example is shown. The flowchart of the processing of the terminal of 3rd and 4th Examples is shown. A sequence diagram of Case C of the third embodiment and a sequence diagram of Case D of the fourth embodiment are shown.

(First Example)
(Structure of communication system 2; FIGS. 1 and 2)
As shown in FIG. 1, the communication system 2 includes an access point (hereinafter, simply referred to as “AP”) 6, a terminal 10, and a plurality of multifunction devices (hereinafter, simply referred to as “MFP (Multi-function”). (Abbreviation of Peripheral) ”) 100, 200, a printer 300, and a scanner 400. In this embodiment, it is assumed that a Wi-Fi connection is established between the device selected by the user from the devices 100, 200, 300, and 400 and the AP6. In the following, the Wi-Fi connection with the AP6 may be referred to as "AP connection".

(Configuration of terminal 10)
The terminal 10 is a portable terminal device such as a mobile phone (for example, a smartphone), a PDA, or a tablet PC. As shown in FIG. 2, the terminal 10 includes an operation unit 12, a display unit 14, a Wi-Fi interface 20, 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 simply referred to as "I / F".

The operation unit 12 includes a plurality of keys. The user can input various instructions to the terminal 10 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 touch panel (that is, an operation unit) that receives instructions from the user.

The Wi-Fi I / F 20 is a wireless interface for executing Wi-Fi communication in accordance with the Wi-Fi standard. The Wi-Fi standard is based on, for example, the IEEE (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 standard for executing wireless communication.

The control unit 30 includes a CPU 32 and a memory 34. The CPU 32 executes various processes according to the programs 36 and 38 stored in the memory 34. The memory 34 is composed of a volatile memory, a non-volatile memory, and the like, and stores the OS program 36 and the print scan application 38 (hereinafter, simply referred to as “application 38”).

The OS program 36 is a program for controlling the basic operation of the terminal 10. In this embodiment, the OS program 36 assumes Android®. However, in the modified example, the OS program 36 may be another program.

The application 38 is installed on the terminal 10 from a server on the Internet provided by a vendor such as the device 100. The app 38 is a program for establishing a Wi-Fi connection between a device (for example, 100) and the AP6 and causing the device to perform printing and / or scanning via the AP6. In this embodiment, a device capable of establishing an AP connection using the application 38 of the terminal 10 is referred to as a "device that supports the setup function". For short, the device is referred to as a "support device". On the other hand, a device that cannot establish an AP connection with a device using the application 38 of the terminal 10 is called a "device that does not support the setup function". For short, the device is referred to as an "unsupported device".

The app 38 also stores the table 40. In Table 40, the model name, the function information, the type information, and the operation screen data are associated with each of the plurality of types of devices. The functional information indicates the functions that the device can perform (ie, print and / or scan functions). The type information indicates whether the device is a supported device or an unsupported device. The operation screen data is data representing an operation screen indicating an operation on the device.

(Configuration of MFP100)
The MFP 100 is a peripheral device (for example, a peripheral device of the terminal 10) capable of performing multiple functions including a printing function and a scanning function. The model name of MPP100 is "AAA" (see FIG. 1). The MFP 100 is a support device. The MFP 100 includes an operation unit 112, a display unit 114, a print execution unit 116, a scan execution unit 118, a Wi-Fi I / F 120, and a control unit 130. Each part 112 to 130 is connected to a bus line (reference numeral omitted).

The operation unit 112 includes a plurality of keys. The user can input various instructions to the MFP 100 by operating the operation unit 112. The display unit 114 is a display for displaying various information. The display unit 114 also functions as a touch panel (that is, an operation unit) that receives instructions from the user. The print execution unit 116 includes a printing mechanism such as an inkjet method or a laser method. The scan execution unit 118 includes a scanning mechanism such as a CCD or CIS.

The Wi-Fi I / F 120 is the same as the Wi-Fi I / F 20 of the terminal 10. The Wi-Fi I / F120 specifically supports the WFD method and the SoftAP method. The WFD method is a communication method described in the standard "Wi-Fi Peer-to-Peer (P2P) Technical Specification Version 1.1" created by Wi-Fi Alliance. In WFD, the Group Owner state (hereinafter referred to as "G / O state") and the client state are defined. The G / O state is a state of operating as a master station of the wireless network, and the client state is a state of operating as a slave station of the wireless network. The SoftAP method is a communication method for operating as a pseudo AP. The state in which SoftAP is activated is a state in which it operates as a master station of a wireless network.

The control unit 130 includes a CPU 132 and a memory 134. The CPU 132 executes various processes according to the program 136 stored in the memory 134. The memory 134 is composed of a volatile memory, a non-volatile memory, and the like. Further, the memory 134 stores two SSIDs (abbreviations of Service Set Identifier) in advance from the shipping stage of the MFP 100.

The character string of the first SSID is "Direct_AAA_1234". The first SSID is the SSID of the wireless network formed by the MFP 100 operating in the G / O state. The first SSID includes a character string "Direct" indicating WFD, a model name "AAA" of the MFP 100, and a unique character string (for example, MAC address, serial number, etc.) "1234" that identifies the MFP 100.

The character string of the second SSID is "SETUP_AAA_1234". The second SSID is the SSID of the wireless network formed by the MFP 100 acting as SoftAP. The second SSID includes a character string "SETUP" indicating the setup function, a model name "AAA" of the MFP 100, and a unique character string "1234" that identifies the MFP 100. In the following, the SSID corresponding to the G / O state of WFD (for example, the above-mentioned first SSID) will be referred to as "GOSID", and the SSID corresponding to SoftAP (for example, the above-mentioned second SSID) will be referred to. Is described as "SA (abbreviation of SoftAP) SSID".

When the power is turned on, the MFP 100 operates in the WFD G / O state. That is, the MFP 100 operates as a master station of the wireless network identified by the GOSSID "Direct_AAA_1234". When the predetermined operation is executed, the MFP 100 operates as SoftAP instead of the G / O state of WFD. That is, the MFP 100 operates as a master station of the wireless network identified by SASSID "SETUP_AAA_1234".

(Configuration of MFP200)
The model name of the MFP 200 is "BBB". The MFP200 is an unsupported device and does not support the SoftAP method. The MFP 200 has the same hardware configuration as the MFP 100 except that it does not have a display unit. The memory of the MFP 200 (not shown) stores the GOSSID "Direct_BBB_2345" of the wireless network formed by the MFP 200 operating in the G / O state. When the power is turned on, the MFP 200 operates in the WFD G / O state.

(Configuration of Printer 300)
The model name of the printer 300 is "CCC". The printer 300 is a support device. The printer 300 has the same hardware configuration as the MFP 100 except that it does not have a display unit and a scan execution unit. The memory of the printer 300 (not shown) includes the GOSSID "Direct_CCC_3456" of the wireless network formed by the printer 300 operating in the G / O state and the SASSID "SETUP_CCC_3456" of the wireless network formed by the printer 300 operating as SoftAP. Remember ,. When the power is turned on, the printer 300 operates in the G / O state of the WFD, and when a predetermined operation is executed, the printer 300 operates as a SoftAP instead of the G / O state of the WFD.

(Configuration of scanner 400)
The model name of the scanner 400 is "DDD". The scanner 400 is a support device. The scanner 400 has the same hardware configuration as the MFP 100 except that it does not have a display unit and a print execution unit. The memory of the scanner 400 (not shown) includes the GOSSID "Direct_DDD_4567" of the wireless network formed by the scanner 400 operating in the G / O state and the SASSID "Direct_DDD_4567" of the wireless network formed by the scanner 400 operating as SoftAP. ", Remember. When the power is turned on, the scanner 400 operates in the G / O state of the WFD, and when a predetermined operation is executed, the scanner 400 operates as a SoftAP instead of the G / O state of the WFD.

(Terminal processing; Fig. 3)
Subsequently, with reference to FIG. 3, the process executed by the CPU 32 of the terminal 10 according to the application 38 will be described. The CPU 32 starts the process of FIG. 3 when the application 38 is started by the user.

In S10, the CPU 32 causes the function selection screen SC1 to be displayed on the display unit 14. As shown in FIG. 5, the function selection screen SC1 has a message prompting the user to select a function, a print button indicating a print function (that is, a character string “print”), and a scan button indicating a scan function (that is, a character string). "Scan"), including.

In S12, the CPU 32 monitors that it accepts the selection of functions. When one of the print button and the scan button is selected by the user, the CPU 32 determines YES in S12 and proceeds to S14.

In S14, the CPU 32 causes the notification screen SC2 to be displayed on the display unit 14. As shown in FIG. 5, the notification screen SC2 includes a message prompting the user that the terminal 10 should establish an AP connection, and an OK button.

In S16, the CPU 32 monitors that the OK button in the notification screen SC2 is selected. When the OK button is selected, the CPU 32 determines YES in S16 and proceeds to S20.

In S20, the CPU 32 determines whether or not the terminal 10 is establishing an AP connection. Specifically, the CPU 32 (that is, the application 38) supplies the OS program 36 with an inquiry as to whether or not the terminal 10 has established an AP connection. When the terminal 10 is establishing the AP connection, the CPU 32 acquires the information (that is, SSID) regarding the AP connection from the OS program 36. If the terminal 10 is not establishing an AP connection, the CPU 32 does not acquire the information from the OS program 36. When acquiring the information, the CPU 32 determines YES in S20 and proceeds to S24, and when not acquiring the information, determines NO in S20 and proceeds to S22.

In S22, the CPU 32 causes the notification screen SC5 to be displayed on the display unit 14. As shown in FIG. 5, the notification screen SC5 includes a message notifying the user that the terminal 10 is not establishing an AP connection, and an OK button. When the OK button in the notification screen SC5 is selected, the CPU 32 returns to S14 and causes the notification screen SC2 to be displayed again on the display unit 14. As described above, when the terminal 10 is not establishing the AP connection (NO in S20), the processes after S23 are not executed, and the screens SC3 to SC14 of FIGS. 5 and 6 are not displayed. Therefore, it is possible to prevent the user from performing unnecessary operations.

In S23, the CPU 32 (that is, the application 38) first supplies the search instruction to the OS program 36. The search instruction is an instruction for causing the OS program 36 to search for each device 100 to 400 existing around the terminal 10. As a result, the OS program 36 broadcasts the Probe request via the Wi-Fi I / F20 and receives the Probe response from each of the devices 100 to 400. The Probe response includes the GOSSID of the source device operating in the G / O state of the WFD (eg, the GOSSID of the MFP100 "Direct_AAA_1234"). The CPU 32 (that is, the application 38) acquires the GOSSID of each device 100 to 400 from the OS program 36. As described above, the GOSSID of each device 100-400 includes a model name (eg, the model name "AAA" of the MFP 100).

In S24, the CPU 32 causes the display unit 14 to display one of the device selection screens SC3 and SC4. The CPU 32 displays the device selection screen SC3 on the display unit 14 when the print button is selected in S12, and displays the device selection screen SC4 on the display unit 14 when the scan button is selected in S12. As shown in FIG. 5, each of the device selection screens SC3 and SC4 has a message prompting the user to select the model name of the device (hereinafter referred to as “target device”) desired to be used, and a terminal. It includes a list of model names "AAA" to "DDD" of each device 100 to 400 existing around 10 and an input area for inputting characters. The input area is an area for the user to manually input the model name. Specifically, in S24, the following processing is executed.

The CPU 32 extracts the model name of each device from the GOSSID of each device 100 to 400 acquired in S23. Then, the CPU 32 uses the table 40 (see FIG. 2) to specify the function associated with each of the extracted model names.

When the print button is selected in S12, the CPU 32 displays the device selection screen SC3 on the display unit 14, in which at least the model name for which the print function is specified is higher than the model name for which only the scan function is specified. Display it. As a result, as shown in FIG. 5, on the device selection screen SC3, at least the model names "AAA" to "CCC" of the devices 100 to 300 capable of executing the printing function are located at the upper ranks, and only the scanning function is executed. The model name "DDD" of the possible scanner 400 is located at the lower level. In this way, since the model names of the devices 100 to 300 capable of executing the printing function are preferentially displayed, the user can appropriately select the target device from the devices 100 to 300.

Further, when the scan button is selected in S12, the CPU 32 displays the device selection screen SC4 in which at least the model name for which the scan function is specified is higher than the model name for which only the print function is specified. It is displayed on 14. As a result, as shown in FIG. 5, on the device selection screen SC4, at least the model names "AAA", "BBB", and "DDD" of the devices 100, 200, and 400 capable of executing the scanning function are located at the upper ranks. , The model name "CCC" of the printer 300 capable of executing only the printing function is located at the lower level. In this way, the model names of the devices 100, 200, and 400 that can execute the scanning function are displayed preferentially, so that the user can appropriately select the target device from the devices 100, 200, and 400. Can be done.

In S26, the CPU 32 monitors that the model name is selected from the list of model names in the device selection screen SC3 or SC4. When the model name is selected from the model name list, the CPU 32 determines YES in S26 and proceeds to S32.

In parallel with the monitoring of S26, the CPU 32 monitors that characters are input to the input area in the device selection screen SC3 or SC4 in S28. When a character is input to the input area, the CPU 32 determines YES in S28 and proceeds to S30.

In S30, the CPU 32 determines whether or not at least one character input in S28 satisfies both the following condition 1 and condition 2. Condition 1 is that at least one character that has been input is a part of the first character (for example, "A") in the character string (for example, "AAA") that constitutes the model name of any device (for example, MFP100). ). Condition 2 is that at least one input character is a character string (for example, "BBB", "CCC", "DDD") that constitutes a model name of each other device (for example, devices 200, 300, 400). It does not match some of the first letters (eg "B", "C", "D"). For example, when the entered character is "A", the character "A" matches the beginning of the model name "AAA" of the MFP100 (that is, the condition 1 is satisfied), and the character "A" is It does not match the beginning of the model name "BBB" of each of 200, 300, 400 (that is, condition 2 is satisfied). In this case, the CPU 32 determines YES in S30 and proceeds to S32. On the other hand, if at least one of the conditions 1 and 2 is not satisfied, the CPU 32 determines NO in S30 and returns to the monitoring of S26 and S28.

In S32, which has passed YES in S26, the CPU 32 accepts the selection of the target device having the model name selected from the list of model names. In this way, the device selection screen SC3 and the like including the list of model names of the devices existing around the terminal 10 are displayed, so that the user can select the target device without manually inputting the model name. it can. It is possible to improve the convenience of the user. Further, in S32 where YES is passed in S30, the CPU 32 accepts the selection of the target device having the model name including the characters satisfying both the above conditions 1 and 2. In this way, the user can select the target device without manually inputting all the character strings constituting the model name. It is possible to improve the convenience of the user.

In S34, the CPU 32 executes the connection information transmission process. The connection information transmission process is a process for transmitting connection information to the target device and establishing an AP connection between the target device and the AP6. When the process of S34 is completed, the process of FIG. 3 is completed.

(Connection information transmission process: Fig. 4)
Subsequently, the connection information transmission process of S34 of FIG. 3 will be described with reference to FIG. In S40, the CPU 32 determines whether or not the target device is a support device. Specifically, the application 38 uses the table 40 to specify the type information associated with the model name of the target device. When the CPU 32 indicates that the identified type information is a support device, the CPU 32 determines YES in S40 and proceeds to S50. On the other hand, when the identified type information indicates that the device is an unsupported device, the CPU 32 determines NO in S40 and proceeds to S42.

In S42, the CPU 32 causes the notification screen SC7 to be displayed on the display unit 14. As shown in FIG. 5, the notification screen SC7 indicates that the AP connection cannot be established between the target device and the AP6 using the application 38 (that is, the target device is an unsupported device). It includes a message to notify, a message to notify that the target device should be operated to establish an AP connection, and an OK button. In this embodiment, the notification screen SC7 is displayed when the target device is the MFP200. When the process of S42 is completed, the process of FIG. 4 is completed.

In S50, the CPU 32 causes the display unit 14 to display the operation screens SC6, SC8, and SC9 according to the type of the target device. As shown in FIG. 5, each operation screen SC6 or the like executes a message indicating that a predetermined operation according to the type of the target device should be executed on the target device, a schematic diagram of the target device, and the above-mentioned predetermined operation. Includes an arrow indicating the input interface to do so, and a Done button. Specifically, the operation screen SC6 and the like are displayed as follows.

The CPU 32 uses the table 40 to specify the operation screen data associated with the model name of the target device. Then, the CPU 32 causes the display unit 14 to display the operation screen represented by the specified operation screen data. In this embodiment, when the target device is the MFP 100, the operation screen data SCD6 is specified and the operation screen SC6 is displayed. The operation screen SC6 indicates that an operation on the display unit 114 that functions as a touch panel should be executed. When the target device is the printer 300, the operation screen data SCD8 is specified and the operation screen SC8 is displayed. The operation screen SC8 indicates that the operation for the hard button of the printer 300 should be executed. Further, when the target device is the scanner 400, the operation screen data SCD9 is specified and the operation screen SC9 is displayed. The operation screen SC9 indicates that the operation for the hard button of the scanner 400 should be executed.

The user can know that the operation for the target device should be executed by looking at the operation screen SC6 or the like. Therefore, the operation according to the operation screen SC6 or the like is executed by the user on the target device. In this case, the target device shifts to the state in which SoftAP is activated instead of the G / O state. For example, when the target device is the MFP 100, the MFP 100 operates as the master station of the wireless network identified by the SSID "SETUP_AAA_1234" from the state of operating as the master station of the wireless network identified by the SSID "Direct_AAA_1234". Change to state. In this way, the target device shifts to the ready state for establishing the AP connection by shifting from the state in which SoftAP is not activated to the state in which SoftAP is activated.

In S52, the CPU 32 monitors that the completion button in the operation screen SC6 or the like is selected. When the completion button is selected, the CPU 32 determines YES in S52 and proceeds to S53.

In S53, the CPU 32 (that is, the application 38) supplies the OS program 36 with a search instruction for the SSID including the character string "SETUP_AAA". As a result, the OS program 36 broadcasts the Probe request via the Wi-Fi I / F20 and receives the Probe response from each of the devices 100 to 400. In this case, the OS program 36 receives a Probe response including SASSID "SETUP_AAA_1234" from the MFP 100 operating as SoftAP. For this purpose, the OS program 36 supplies the application 38 with a search result indicating that the SSID "SETUP_AAA_1234" including the character string "SETUP_AAA" has been detected.

In S54, the CPU 32 causes the detection screen SC10 to be displayed on the display unit 14. As shown in FIG. 6, the detection screen SC10 includes a message indicating that a target device operating as SoftAP has been detected, a model name of the target device, an OK button, and a cancel button.

In S55, the CPU 32 determines whether or not the OK button in the detection screen SC10 is selected. When the OK button is selected, the CPU32 determines YES in S55 and proceeds to S56, and when the cancel button is selected, determines NO in S55 and does not execute the processing after S56. The process of 4 is completed. In this case, the CPU 32 may display a notification screen (not shown) prompting the user to execute the selection of the target device again on the display unit 14.

In S56, the CPU 32 supplies the OS program 36 with a connection switching instruction instructing that a Wi-Fi connection with the target device should be established instead of the Wi-Fi connection being established. In this case, the OS program 36 transmits a disconnection request requesting the disconnection of the Wi-Fi connection to the AP6. As a result, the AP connection between the terminal 10 and the AP 6 is disconnected. The reason why the AP connection is disconnected is as follows. That is, the terminal 10 cannot further establish a Wi-Fi connection with the target device while the AP connection is established. For this purpose, the terminal 10 disconnects the AP connection and then establishes a Wi-Fi connection with the target device. Here, the password is not used in the wireless network in which the target device operates as SoftAP. For this purpose, the OS program 36 establishes a Wi-Fi connection with the target device without requiring the user to enter a password. Hereinafter, the Wi-Fi connection with the target device operating as SoftAP will be referred to as "SoftAP connection". When the OS program 36 establishes the SoftAP connection with the target device, the OS program 36 supplies the completion information indicating the completion of the connection switching to the application 38.

When the CPU 32 (that is, the application 38) acquires the completion information from the OS program 36, the password input screen SC12 is displayed on the display unit 14 in S57. As shown in FIG. 6, the password input screen SC12 includes a message indicating that the target device establishes the AP connection, the SSID “XXX” of the AP6 in which the terminal 10 has established the AP connection, and the password input area. , Includes a Done button, and so on. Here, the SSID "XXX" of AP6 has already been acquired in S20 of FIG.

In S58, the CPU 32 monitors that the completion button in the password input screen SC12 is selected. The CPU 32 determines YES in S58 when the completion button is selected after the password of the wireless network in which the AP6 operates as the master station (“YY” in the case of FIG. 6) is input in the password input area. , Proceed to S60.

In S60, the CPU 32 transmits the connection information to the target device via the Wi-Fi I / F 20 by using the SoftAP connection. The connection information includes the SSID "XXX" of AP6 acquired in S20 of FIG. 3 (that is, the SSID "XXX" displayed on the password input screen SC12) and the password input in S58 (for example, "YYY"). Including. When the CPU 32 transmits the connection information to the target device, the connection standby screen SC13 is displayed on the display unit 14 (not shown in FIG. 4). As shown in FIG. 6, the connection standby screen SC13 includes a message indicating that the target device is trying to establish an AP connection.

When the target device establishes an AP connection, the CPU 32 receives a completion notification from the target device via the Wi-Fi I / F20 using the SoftAP connection (not shown in FIG. 4). In this case, in S62, the CPU 32 causes the display unit 14 to display the completion screen SC14. As shown in FIG. 6, the completion screen SC14 includes a message indicating that the target device has established an AP connection, and an OK button. In this case, it is assumed that the authentication using the connection information (that is, SSID and password) transmitted in S60 succeeds in AP6. When the authentication using the connection information transmitted in S60 fails in AP6, the CPU 32 receives a failure notification from the target device, indicating that the target device could not establish the AP connection. The notification screen (not shown) is displayed on the display unit 14. When the process of S62 is completed, the process of FIG. 4 is completed.

(Case A; FIGS. 7 and 8)
Subsequently, a specific case A realized by the processing of FIGS. 3 and 4 will be described with reference to FIGS. 7 and 8. In the initial state of FIG. 7, an AP connection is being established between the terminal 10 and the AP6. In the following, for ease of understanding, the operations executed by the CPUs (for example, CPU32 and CPU132) of each device will be described mainly for each device (for example, terminal 10, MFP100) without describing the CPU as the main body. Further, instead of describing the terminal 10 as the main body, the OS program 36 or the application 38 may be described as the main body.

The terminal 10 starts the application 38 at T12 in response to receiving the start operation of the application 38 from the user at T10 (trigger of the process of FIG. 3). In this case, in T14, the application 38 displays the function selection screen SC1 (see FIG. 5) (S10 in FIG. 3).

The application 38 displays the notification screen SC2 (see FIG. 5) on the T22 in response to the user accepting the selection of the print button in the function selection screen SC1 at the T20 (YES in S12, S14).

The application 38 supplies an inquiry to the OS program 36 in T30 in response to receiving the selection of the OK button in the notification screen SC2 from the user in T24 (YES in S16) (S20). In this case, since the AP connection is being established between the terminal 10 and the AP6, in T32, the OS program 36 supplies the SSID “XXX” of the AP6 to the application 38. As a result, the application 38 determines that the terminal 10 is establishing an AP connection (YES in S20).

In T34, the application 38 supplies the search instruction to the OS program 36 (S23). As a result, the OS program 36 transmits the probe request by broadcasting.

In response to receiving a probe request from the terminal 10 at the T40, the MFP 100 transmits a probe response including the GOSSID "Direct_AAA_1234" of the MFP 100 to the terminal 10 at the T41. Similarly, the MFP 200, the printer 300, and the scanner 400 each transmit a probe response including a GOSSID to the terminal 10 at T42, T43, and T44 in response to receiving a probe request from the terminal 10 at T40.

In T50, the OS program 36 supplies the application 38 with a search result indicating each GOSSID included in each received Probe response. In this case, the application 38 displays the device selection screen SC3 (see FIG. 5) including each GOSSID indicated by the search result in T52 (S24). Since the print function is selected in T12, the model name of the device capable of executing the print function is located higher than the model name of the device capable of executing only the scan function on the device selection screen SC3.

At T54, the application 38 accepts the selection of the model name "AAA" (that is, the selection of the MFP 100) from the device selection screen SC3. In this case, the application 38 displays the operation screen SC6 (see FIG. 5) corresponding to the model name “AAA” in T56 (YES in S26, YES in S32, YES in S40 in FIG. 4, S50).

The user operates the Wi-Fi button displayed on the display unit 114 of the MFP 100 in T60 of FIG. 8 according to the operation screen SC6. In this case, the MFP100 activates SoftAP at T62.

After that, in response to receiving the user's selection of the completion button in the operation screen SC6 in T64 (YES in S52), the application 38 supplies the OS program 36 with a search instruction including the character string "SETUP_AAA" in T70. (S53).

The OS program 36 broadcasts a probe request at T74 in response to acquiring a search instruction at T70. In this case, the OS program 36 receives a Probe response including SASSID "SETUP_AAA_1234" from the MFP100 (see T62) operating as SoftAP in T76. The OS program 36 also receives a probe response from another device (for example, MFP200), but this is not shown. Then, the OS program 36 supplies the application 38 with a search result indicating that the SSID "SETUP_AAA_1234" has been detected in the T77.

The application 38 displays the detection screen SC10 (see FIG. 6) on the T78 in response to the acquisition of the search result in the T77 (S54). After that, the application 38 supplies the connection switching instruction to the OS program 36 in T80 in response to receiving the selection of the OK button in the detection screen SC10 from the user in T79 (YES in S55) (S56).

The OS program 36 transmits a disconnection request to the AP6 at the T82 in response to receiving the connection switching instruction from the application 38 at the T80. As a result, the AP connection between the terminal 10 and the AP 6 is disconnected. The OS program 36 then establishes a Wi-Fi connection (ie, SoftAP connection) with the MFP 100 at T84. The OS program 36 supplies completion information to the application 38 at T86 in response to establishing a SoftAP connection with the MFP 100.

The application 38 displays the password input screen SC12 (see FIG. 6) in the T88 in response to the acquisition of the completion information from the OS program 36 in the T86 (S56). Then, in the T90, the application 38 accepts the input of the password "YYY" and the selection of the completion button from the user. In this case, the application 38 uses the SoftAP connection established in T84 to transmit connection information including the SSID "XXX" and the password "YYY" to the MFP100 at T92 (YES in S58, S60).

When the MFP 100 receives the connection information from the terminal 10 at the T92, the MFP 100 establishes an AP connection with the AP6 at the T94 by using the SSID "XXX" and the password "YYY" included in the connection information. Next, the application 38 displays the completion screen SC14 (see FIG. 6) at T96 (S62).

Although not shown, after the MFP 100 establishes an AP connection with the AP 6, the terminal 10 uses the SoftAP connection to transmit a stop instruction to the MFP 100. As a result, the MFP 100 shifts from the state in which SoftAP is activated to the state in which SoftAP is not activated. As a result, the SoftAP connection between the terminal 10 and the MFP 100 is disconnected. The user can then operate the terminal 10 to reestablish the AP connection between the terminal 10 and the AP6. In this case, the terminal 10 and the MFP 100 are in a state of establishing an AP connection with the same AP6. For this purpose, the terminal 10 (that is, the application 38) can transmit image data representing an image to be printed to the MFP 100 via the AP6, and cause the MFP 100 to print the image. Further, the terminal 10 (that is, the application 38) can transmit a scan execution request to the MFP 100 via the AP6, and receive scan data representing an image obtained by scanning the original from the MFP100 via the AP6. ..

(Effect of this example)
The display unit 114 of the MFP 100 is usually smaller than the display unit 14 of the terminal 10, and the operation unit 112 of the MFP 100 is usually more difficult to operate than the operation unit 12 of the terminal 10. Therefore, it is difficult for the user to establish the AP connection in the MFP 100 by selecting the SSID of the AP or entering the password of the AP in the MFP 100. It is also difficult to establish an AP connection in a device (for example, a scanner 400) that does not have a display unit. According to this embodiment, the user can establish an AP connection in the target device by using the terminal 10 without executing SSID selection and password input in the target device (for example, MFP100). Therefore, the user can easily establish a connection with the target device.

According to this embodiment, when the application 38 determines that the target device of the MFP 100 is a support device (YES in S40 of FIG. 4), the application 38 displays the operation screen SC6 (see FIG. 5) (T56 of FIG. 7). ). The user can establish a Wi-Fi connection between the terminal 10 and the MFP 100 by executing a predetermined operation according to the operation screen SC6 on the MFP 100 (T60 in FIG. 8) (T84 in FIG. 8). In this case, the application 38 transmits the connection information to the MFP 100 (T92). As a result, the MFP 100 can establish an AP connection using the connection information (T94). On the other hand, when the application 38 determines that the target device of the MFP 200 is an unsupported device (NO in S40), the application 38 displays the notification screen SC7 (see FIG. 5) (S42). By looking at the notification screen SC7, the user can know that the MFP 200 should establish an AP connection without using the terminal 10. As described above, according to the present embodiment, in the situation where the AP connection is established between the target device and the AP6, an appropriate screen is displayed according to whether the target device is a supported device or an unsupported device. .. Therefore, the convenience of the user can be improved.

The application 38 can display any of the operation screens SC6, SC8, SC9 (see FIG. 5) according to the type of the target device (S50 in FIG. 4). As a result, the user can execute a predetermined operation on the target device according to the type of the target device (T60 in FIG. 8), and can establish a Wi-Fi connection between the terminal 10 and the target device. (T84). As described above, according to the present embodiment, in the situation where the AP connection is established between the target device and the AP6, an appropriate screen corresponding to the type of the target device is displayed. Therefore, the convenience of the user can be improved.

(Correspondence)
The terminal 10, Wi-Fi I / F20, and target device are examples of a “terminal device”, a “first wireless interface”, and a “target communication device”, respectively. The MFP 100, the printer 300, and the MFP 200 are examples of the "first type possible device", the "second type possible device", and the "impossible device", respectively. The print function and the scan function are examples of "plurality of functions". The model name is an example of "device information". The SSID "XXX" and password "YYY" of AP6 are examples of "connection information". From one viewpoint, the Wi-Fi button displayed on the display unit 114 of the MFP 100 and the operation of the button are examples of "type 1 input interface" and "type 1 predetermined operation", respectively. The hard button provided on the printer 300 and the operation of the button are examples of the "type 2 input interface" and the "type 2 predetermined operation", respectively. From another point of view, the hard button provided on the printer 300 and the hard button provided on the scanner 400 are examples of the "first type input interface" and the "second type input interface", respectively. The state in which the target device is operating as SoftAP is an example of the “preparation state”. The Probe request signal and the Probe response signal are examples of a "search signal" and a "response signal," respectively. The device selection screens SC3 and SC4 are examples of the “input selection screen”.

The process of S32 in FIG. 3, the process of S40 in FIG. 4, and the process of S60 are examples of processes executed by the “reception unit”, the “judgment unit”, and the “transmit unit”, respectively. The processing of S50, the processing of S42, the processing of S24 of FIG. 3, and the processing of S10 are the "first display control unit", the "second display control unit", and the "third display control unit (and the third display control unit), respectively. 5 display control unit) ”, is an example of processing executed by the“ fourth display control unit ”.

(Second Example)
Subsequently, the second embodiment will be described. This embodiment is different from the first embodiment in that the terminal 10 displays the device selection screen SC3 and the like using BT (abbreviation of Bluetooth (registered trademark)). As shown in FIG. 2, the terminal 10 further comprises a BTI / F22, and the MFP100 further comprises a BTI / F122. Similarly, the MFP 200, the printer 300, and the scanner 400 also include a BTI / F. In this embodiment, each device 100 to 400 does not support the WFD method and does not store the GOSSID. Further, when the power is turned on, the devices 100 to 400 do not operate in the G / O state of the WFD and activate the BTI / F. As a result, each device 100 to 400 repeatedly transmits an Advertise signal (hereinafter, referred to as “Ad signal”) including its own model name via the BTI / F.

(Case B; Fig. 9)
A specific case B of this embodiment will be described with reference to FIG. In case B, first, the same processing as in T10 to T32 of FIG. 7 is executed.

The application 38 supplies the BT start instruction to the OS program 36 at T110 instead of supplying the search instruction to the OS program 36 (see T34 in FIG. 7) (S24 in FIG. 3). In this case, the OS program 36 starts the BTI / F22 at T112. As a result, the OS program 36 receives the Ad signal from the devices 100 to 400 existing around the terminal 10 via the BTI / F22 in T121 to T124. The Ad signal includes the model name of the source device.

The OS program 36 supplies each model name included in each received Ad signal to the application 38 in the T130. As a result, the application 38 can acquire the model names of the devices 100 to 400, and can display the device selection screen SC3 and the like as in S24 of FIG. The processing after T130 is the same as the processing of T52 to T56 of FIG. 7 and the processing of FIG.

Also in this embodiment, the application 38 can display the device selection screen SC3 and the like including a list of model names of each device 100 to 400. In this embodiment, the BTI / F22 and Ad signals are examples of the "second radio interface" and the "first signal", respectively.

(Third Example)
Subsequently, the third embodiment will be described. This embodiment is different from the first embodiment in that the terminal 10 does not display the device selection screen SC3 or the like. As shown in FIG. 2, the terminal 10 further includes an NFC (abbreviation of Near Field Communication) I / F 24. The MFP 100 further includes NFCI / F124. Similarly, the MFP 200, the printer 300, and the scanner 400 each have an NFCI / F. In this embodiment as well, as in the second embodiment, each device 100 to 400 does not support the WFD method. When the power is turned on, each device 100 to 400 stores its model name in the memory of the NFCI / F.

(Terminal processing; Fig. 10)
In this embodiment, the process of FIG. 10 is executed instead of the process of FIG. S10 to S22 in FIG. 10 are the same as S10 to S22 in FIG.

In S124, the application 38 causes the notification screen SC15 to be displayed on the display unit 14. The notification screen SC15 includes a message urging the terminal 10 to come closer to the target device. The user brings the terminal 10 closer to the target device according to the notification screen SC15.

When the terminal 10 is brought close to the target device, the application 38 receives the model name from the target device via the NFCI / F24. As a result, the application 38 accepts the selection of the target device in S32. S34 is the same as S34 in FIG. 3 (that is, FIG. 4).

(Case C; FIG. 11)
A specific case C of this embodiment will be described with reference to FIG. In case C, first, the same processing as in T10 to T32 of FIG. 7 is executed.

The application 38 displays the notification screen SC15 at T234 (S124 in FIG. 10). The user brings the terminal 10 closer to the MFP 100 on the T240 according to the notification screen SC15. In this case, in T242, an NFC connection is established between the terminal 10 and the MFP 100, and in T252, the terminal 10 (OS program 36) uses the NFC connection to obtain a model name from the MFP 100 via the NFCI / F24. Receive a signal containing "AAA". Then, the OS program 36 supplies the model name "AAA" to the application 38 at T254. As a result, the application 38 accepts the selection of the MFP 100 by acquiring the model name "AAA" (S32). Then, the application 38 displays the operation screen SC6 corresponding to the MFP 100 on the T256 (S50 in FIG. 4). The processing after T256 is the same as the processing of FIG.

According to this embodiment, the application 38 can accept the selection of the target device by bringing the terminal 10 closer to the target device. The user can easily select the target device. In this embodiment, the signals of NFCI / F24 and T252 of FIG. 11 are examples of the "third radio interface" and the "second signal", respectively.

(Fourth Example)
Subsequently, the fourth embodiment will be described. In this embodiment as well, as in the third embodiment, the terminal 10 does not display the device selection screen SC3 or the like. In this embodiment, the terminal 10 accepts the selection of the target device by photographing the target device. As shown in FIG. 2, the terminal 10 further includes a camera 26. Also in this embodiment, the devices 100 to 400 do not support the WFD method. In addition, a sticker indicating a QR code (registered trademark) obtained by encoding its own model is affixed to the housings of the devices 100 to 400. In the modified example, the device having the display unit (for example, MFP100) may display the QR code.

In this embodiment, in S124 of FIG. 10, the application 38 displays the notification screen SC16 on the display unit 14. The notification screen SC16 includes a message prompting the user to read the QR code attached to the device. The user captures the QR code of the target device by using the camera 26 of the terminal 10 according to the notification screen SC16.

When the terminal 10 photographs the QR code of the target device, the OS program 36 decodes the QR code to acquire the model name and supplies the model name to the application 38. As a result, the application 38 accepts the selection of the target device in S32 by acquiring the model name.

(Case D; FIG. 11)
A specific case D of this embodiment will be described with reference to FIG. In case D, first, the same processing as in T10 to T32 of FIG. 7 is executed.

The application 38 displays the notification screen SC16 at T260 (S124 in FIG. 10). The user executes the camera activation operation on the terminal 10 at T262 according to the notification screen SC16. As a result, in T264, the OS program 36 activates the camera 26. Then, at T266, the user uses the camera 26 to take a picture of the QR code of the MFP 100.

The OS program 36 decodes the QR code in T270 and acquires the model name "AAA". Then, the OS program 36 supplies the model name "AAA" to the application 38 in T272. As a result, the application 38 accepts the selection of the MFP 100 by acquiring the model name "AAA" (S32). Then, the application 38 displays the operation screen SC6 corresponding to the MFP 100 on the T274 (S50 in FIG. 4). The processing after T274 is the same as the processing of FIG.

According to this embodiment, the application 38 accepts the selection of the target device by photographing the QR code. The user can easily select the target device.

Although specific examples of the techniques disclosed in the present specification 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. Modification examples are listed below.

(Modification 1) In the above embodiment, when the target device is a support device, the application 38 displays an operation screen according to the type of the target device. However, the application 38 may display the same operation screen regardless of the type of the target device. The operation screen may include a message prompting to activate SoftAP of the target device. Generally speaking, the "first display control unit" may display the operation screen, and may not display the first type operation screen and the second type operation screen.

(Modification 2) When the application 38 determines NO in S40 of FIG. 4, the application 38 may end the process of FIG. 4 without executing S42. In this modification, the "second display control unit" can be omitted.

(Modification 3) Each device 100 to 400 does not have to shift to the ready state by operating as SoftAP, for example, by operating in the G / O state corresponding to the SSID different from GOSSID, it enters the ready state. You may migrate. In this modification, operating in the G / O state corresponding to the above different SSID is an example of the "preparation state".

(Modification 4) At least one of the "type 1 input interface" and the "type 2 input interface" does not have to be a display unit and a hard button that function as a touch panel, and is provided on, for example, a remote controller. It may be another input interface such as a button.

(Modification 5) When YES in S16 of FIG. 3 or FIG. 10, the application 38 may execute the processing of S24 or S124 or later without executing the processing of S20. Generally speaking, the "first display control unit" may display the operation screen on the display unit when the AP connection is not established between the terminal device and the access point.

(Modification 6) The application 38 may display a screen for manually inputting the model name of the target device instead of the process of S24 in FIG. In this case, the application 38 manually accepts the selection of the target device. In this modification, the "third display control unit" can be omitted.

(Modification 7) The application 38 does not have to execute the process of S10 in FIG. 3, and in this case, the model name corresponding to the selected function does not have to be preferentially displayed in S24. In this modification, the "fourth display control unit" can be omitted.

(Modification 8) The application 38 may adopt the following instead of the above embodiment when preferentially displaying the model name corresponding to the selected function in S24 of FIG. That is, the application 38 displays the model name corresponding to the selected function in a relatively conspicuous color such as red, and displays the model name corresponding to the non-selected function in a relatively inconspicuous color such as black. You may. In another variant, the app 38 displays the model name corresponding to the selected function in a selectable display mode and the model name corresponding to the non-selected function in a non-selectable display mode (eg, grayed out). It may be displayed. Further, in another modification, the application 38 may display the model name corresponding to the selected function and may not display the model name corresponding to the non-selected function. Each of the above modifications is an example of the process executed by the "fourth display control unit".

(Modification 9) The device selection screen SC3 or SC4 may not include an input area for accepting character input. In this modification, the "fifth display control unit" can be omitted.

(Modification 10) The application 38 may accept the selection of the target device by analyzing the image of the target device itself taken by the camera 26 and estimating the model name of the target device. Further, in another modification, when the model name (that is, the character string) of the target device described in the main body of the target device or the instruction manual or the like is photographed by the camera, the application 38 captures the captured character string. The selection of the target device may be accepted by character analysis. Each of the above modifications is an example of processing executed by the "reception unit" that accepts the selection of the target communication device due to the shooting by the camera.

(Modification 11) In the above embodiment, the application 38 has a table 40 in which a model name, function information, type information, and operation screen data are associated with each of a plurality of types of devices. However, the table 40 does not need to be possessed by the application 38, for example, it is stored in the server or the cloud, and the application 38 may refer to the table 40 from the server or the cloud as needed.

(Modification 12) In the above embodiment, each process of FIGS. 3 to 4 and 7 to 11 is executed by software (for example, application 38), and at least one of these processes is a logic circuit. It may be realized by hardware such as.

The technical elements described herein or in the drawings exhibit their 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 can achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

2: Communication system, 6: AP, 10: Terminal, 12,112: Operation unit, 14,114: Display unit, 20,120: Wi-FiI / F, 22,122: BTI / F, 24,124: NFCI / F, 26: Camera, 30, 130: Control unit, 32, 132: CPU, 34, 134: Memory, 36: OS program, 38: Print scan application (PS application), 100, 200: Multifunction device (MFP) ), 116: Print execution unit, 118: Scan execution unit, 136: Program, 300: Printer, 400: Scanner

Claims (15)

A computer program for terminal equipment
The terminal device is
Display and
The first wireless interface and
Equipped with a computer
The computer program puts the computer into the following parts, that is,
A reception unit that accepts selection of a target communication device for which an AP connection, which is a wireless connection to an access point, should be established using the terminal device.
A judgment unit that determines the type of the target communication device, and
Indicates that a predetermined operation should be performed on the target communication device when it is determined that the type of the target communication device is a possible device capable of establishing the AP connection using the terminal device. It is a first display control unit that displays an operation screen on the display unit, and the predetermined operation is an operation for shifting the state of the target communication device to a preparation state for establishing the AP connection. The first display control unit and
After the state of the target communication device shifts to the preparation state due to the predetermined operation being executed by the target communication device, the first operation is performed between the terminal device and the target communication device. When a wireless connection is established via the wireless interface of 1, a transmission unit that transmits connection information for establishing the AP connection to the target communication device via the first wireless interface, and a transmission unit.
When it is determined that the type of the target communication device is an impossible device for which the AP connection cannot be established by using the terminal device, the AP connection is established without using the terminal device. A second display control unit that displays a notification screen indicating what to do on the display unit, and
A computer program that acts as. The first display control unit is
When the type of the target communication device is determined to be the first type of possible device, the first type indicating that the predetermined operation of the first type should be performed on the target communication device. The operation screen is displayed on the display unit, and the operation screen is displayed on the display unit.
When it is determined that the type of the target communication device is the second type of possible device different from the first type possible device, the second type different from the predetermined operation of the first type. The computer program according to claim 1, wherein the display unit displays the operation screen of the second type indicating that the predetermined operation should be executed by the target communication device. A computer program for terminal equipment
The terminal device is
Display and
The first wireless interface and
Equipped with a computer
The computer program puts the computer into the following parts, that is,
A reception unit that accepts selection of a target communication device for which an AP connection, which is a wireless connection to an access point, should be established using the terminal device.
A judgment unit that determines the type of the target communication device, and
Indicates that a predetermined operation should be performed on the target communication device when it is determined that the type of the target communication device is a possible device capable of establishing the AP connection using the terminal device. It is a first display control unit that displays an operation screen on the display unit, and the predetermined operation is an operation for shifting the state of the target communication device to a preparation state for establishing the AP connection. The first display control unit and
After the state of the target communication device shifts to the preparation state due to the predetermined operation being executed by the target communication device, the first operation is performed between the terminal device and the target communication device. As a transmission unit that transmits connection information for establishing the AP connection to the target communication device via the first wireless interface when a wireless connection is established via the wireless interface of 1. Make it work
The first display control unit is
When the type of the target communication device is determined to be the first type of possible device, the first type indicating that the predetermined operation of the first type should be performed on the target communication device. The operation screen is displayed on the display unit, and the operation screen is displayed on the display unit.
When it is determined that the type of the target communication device is the second type of possible device different from the first type possible device, the second type different from the predetermined operation of the first type. A computer program for displaying the operation screen of the second type indicating that the predetermined operation should be executed on the target communication device on the display unit. The first-class possible device includes a first-class input interface.
The first-class operation screen indicates that the first-class predetermined operation, which is an operation for the first-class input interface, should be executed on the target communication device.
The second-class possible device includes a second-class input interface different from the first-class input interface.
The computer according to claim 2 or 3, wherein the operation screen of the second type indicates that a predetermined operation of the second type, which is an operation for the input interface of the second type, should be executed on the target communication device. program. The first-class input interface is a display unit that functions as a touch panel.
The computer program according to claim 4, wherein the second type input interface is a button different from the display unit. The first display control unit causes the display unit to display the operation screen when the AP connection is established between the terminal device and the access point.
The computer program according to any one of claims 1 to 5, wherein the operation screen is not displayed when the AP connection is not established between the terminal device and the access point. The computer program further adds to the computer.
A device selection screen including one or more device information corresponding to one or more communication devices existing around the terminal device is made to function as a third display control unit to be displayed on the display unit.
The reception unit accepts the selection of the target communication device when the target device information corresponding to the target communication device is selected from the one or more device information on the device selection screen. The computer program according to any one of claims 1 to 6. The computer program further adds to the computer.
It is made to function as a fourth display control unit that displays a function selection screen for selecting a target function to be executed by the target communication device from a plurality of functions.
The third display control unit uses the device information corresponding to the communication device capable of executing the target function among the one or more communication devices, and the communication device capable of executing the target function. The computer program according to claim 7, wherein the device information is displayed on the device selection screen with priority over the device information corresponding to the above. The terminal device transmits a search signal via the first wireless interface, and receives a response signal from each of the one or more communication devices via the first wireless interface.
The response signal includes the device information corresponding to the source communication device.
The third display control unit causes the display unit to display the device selection screen including the one or more device information included in the one or more response signals received from the one or more communication devices. , The computer program according to claim 7 or 8. The terminal device further
It has a second wireless interface that is different from the first wireless interface.
The terminal device receives a first signal from each of the one or more communication devices via the second wireless interface.
The first signal includes the device information corresponding to the source communication device.
The third display control unit displays the device selection screen including the one or more device information included in the one or more first signals received from the one or more communication devices on the display unit. The computer program according to any one of claims 7 to 9, which is displayed. The computer program further adds to the computer.
The input selection screen including the input area for inputting characters is made to function as a fifth display control unit to be displayed on the display unit.
The reception department
At least one character input to the input area is a part of the first character in the character string constituting the target device information corresponding to the target communication device, and
When the at least one character is not a part of the first character in the character string constituting the device information corresponding to the communication device different from the target communication device.
The computer program according to any one of claims 1 to 10, which accepts selection of the target communication device even if all of the character strings constituting the target device information are not input. The terminal device further
It has a third wireless interface that is different from the first wireless interface.
The terminal device receives a second signal from the target communication device via the third wireless interface, which includes information on the target device corresponding to the target communication device.
The computer program according to any one of claims 1 to 6, wherein the reception unit receives selection of the target communication device when the second signal is received from the target communication device. The terminal device further
Equipped with a camera
The computer program according to any one of claims 1 to 6, wherein the reception unit accepts selection of the target communication device when the target communication device is photographed by the camera. It ’s a terminal device,
Display and
The first wireless interface and
A reception unit that accepts selection of a target communication device for which an AP connection, which is a wireless connection to an access point, should be established using the terminal device.
A judgment unit that determines the type of the target communication device, and
Indicates that a predetermined operation should be performed on the target communication device when it is determined that the type of the target communication device is a possible device capable of establishing the AP connection using the terminal device. It is a first display control unit that displays an operation screen on the display unit, and the predetermined operation is an operation for shifting the state of the target communication device to a preparation state for establishing the AP connection. The first display control unit and
After the state of the target communication device shifts to the preparation state due to the predetermined operation being executed by the target communication device, the first operation is performed between the terminal device and the target communication device. When a wireless connection is established via the wireless interface of 1, a transmission unit that transmits connection information for establishing the AP connection to the target communication device via the first wireless interface, and a transmission unit.
When it is determined that the type of the target communication device is an impossible device for which the AP connection cannot be established by using the terminal device, the AP connection is established without using the terminal device. A second display control unit that displays a notification screen indicating what to do on the display unit, and
A terminal device. It ’s a terminal device,
Display and
The first wireless interface and
A reception unit that accepts selection of a target communication device for which an AP connection, which is a wireless connection to an access point, should be established using the terminal device.
A judgment unit that determines the type of the target communication device, and
Indicates that a predetermined operation should be performed on the target communication device when it is determined that the type of the target communication device is a possible device capable of establishing the AP connection using the terminal device. It is a first display control unit that displays an operation screen on the display unit, and the predetermined operation is an operation for shifting the state of the target communication device to a preparation state for establishing the AP connection. The first display control unit and
After the state of the target communication device shifts to the preparation state due to the predetermined operation being executed by the target communication device, the first operation is performed between the terminal device and the target communication device. When a wireless connection via the wireless interface 1 is established, a transmission unit that transmits connection information for establishing the AP connection to the target communication device via the first wireless interface. Prepare,
The first display control unit is
When the type of the target communication device is determined to be the first type of possible device, the first type indicating that the predetermined operation of the first type should be performed on the target communication device. The operation screen is displayed on the display unit, and the operation screen is displayed on the display unit.
When it is determined that the type of the target communication device is the second type of possible device different from the first type possible device, the second type different from the predetermined operation of the first type. A terminal device for displaying the operation screen of the second type indicating that the predetermined operation should be executed on the target communication device on the display unit.

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