JP6957677B2 - Information processing equipment, applications, control methods and programs for information processing equipment - Google Patents

Description

The present invention relates to an information processing device capable of executing wireless communication.

Mobile terminals such as smartphones and tablet PCs are equipped with wireless communication functions. As an application of this wireless communication function, for example, there is an application in which a photograph or an electronic document stored in a mobile terminal is transmitted to a printer by wireless communication and printed by the printer.

In order for a mobile terminal to execute wireless communication with an external device such as a printer, the mobile terminal needs to be connected to an access point to establish wireless communication. As a method for establishing this wireless communication, a handover using NFC (Near Field Communication) is known (Patent Document 1). Handover is a method of acquiring connection information necessary for executing wireless communication by using proximity wireless communication such as NFC and establishing wireless communication based on the acquired connection information. Through this handover, the user can establish wireless communication between the mobile terminal and the external device simply by bringing the mobile terminal close to (touching) an external device such as a printer.

Japanese Unexamined Patent Publication No. 2013-157736

Therefore, an object of the present invention is to automatically change the settings related to wireless communication.

In order to solve the above-mentioned problems, the information processing device provided by the present invention is an information processing device capable of changing the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS, and is provided by the application program. On the screen to be transmitted, a means for accepting the designation of data to be transmitted, a means for acquiring connection information including the SSID of the access point and the address information of the external device after accepting the designation, and the Wi- After acquiring the connection information in the state where the Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting and the acquired connection information without going through the screen provided by the OS Based on the means for executing the process of establishing the Wi-Fi wireless communication connection and the establishment of the Wi-Fi wireless communication connection, the specified data is sent to the external device corresponding to the address information. -It is characterized by having a means for transmitting via Fi wireless communication.

Further, the information processing device provided by the present invention is an information processing device capable of executing a first wireless communication and a second wireless communication different from the first wireless communication, and is the first wireless communication. An acquisition means for acquiring connection information for executing communication from an external device using the second wireless communication, and the information processing device and the external device based on the connection information acquired by the acquisition means. The setting related to the first wireless communication is set on the condition that the wireless communication means for executing the data communication between the two using the first wireless communication and the acquisition means have acquired the connection information. The invalid setting indicating that the wireless communication of 1 is not executed is changed to the valid setting indicating that the first wireless communication is executed, and after the completion of the data communication, the next data communication is performed on the information processing device and the external device. It is characterized by including a changing means for changing the setting related to the first wireless communication from the valid setting to the invalid setting on condition that the setting is not executed for a predetermined time.

According to the present invention, the settings related to wireless communication can be automatically changed.

It is a figure which shows the structure of the communication system. It is a figure which shows the hardware composition of the mobile terminal 100. It is a figure which shows the software structure of the mobile terminal 100. It is a figure which shows the setting screen of the Wi-Fi setting. It is a figure which shows the screen provided by the print application 300. It is a flowchart which shows the process for changing a Wi-Fi setting automatically. It is a flowchart which shows the process for automatically returning a Wi-Fi setting. It is a flowchart which shows the process for automatically returning a Wi-Fi setting. It is a flowchart which shows the process which is executed when the end operation of an application is accepted.

Hereinafter, the best mode for carrying out the present invention will be described with reference to the drawings. It should be noted that the following embodiments do not limit the invention according to the claims, and not all combinations of features described in the embodiments are essential for the means for solving the invention.

(Embodiment 1)
First, the configuration of the communication system according to the present embodiment will be described with reference to FIG. The communication system according to the present embodiment includes a mobile terminal 100, a printing device 110, and an access point 120.

The printing device 110 executes wireless communication such as Wi-Fi with the access point 120. The communication between the access point 120 and the printing device 110 may be wired communication using a LAN cable or the like.

The mobile terminal 100 can execute wireless communication such as Wi-Fi. When the user inputs the SSID or security key of the access point 120 into the mobile terminal 100, the mobile terminal 100 can connect to the access point 120, and the mobile terminal 100 can communicate with the printing device 110 via the access point 120. can. The mobile terminal 100 can send a print job to an external device such as the printing device 110 via the access point 120. The printing device 110 that has received the print job executes printing.

Further, the mobile terminal 100 and the printing device 110 can execute near-field wireless communication such as NFC. In the case of the present embodiment, the printing device 110 includes an NFC tag, and the NFC tag stores information for connecting to the access point 120 (SSID and security key of the access point 120). The mobile terminal 100 can acquire the information of the NFC tag of the printing device 110 by using the NFC, and can connect to the access point 120 based on the acquired information. In this way, switching the connection to wireless communication such as Wi-Fi using the information acquired by near field communication such as NFC is called handover. For the user, the handover eliminates the trouble of inputting the information (SSID and security key of the access point 120) for connecting to the access point 120 into the mobile terminal 100.

Next, the hardware configuration of the mobile terminal 100 will be described with reference to FIG. Although the mobile terminal 100 of the present embodiment is assumed to be a device such as a smartphone or a tablet PC, it may be another device as long as it is an information processing device capable of executing wireless communication.

The CPU 201 reads the control program stored in the ROM 202 and executes various processes for controlling the operation of the mobile terminal 100. The ROM 202 stores the control program. The RAM 203 is used as a temporary storage area such as a main memory and a work area of the CPU 201. The HDD 204 stores various data such as photographs and electronic documents. Further, the OS (Operating System) 310 and the printing application 300, which will be described later, are also stored in the HDD 204. The RTC (Real Time Clock) 205 clocks the time. A flash memory may be provided instead of the HDD 204.

In the case of the mobile terminal 100, one CPU 201 executes each process shown in the flowchart described later, but other modes may be used. For example, a plurality of CPUs may cooperate to execute each process shown in a flowchart described later.

The operation panel 206 has a touch panel function capable of detecting a user's touch operation, and displays various screens provided by the OS 310 and the printing application 300. By inputting a touch operation on the operation panel 206, the user can input a desired operation instruction to the mobile terminal 100. The mobile terminal 100 includes a hardware key (not shown), and the user can input an operation instruction to the mobile terminal 100 using the hardware key.

The speaker 207 and the microphone 208 are used when the user calls another mobile terminal or landline phone. The camera 209 takes an image according to the image taking instruction of the user. The photograph taken by the camera 209 is stored in a predetermined area of the HDD 204.

The proximity radio communication unit 210 executes proximity radio communication such as NFC. In the case of the present embodiment, the printing device 110 includes an NFC tag. When the user brings the mobile terminal 100 closer to the NFC tag of the printing device 110, the near-field wireless communication unit 210 and the NFC tag of the printing device 110 are established, and the near-field wireless communication unit 210 informs the NFC tag. To get. The near field communication executed by the near field communication unit 210 is not limited to NFC, and may be, for example, Bluetooth (registered trademark).

The wireless communication unit 211 executes wireless communication such as Wi-Fi. In the case of the mobile terminal 100, by using the handover, it is possible for the user to realize wireless communication by the wireless communication unit 211 with a simple operation. Specifically, the wireless communication unit 211 can connect to the access point 120 by using the connection information (SSID and security key of the access point 120) acquired by the proximity wireless communication unit 210 from the NFC tag of the printing device 110. can.

Next, the software configuration of the mobile terminal 100 will be described with reference to FIG. FIG. 3 is a functional block diagram of software realized by the CPU 201 reading a control program stored in the ROM 202 or the HDD 204.

OS310 is software for controlling the operation of the entire mobile terminal 100. Various applications can be installed on the mobile terminal 100, including the printing application 300 described later. The OS 310 exchanges information with these applications, changes the screen displayed on the operation panel 206 according to the instruction received from the applications, and executes wireless communication by the wireless communication unit 211.

The print application 300 is an application installed on the mobile terminal 100. Various applications other than the printing application 300 are installed in the mobile terminal 100, but the description thereof will be omitted.

The software configuration of the print application 300 will be described in more detail. The screen control unit 301 controls the screen to be displayed on the operation panel 206 via the OS 310. The screen control unit 301 displays the screen shown in FIG. 5, which will be described later, on the operation panel 206. Further, the screen control unit 301 determines an operation instruction input by the user via the operation panel 206. The communication unit 302 controls the proximity wireless communication by the proximity wireless communication unit 210 and the wireless communication by the wireless communication unit 211 via the OS 310.

The Wi-Fi setting changing unit 303 changes the Wi-Fi setting related to the wireless communication of the mobile terminal 100 via the OS 310. The OS 310 includes a program for managing the Wi-Fi settings, and the Wi-Fi setting change unit 303 of the printing application 300 instructs this program to change the Wi-Fi settings. The Wi-Fi setting will be described in detail with reference to FIG.

The timekeeping unit 304 clocks the time. Timekeeping of this time is performed by using RTC205 via OS310. The print job generation unit 305 generates a print job. The print job generated by the print job generation unit 305 is transmitted to the printing device 110 by the wireless communication unit 211, and printing is executed. The storage unit 306 temporarily stores various information in a memory such as the RAM 203.

The setting screen 400 of FIG. 4A is a screen provided by the OS 310 and is displayed on the operation panel 206. The setting screen 400 is a screen for setting whether or not to execute the wireless communication by the wireless communication unit 211.

When "OFF" is set by the button 401, the Wi-Fi setting related to wireless communication is set to an invalid setting indicating that wireless communication is not executed. When the Wi-Fi setting is invalid, the operation of the wireless communication unit 211 is stopped, so that the power consumption of the mobile terminal 100 is reduced. When the wireless communication by the wireless communication unit 211 is not used, such as when going out, it is preferable to set the Wi-Fi setting to OFF, that is, to disable it. The setting screen 400 shows a state in which the Wi-Fi setting is OFF, that is, the invalid setting is set.

The setting screen 410 of FIG. 4B shows a state in which the Wi-Fi setting is set to “ON”. When set to "ON" like the button 411, the Wi-Fi setting related to wireless communication is set to a valid setting indicating that wireless communication is executed. When the Wi-Fi setting is ON, that is, it becomes a valid setting, the wireless communication unit 211 starts operation and searches for an access point. Then, when it finds an access point that has been connected in the past, it connects to that access point. Alternatively, the wireless communication unit 211 connects to the access point specified by the user. The SSID of the connected access point is displayed on the 412. Further, the SSID of the access point found as a result of the search is displayed in 413.

In FIG. 4, an example in which the user manually changes the Wi-Fi setting has been described. In the case of the mobile terminal 100, the Wi-Fi setting changing unit 303 can change the Wi-Fi setting via the OS 310. The change of the Wi-Fi setting by the Wi-Fi setting changing unit 303 will be described in detail later by using the flowcharts of FIGS. 6 and 7. Further, the result of the setting on the setting screen of FIG. 4 (whether the wireless communication setting is a valid setting or an invalid setting) is stored in a memory such as HDD 204.

Next, the outline of the printing function realized by the printing application 300 and the screen transition will be described with reference to FIG. Each screen shown in FIG. 5 is a screen displayed on the operation panel 206 by the screen control unit 301 of the printing application 300.

The print screen 500 of FIG. 5A is a screen for displaying a list of photographs stored in the HDD 204. The print screen 500 shows a case where four photographs of photographs 501 to 504 are displayed as an example. On the print screen 500, the user selects a photo to be printed.

When the user selects a photo on the print screen 500, the print screen 510 of FIG. 5B is displayed. The print screen 510 shows the case where Photo 501 is selected as an example. The photograph selected by the user on the print screen 500 is displayed in large size on the 511, and the user can confirm the selected photograph. If the user wants to change the print settings, the user can select the icon 512. Further, when the user wants to return to the photo list screen (print screen 500), the user may select the icon 513.

When the user brings the mobile terminal 100 close to the NFC tag of the printing device 110 while the print screen 510 is displayed, the near field communication unit 210 reads the information stored in the NFC tag of the printing device 110. In the case of the present embodiment, the NFC tag of the printing device 110 has connection information (SSID of the access point 120, security key for connecting to the access point 120) for the wireless communication unit 211 to execute wireless communication with the printing device 110. , IP address of the printing device 110) is stored. The wireless communication unit 211 can execute wireless communication with the printing device 110 by the connection information acquired by the proximity wireless communication unit 210 reading the NFC tag of the printing device 110. The connection information may include the MAC address of the printing device 110 instead of the IP address of the printing device 110.

However, if the Wi-Fi setting is set to invalid on the setting screen 400, the wireless communication unit 211 does not execute wireless communication even if the proximity wireless communication unit 210 acquires the connection information. If the user manually changes the Wi-Fi setting to the valid setting before bringing the mobile terminal 100 close to the NFC tag of the printing device 110 (before touching it), the handover using the NFC is executed and the wireless communication unit 211 executes the handover. Can perform wireless communication. However, the user has to manually change the Wi-Fi setting to the valid setting, and if the user is not familiar with the operation of the mobile terminal 100, he / she may notice that the Wi-Fi setting is changed to the valid setting in the first place. It may not be there. Therefore, in the present embodiment, when the mobile terminal 100 is brought close to the NFC tag of the printing device 110, in other words, the Wi-Fi setting is invalidated in response to the proximity wireless communication unit 210 acquiring the connection information from the NFC tag. Automatically change to enabled setting. This eliminates the trouble of the user manually changing the Wi-Fi setting to the valid setting, and even if the user is not familiar with the operation of the mobile terminal 100, the Wi-Fi setting can be set without making the user aware of it. It can be automatically changed to the enabled setting.

When the proximity wireless communication unit 210 acquires the connection information from the NFC tag, the Wi-Fi setting changing unit 303 changes the Wi-Fi setting from the invalid setting to the valid setting. Then, using the acquired connection information, the communication unit 302 instructs the wireless communication unit 211 to connect to the access point 120. When the wireless communication unit 211 connects to the access point 120, the print job generation unit 305 generates a print job and transmits the generated print job to the IP address included in the acquired connection information, that is, to the printing device 110. At this time, the screen control unit 301 displays the print screen 520 of FIG. 5C on the operation panel 206. When the transmission of the print job is completed, the print screen 530 of FIG. 5D is displayed on the operation panel 206 by the screen control unit 301.

Next, the process executed when the mobile terminal 100 transmits the print job to the printing device 110 will be described with reference to the flowchart of FIG. Each step shown in the flowchart of FIG. 6 is processed by the CPU 201 expanding the control program stored in the memory such as the ROM 202 into the RAM 203 and executing it.

When the user brings the mobile terminal 100 closer to the NFC tag of the printing device 110 with the photograph selected by the user selected (the state where the print screen 510 is displayed), the near field communication unit 210 performs near field communication in step S601. Use to get connection information from the NFC tag. The NFC tag of the printing device 110 stores information indicating each of the SSID of the access point 120, the security key for connecting to the access point 120, and the IP address of the printing device 110 as connection information.

When the proximity radio communication unit 210 acquires the connection information from the NFC tag, in step S602, the storage unit 306 initializes the variable WiFi_Flag.

Next, in step S603, the CPU 201 determines whether or not the Wi-Fi setting is an invalid setting. This determination is executed by the CPU 201 referring to the information stored in the memory such as the HDD 204.

If the CPU 201 determines in step S603 that the Wi-Fi setting is an invalid setting, the process proceeds to step S604. Then, in step S604, the Wi-Fi setting changing unit 303 changes the Wi-Fi setting from the invalid setting to the valid setting (changes the Wi-Fi setting from OFF to ON). By the process of step S604, the wireless communication unit 211 shifts to a state in which wireless communication can be executed. Then, in step S605, the storage unit 306 substitutes 1 for the variable WiFi_Flag. The variable WiFi_Flag is a variable for managing whether or not the WiFi setting is changed. The reason why 1 is assigned to the variable WiFi_Flag in step S605 is that the printing application 300 stores that the Wi-Fi setting is automatically changed by the Wi-Fi setting changing unit 303.

In this way, since the Wi-Fi setting changing unit 303 automatically changes the Wi-Fi setting from the invalid setting to the valid setting, the user does not have to manually change the Wi-Fi setting. Further, even if the user is not familiar with the operation of the mobile terminal 100, the Wi-Fi setting can be automatically changed to the valid setting without making the user aware of it.

On the other hand, if the CPU 201 determines in step S603 that the Wi-Fi setting is not an invalid setting, the process proceeds to step S606. When the process proceeds to step S606, since the Wi-Fi setting is a valid setting, it is not necessary to change the Wi-Fi setting as in step S604. However, since the connection destination is switched to the access point 120, it is preferable to return the connection destination to the access point that was already connected before switching to the access point 120. Therefore, in step S606, the storage unit 306 stores information indicating the connected access point. For example, if the wireless communication unit 211 is connected to the access point whose SSID is "wi-fi_newwork_001", the storage unit 306 stores this SSID in step S606. The mobile terminal 100 may be originally connected to the access point 120. In this case, the SSID included in the connection information acquired in step S601 matches the SSID of the access point to which the mobile terminal 100 is connected. Even in this case, the access point switching described in step S607 occurs.

Next, step S607 will be described. In step S607, the wireless communication unit 211 connects to the access point indicated by the connection information acquired in step S601, that is, the access point 120. Specifically, the communication unit 302 controls the wireless communication unit 211 via the OS 310 so as to establish wireless communication using the SSID and the security key included in the acquired connection information.

When the wireless communication unit 211 connects to the access point 120, the wireless communication unit 211 transmits a print job in step S608. Specifically, first, the print job generation unit 305 generates a print job for printing a photo selected by the user. Then, the communication unit 302 controls the wireless communication unit 211 via the OS 310 so that the print job is transmitted to the IP address included in the acquired connection information, that is, to the printing device 110. While the print job is being transmitted, the print screen 520 of FIG. 5C is displayed on the operation panel 206 by the screen control unit 301. The process executed after the print job is transmitted will be described in detail later with reference to FIG. 7.

As described above, even if the Wi-Fi setting is invalid when the mobile terminal 100 is brought close to the NFC tag of the printing device 110, the Wi-Fi setting is set to be valid from the invalid setting by the process of step S604. Can be changed automatically. Therefore, for the user, the trouble of manually changing the Wi-Fi setting is eliminated. Further, even if the user is not familiar with the operation of the mobile terminal 100, the Wi-Fi setting can be automatically changed to the valid setting without making the user aware of it.

Next, a process of automatically returning the Wi-Fi setting changed to the valid setting to the invalid setting and a process of returning the connection destination access point to the original access point will be described with reference to the flowchart of FIG. Each step shown in the flowchart of FIG. 7 is processed by the CPU 201 expanding the control program stored in the memory such as the ROM 202 into the RAM 203 and executing it.

The process shown in the flowchart of FIG. 7 is executed as a continuation of step S608 of FIG. The communication unit 302 monitors whether or not the transmission of the print job executed in step S608 is completed. Then, when the communication unit 302 detects that the transmission of the print job is completed, that is, when the transmission of the print job in S608 is completed, in step S701, the CPU 201 notifies the user that the transmission of the print job is completed. Specifically, the screen control unit 301 of the print application 300 displays the print screen 530 (screen for notifying the completion of transmission of the print job) of FIG. 5D on the operation panel 206.

Next, in step S702, the timing unit 304 of the printing application 300 starts counting the timer. This process is executed by the timekeeping unit 304 controlling the RTC 205 via the OS 310. This timer count is based on the process of automatically returning the Wi-Fi setting changed to the valid setting to the invalid setting when there is no user operation for a predetermined time after the print job transmission is completed, and the access point of the connection destination. It is executed to execute the process of returning to the access point of.

Next, in step S703, the CPU 201 determines whether or not the user operation has been accepted. When the CPU 201 determines that the user operation has been accepted, the CPU 201 executes a process according to the user operation in step S704. For example, if the user operation has instructed to change the screen to be displayed, the screen control unit 301 displays the changed screen on the operation panel 206. Further, if the user operation is a print execution instruction, the communication unit 302 controls the wireless communication unit 211 to transmit a print job. When the process corresponding to the user operation is executed in step S704, the time measuring unit 304 of the printing application 300 resets the timer count in step S705. On the other hand, if the user operation is not accepted, the process proceeds to step S706.

In the case of the smartphone or tablet PC given as an example of the mobile terminal 100, since the process can be executed by multitasking, an application such as the print application 300 may be started in the background. That is, the print application 300 may be running in the background, and the user may actually be operating another application (mail application or telephone directory application). As described above, even if the user operation is accepted while the print application 300 is running in the background, it is not determined that the user operation is accepted in step S703 because the operation is not the user operation for the print application 300. Also, the count reset in step S705 is not executed.

Next, step S706 will be described. In step S706, the CPU 201 determines whether or not the counting timer has elapsed a predetermined time. In the case of the present embodiment, the timer count is started after the print job is transmitted (step S702), and the count is reset every time the user performs some operation (step S705). Then, when a predetermined time (for example, 5 minutes) elapses without accepting the user operation, the CPU 201 determines that the predetermined time has elapsed in step S706, and proceeds to step S707. On the other hand, if the predetermined time has not elapsed, the CPU 201 determines in step S706 that the predetermined time has not elapsed, and returns to step S703. In the present embodiment, it has been explained that if 5 minutes have passed without any user operation, it is determined in step S706 that the predetermined time has passed. However, the time of 5 minutes is an example and may be another time. The user may be able to set a desired time on a setting screen (not shown).

Next, step S707 will be described. In step S707, the CPU 201 determines whether or not to return the Wi-Fi setting to the invalid setting. This determination is executed by referring to the value of the variable WiFi_Flag stored in the storage unit 306.

When the value of the variable WiFi_Flag is 1, the WiFi setting is automatically changed from the invalid setting to the valid setting in step S604 in order to execute the handover. Therefore, when the Wi-Fi setting is returned to the invalid setting in step S707, the CPU 201 determines and proceeds to step S708. Then, in step S708, the Wi-Fi setting changing unit 303 changes the Wi-Fi setting from the valid setting to the invalid setting (changes the Wi-Fi setting from ON to OFF). Note that the Wi-Fi setting is returned from the valid setting to the invalid setting on the condition that the user does not operate for a predetermined time in consideration of the case where the user continuously sends a plurality of print jobs to the printing device 110. Because it is. For the user, after the handover is executed once, the Wi-Fi setting is enabled and the printing device 110 is specified as the transmission destination of the print job, so that a plurality of prints can be performed. Eliminates the need for multiple touch operations when submitting a job.

On the other hand, when the value of the variable WiFi_Flag is 0, since the Wi-Fi setting is the valid setting before the handover is executed, it is not necessary to change the Wi-Fi setting to the invalid setting. Therefore, the CPU 201 determines that the Wi-Fi setting is not returned to the invalid setting in step S707, and proceeds to step S709. Then, in step S709, the communication unit 302 controls to change the connection destination access point to the access point stored in the storage unit 306. When the process of step S709 is executed, the mobile terminal 100 is originally connected to the access point before the handover is executed, and the access point of the connection destination is changed by the handover. The process of step S709 is executed to restore the connection destination changed by the handover.

As described above, according to the present embodiment, even if the Wi-Fi setting is invalid, the Wi-Fi setting is invalidated at the time of handover execution (when connection information is acquired using NFC). It can be automatically changed from the setting to the enabled setting. This eliminates the need for the user to manually change the Wi-Fi setting to a valid setting. Further, even if the user is not familiar with the operation of the mobile terminal 100, the Wi-Fi setting can be automatically changed to the valid setting without making the user aware of it.

Further, according to the present embodiment, when the Wi-Fi setting is automatically changed from the invalid setting to the valid setting at the time of performing the handover, the user operation is not accepted for a predetermined time after the print job is transmitted. The Wi-Fi setting can be automatically returned to the invalid setting. The fact that the Wi-Fi setting was invalid before the handover was executed is considered to be that the Wi-Fi setting was invalid for the user, for example, in order to reduce power consumption. According to the present embodiment, since the Wi-Fi setting is automatically changed to the invalid setting after the print job is transmitted, the power consumption of the mobile terminal 100 can be reduced.

Further, according to the present embodiment, when the mobile terminal 100 is originally connected to the access point before the handover is executed, the connection destination is provided on the condition that the user has not operated for a predetermined time after the print job is transmitted. You can revert the access point. As a result, even if the access point of the connection destination is temporarily changed in order to execute printing, the access point of the connection destination can be restored without making the user aware of it.

(Embodiment 2)
Next, a second embodiment will be described as a modification of the first embodiment. In the first embodiment, as described in step S705 of FIG. 7, an example of resetting the timer count each time a user operation is accepted has been described. On the other hand, in the second embodiment, a configuration will be described in which the timer count is reset on the condition that the transmission of the next print job is executed, instead of being reset uniformly by the user operation.

The flowchart of FIG. 8 shows a process executed as a continuation of step S608 of FIG. 6, and is a modification of the flowchart of FIG. 7. Since the steps having the same numbers as those in FIG. 7 execute the same processing as the flowchart of FIG. 7, the description thereof will be omitted. Each step shown in the flowchart of FIG. 8 is processed by the CPU 201 expanding the control program stored in the memory such as the ROM 202 into the RAM 203 and executing it.

If the CPU 201 determines that the user operation has been accepted in step S703, the process proceeds to step S801. In step S801, the CPU 201 determines whether or not the process indicated by the user operation is the transmission of a print job. When the CPU 201 determines that the process indicated by the user operation is the transmission of the print job, the process proceeds to step S802. Then, in step S802, the communication unit 302 controls the wireless communication unit 211 so as to transmit the print job, and the wireless communication unit 211 transmits the print job to the printing device 110. Next, in step S803, the timing unit 304 of the printing application 300 resets the timer count.

On the other hand, if the CPU 201 determines in step S801 that the process indicated by the user operation is not the transmission of the print job, the process proceeds to step S804. Then, in step S804, the CPU 201 executes a process according to the user operation. For example, if the user operation has instructed to change the screen to be displayed, the screen control unit 301 displays the changed screen on the operation panel 206. When the process corresponding to the user operation is executed in step S804, the process returns to step S703 without resetting the timer count.

As described above, in the case of the present embodiment, the timer count is not reset uniformly by the user operation, but the timer count is reset on the condition that the transmission of the print job is instructed. In other words, even if the user performs some operation, the timer count continues unless the operation is an operation instructing the transmission of the print job. Then, the processes of step S708 and step S709 are executed on condition that the transmission of the next print job for a predetermined time is not executed.

(Embodiment 3)
In an application such as the print application 300, a user may perform an end operation for terminating the start of the application. This operation is performed, for example, to reduce the processing load of the CPU 201. In the present embodiment, the process executed when this end operation is performed will be described.

The flowchart of FIG. 9 shows the process executed when the end operation for terminating the start of the print application 300 is performed. Each step shown in the flowchart of FIG. 9 is processed by the CPU 201 expanding the control program stored in the memory such as the ROM 202 into the RAM 203 and executing it.

First, in step S901, the CPU 201 receives from the user an end operation for terminating the start of the print application 300. The CPU 201 that has received the termination operation determines in step S902 whether or not to return the Wi-Fi setting to the invalid setting. This determination is executed by referring to the value of the variable WiFi_Flag stored in the storage unit 306.

When the value of the variable WiFi_Flag is 1, the CPU 201 determines that the WiFi setting is returned to the invalid setting, and the process proceeds to step S903. Then, in step S903, the Wi-Fi setting changing unit 303 changes the Wi-Fi setting from the valid setting to the invalid setting (changes the Wi-Fi setting from ON to OFF).

On the other hand, when the value of the variable WiFi_Flag is 0, the CPU 201 determines that the WiFi setting is not returned to the invalid setting in step S902, and proceeds to step S904. Then, in step S904, the communication unit 302 controls to change the connection destination access point to the access point stored in the storage unit 306.

As described above, according to the present embodiment, when the user accepts the termination operation for terminating the start of the application, the Wi-Fi setting is returned to the invalid setting or based on the access point of the connection destination. Can be returned. Even if the Wi-Fi setting or the access point of the connection destination is changed at the time of performing the handover as in the first embodiment, the Wi-Fi setting or the access point of the connection destination is restored as a process when the application is terminated. be able to.

The timing at which the process shown in the flowchart of FIG. 9 is executed is not limited to the case where the end operation of the print application 300 is performed. For example, it may be executed at the timing when the print application 300 is switched to the background activation.

(Other embodiments)
In each of the above-described embodiments, an example in which the mobile terminal 100 transmits a print job to the printing device 110 has been described, but the data communication executed between the mobile terminal 100 and the printing device 110 is not limited to the transmission of the print job. For example, it may be data communication for storing a photograph or an electronic document stored in the mobile terminal 100 in an HDD of an external device such as a printing device 110. Further, the data communication may be performed so that the mobile terminal 100 acquires the scanned image generated by scanning the document by the printing device 110 from the printing device 110. After the execution of these data communications is completed, the Wi-Fi settings and the access point of the connection destination are based on the condition that the user operation is not accepted for a predetermined time or the next data communication is not executed. You may return to.

Further, in each of the above-described embodiments, an example of returning the Wi-Fi setting and the access point of the connection destination to the original state after waiting for a predetermined time after the completion of the data communication has been described. You may restore the Wi-Fi settings and the access point of the connection destination. Further, depending on the completion of data communication, the user may be inquired whether to restore the Wi-Fi setting or the access point of the connection destination.

Further, in each of the above-described embodiments, the function of automatically restoring the Wi-Fi setting and the access point of the connection destination after the completion of data communication has been described, but whether or not to use this function is not shown. You may let the user set it on the setting screen.

The present invention also supplies a program that realizes one or more functions of the above-described embodiment to a system or device via a network or storage medium, and one or more processors in the computer of the system or device implement the program. It can also be realized by the process of reading and executing. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

100 Mobile terminal 110 Printing device 120 Access point 201 CPU
202 ROM
203 RAM
204 HDD
205 RTC
206 Operation panel 210 Proximity wireless communication unit 211 Wireless communication unit 300 Printing application

Claims (40)

In an information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS.
A means of accepting the specification of data to be transmitted on the screen provided by the application program,
After accepting the designation, a means for acquiring connection information including the SSID of the access point and the address information of the external device via NFC wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting without going through the screen provided by the OS and the acquisition. A means of executing a process of establishing a Wi-Fi wireless communication connection based on connection information, and
A means for transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
An information processing device characterized by having. It is a control method of an information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS.
On the screen provided by the application program , the process of accepting the specification of the data to be transmitted, and
After accepting the designation, the process of acquiring the SSID of the access point and the connection information including the address information of the external device via NFC wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting and the connection information without going through the screen provided by the OS. The process of executing the process of establishing a Wi-Fi wireless communication connection based on
A step of transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
A control method characterized by having. To the computer of the information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS
The process of providing a screen that accepts the specification of data to be transmitted, and
After accepting the designation, the process of acquiring connection information including the SSID of the access point and the address information of the external device via NFC wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting and the connection information without going through the screen provided by the OS. The process of executing the process of establishing a Wi-Fi wireless communication connection based on
A step of transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
A program characterized by executing. After acquisition of the connection information, claims wherein prior to establishing a connection Wi-Fi wireless communication, the Wi-Fi settings is characterized in that to execute a step of changing the ON setting if the OFF setting The program described in 3. The process of storing the change information of the Wi-Fi setting and
In a state in which change information indicating that the process of the change has been executed is stored, to change the transmission completion of the data specified at least as a condition, the OFF setting the Wi-Fi settings from the ON setting The program according to claim 4, wherein the process and execution are performed. A step of storing information of the different access points connected before the acquisition of the connection information of a different access point from the previous SL access point,
In a state where information of the different access points are stored as at least subject to the completion of transmission of the specified data, to execute the steps of connecting to the different access point to release the connection with the access point The program according to any one of claims 3 to 5, characterized in that. Program as set forth in the ON setting of the Wi-Fi settings have at least a base Dzu the application end instruction to claim 5 or 6 characterized by having a step of changing the OFF setting. The conditions, the program according to claim 5 or 6, characterized in that a condition based on at least a lapse of time after completion of the transmission of the specified data. The elapsed time, the program according to claim 8, characterized in that the course of the pre-designated time by the user. After the designated data is transmitted, the process of accepting the designation of further data to be transmitted and transmitting the further data to the external device via the Wi-Fi wireless communication is executed. The program according to any one of claims 3 to 9. Data for pre-SL transmits the program according to any one of claims 3 to 10, characterized in that the photographs or electronic document to be stored in the external device. The external device is a printing device.
The program according to any one of claims 3 to 11, wherein the data to be transmitted is data to be printed by the printing apparatus. The program according to claim 12, further comprising a step of accepting a print setting of the data to be printed. The program according to claim 12 or 13, wherein the connection information includes an IP address of the printing apparatus. The program according to any one of claims 12 to 14, wherein the step of acquiring a scanned image from the printing apparatus is executed. The invention according to any one of claims 3 to 15, wherein after the data to be transmitted is designated, a step of displaying a confirmation image of the designated data on the display unit of the information processing apparatus is executed. Program. Claims 3 to 16 include, after the data to be transmitted is specified, a step of displaying a screen prompting the user for an operation for starting the NFC wireless communication on the display unit of the information processing apparatus. The program described in any one of the above. Any of claims 3 to 17, wherein after the data to be transmitted is specified, a step of displaying a screen prompting the user to touch the external device on the display unit of the information processing device is executed. The program described in item 1. The program according to any one of claims 3 to 18, wherein a step of displaying the progress of transmission on the display unit of the information processing apparatus is executed in association with the transmission of the designated data. The program according to any one of claims 3 to 19, wherein the information processing device is a mobile terminal. In an information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS.
A means of accepting the specification of data to be transmitted on the screen provided by the application program,
After accepting the designation, a means for acquiring connection information including the SSID of the access point and the address information of the external device via Bluetooth wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting without going through the screen provided by the OS and the acquisition. A means of executing a process of establishing a Wi-Fi wireless communication connection based on connection information, and
A means for transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
An information processing device characterized by having. It is a control method of an information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS.
On the screen provided by the application program , the process of accepting the specification of the data to be transmitted, and
After accepting the designation, the process of acquiring connection information including the SSID of the access point and the address information of the external device via Bluetooth wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting and the connection information without going through the screen provided by the OS. The process of executing the process of establishing a Wi-Fi wireless communication connection based on
A step of transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
A control method characterized by having. To the computer of the information processing device that can change the Wi-Fi setting to ON setting or OFF setting on the screen provided by the OS
The process of providing a screen that accepts the specification of data to be transmitted, and
After accepting the designation, the process of acquiring connection information including the SSID of the access point and the address information of the external device via Bluetooth wireless communication, and
After acquiring the connection information in the state where the Wi-Fi setting is the OFF setting, the process of changing the Wi-Fi setting from the OFF setting to the ON setting and the connection information without going through the screen provided by the OS. The process of executing the process of establishing a Wi-Fi wireless communication connection based on
A step of transmitting the specified data to an external device corresponding to the address information via the Wi-Fi wireless communication according to the establishment of the Wi-Fi wireless communication connection.
A program characterized by executing. After acquisition of the connection information, claims wherein prior to establishing a connection Wi-Fi wireless communication, the Wi-Fi settings is characterized in that to execute a step of changing the ON setting if the OFF setting 23. The process of storing the change information of the Wi-Fi setting and
In a state where change information indicating that the process to be changed has been executed is stored, the Wi-Fi setting is set to ON according to the fact that a predetermined condition is satisfied after the specified data is transmitted. The program according to claim 23 or 24, which comprises a step of changing the setting from the first to the OFF setting and executing the process. A step of storing information of the different access points connected before the acquisition of the connection information of a different access point from the previous SL access point,
In a state where information of the different access points are stored as at least subject to the completion of transmission of the specified data, to execute the steps of connecting to the different access point to release the connection with the access point The program according to any one of claims 23 to 25. Program as set forth in the ON setting of the Wi-Fi settings have at least a base Dzu the application end instruction to claim 25 or 26, characterized in that it comprises a step of changing the OFF setting. The conditions, the program according to claim 25 or 26, characterized in that a condition based on at least a lapse of time after completion of the transmission of the specified data. The elapsed time, the program according to claim 28, characterized in that the course of the pre-designated time by the user. After the designated data is transmitted, the process of accepting the designation of further data to be transmitted and transmitting the further data to the external device via the Wi-Fi wireless communication is executed. The program according to any one of claims 23 to 29. Data for pre-SL transmits the program according to any one of claims 23 to 30, wherein the photographs or electronic document to be stored in the external device. The external device is a printing device.
The program according to any one of claims 23 to 31, wherein the data to be transmitted is data to be printed by the printing apparatus. The program according to claim 32, further comprising a step of accepting a print setting of the data to be printed. The program according to claim 32 or 33, wherein the connection information includes an IP address of the printing apparatus. The program according to any one of claims 32 to 34, wherein the step of acquiring a scanned image from the printing apparatus is executed. The invention according to any one of claims 23 to 35, wherein after the data to be transmitted is designated, a step of displaying a confirmation image of the designated data on the display unit of the information processing apparatus is executed. Program. 23 to 36, wherein after the data to be transmitted is specified, a step of displaying a screen prompting the user for an operation for starting the Bluetooth wireless communication on the display unit of the information processing apparatus is executed. The program described in any one of the above. Any of claims 23 to 37, wherein after the data to be transmitted is specified, a step of displaying a screen prompting the user to touch the external device on the display unit of the information processing device is executed. The program described in item 1. The program according to any one of claims 23 to 38, wherein the step of displaying the progress of transmission on the display unit of the information processing apparatus is executed in association with the transmission of the designated data. The program according to any one of claims 23 to 39, wherein the information processing device is a mobile terminal.

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