JP6947073B2 - Information processing device and information processing method - Google Patents

Description

The present invention relates to an information processing device for exchanging information with an image processing device and an information processing method.

Some image forming devices can exchange information with a mobile terminal using short-range wireless communication (for example, Patent Document 1).

JP-A-2017-195475

In electronic devices, it is generally desired that the convenience of the user is high, and further improvement of the convenience is expected.

It is desirable to provide an information processing device and an information processing method that can enhance the convenience of the user.

The first information processing apparatus according to the embodiment of the present invention includes a first communication unit, a second communication unit, and a control unit. The first communication unit is capable of performing the first wireless communication with one or more image processing devices via the first communication path. The second communication unit can perform the second wireless communication and can set the communication function to be valid or invalid. The control unit can control the operations of the first communication unit and the second communication unit by executing predetermined software. The control unit may execute the software to cause the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path. The first process of checking whether the image processing device includes the first image processing device capable of communicating by the second wireless communication, and the case where the one or more image processing devices include the first image processing device. , When the communication function of the second communication unit is invalid, the first image processing device after performing the second process for enabling the communication function of the second communication unit and the second process. By causing the second communication unit to perform the second wireless communication with the first image processing device, the network setting information of the first wireless communication via the second communication path is acquired from the first image processing device, and the network is obtained. A third process for setting the network of the first communication unit based on the setting information and a first wireless communication between the first image processing device and the first communication unit via the second communication path are performed in the first communication unit. By doing so, the fourth process of supplying image data to the first image processing device is performed.
The second information processing apparatus according to the embodiment of the present invention includes a first communication unit, a second communication unit, and a control unit. The first communication unit is capable of performing the first wireless communication with one or more image processing devices via the first communication path and the second communication path. The second communication unit can perform the second wireless communication and can set the communication function to be valid or invalid. The control unit can control the operations of the first communication unit and the second communication unit by executing predetermined software. The control unit may execute the software to cause the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path. The first process of checking whether the image processing device includes the first image processing device capable of communicating by the second wireless communication, and the case where the one or more image processing devices include the first image processing device. , When the communication function of the second communication unit is invalid, the first image processing is performed after the second processing for enabling the communication function of the second communication unit and the second processing described above. By causing the second communication unit to perform the second wireless communication with the device, the network setting information of the first wireless communication via the second communication path is acquired from the first image processing device. The third process of setting the network of the first communication unit based on the network setting information and the first wireless communication between the first image processing device and the first communication unit via the second communication path. By performing the above, the fifth process of receiving the image data from the first image processing device is performed.
The third information processing apparatus according to the embodiment of the present invention includes a first communication unit, a second communication unit, and a control unit. The first communication unit can perform the first wireless communication with one or more image processing devices via the first communication path and the second communication path, and enables or disables the communication function. It can be set to. The second communication unit can perform the second wireless communication and can set the communication function to be valid or invalid. The control unit can control the operations of the first communication unit and the second communication unit by executing predetermined software. The control unit may execute the software to cause the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path. The first process of checking whether the image processing device includes the first image processing device capable of communicating by the second wireless communication, and the case where the one or more image processing devices include the first image processing device. , When the communication function of the second communication unit is invalid, the communication function of the first communication unit is invalid at the time of the second process for enabling the communication function of the second communication unit and the startup of the software. In the case of, the sixth process for enabling the communication function of the first communication unit is performed.
The fourth information processing apparatus according to the embodiment of the present invention includes a first communication unit, a second communication unit, and a control unit. The first communication unit can perform the first wireless communication with one or more image processing devices via the first communication path, and the communication function can be enabled or disabled. be. The second communication unit can perform the second wireless communication and can set the communication function to be valid or invalid. The control unit can control the operations of the first communication unit and the second communication unit by executing predetermined software. The control unit may execute the software to cause the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path. The first process of checking whether the image processing device includes the first image processing device capable of communicating by the second wireless communication, and the case where the one or more image processing devices include the first image processing device. When the communication function of the second communication unit is invalid, the second process of enabling the communication function of the second communication unit is performed. When one or more image processing devices do not include an image processing device capable of communicating by the second wireless communication, the control unit intermittently performs the first processing.
The fifth information processing apparatus according to the embodiment of the present invention includes a first communication unit, a second communication unit, a control unit, and an operation unit. The first communication unit can perform the first wireless communication with one or more image processing devices via the first communication path, and the communication function can be enabled or disabled. be. The second communication unit can perform the second wireless communication and can set the communication function to be valid or invalid. The control unit can control the operations of the first communication unit and the second communication unit by executing predetermined software. The operation unit accepts user operations. By executing the software based on the instruction from the operation unit, the control unit transmits the first wireless communication with the one or a plurality of image processing devices to the first communication unit via the first communication path. The first process of checking whether the one or more image processing devices include the first image processing device capable of communicating by the second wireless communication, and the first processing of the one or more image processing devices. in case of containing an image processing apparatus, when the communication function of the second communication unit is invalid, Ru der to perform a second process to enable the communication function of the second communication unit.

In the first information processing method according to the embodiment of the present invention, when the information processing apparatus executes predetermined software, the information processing apparatus has a first communication unit with one or more image processing apparatus. By causing the first wireless communication via the communication path and each of the one or more image processing devices performing the first wireless communication with the information processing device via the first communication path. The information processing device is supplied with setting information including information on whether or not the second wireless communication can be performed, and the information processing device causes one or more image processing devices to perform the second setting information based on the setting information. It is possible to check whether or not a first image processing device capable of communicating by wireless communication is included, and to perform a second wireless communication when one or more image processing devices include a first image processing device. When the possible communication function of the second communication unit is invalid, the information processing device enables the communication function of the second communication unit, and the information processing device is connected to the first image processing device. By causing the second communication unit to perform the second wireless communication, the network setting information of the first wireless communication via the second communication path is acquired from the first image processing device and used as the network setting information. Based on this, the network setting of the first communication unit is performed, the first image processing device performs the network setting according to the network setting information, and the information processing device is between the first image processing device. This includes supplying image data to the first image processing device by causing the first communication unit to perform the first wireless communication via the second communication path.
In the second information processing method according to the embodiment of the present invention, when the information processing apparatus executes predetermined software, the information processing apparatus has a first communication unit with one or more image processing apparatus. By causing the first wireless communication via the communication path and each of the one or more image processing devices performing the first wireless communication with the information processing device via the first communication path. The information processing device is supplied with setting information including information on whether or not the second wireless communication can be performed, and the information processing device causes one or more image processing devices to perform the second setting information based on the setting information. It is possible to check whether or not a first image processing device capable of communicating by wireless communication is included, and to perform a second wireless communication when one or more image processing devices include a first image processing device. When the possible communication function of the second communication unit is invalid, the information processing device enables the communication function of the second communication unit, and the information processing device communicates with the first image processing device. By causing the second communication unit to perform the second wireless communication between the two, the network setting information of the first wireless communication via the second communication path is acquired from the first image processing device and used as the network setting information. Based on this, the network setting of the first communication unit is performed, the first image processing device performs the network setting according to the network setting information, and the first image processing device is between the information processing device and the information processing device. By performing the first wireless communication via the second communication path, the information processing device is supplied with image data, and the information processing device is connected to the first communication unit with the first image processing device. It includes receiving image data by causing the first wireless communication via the second communication path.
In the third information processing method according to the embodiment of the present invention, when the information processing apparatus executes predetermined software, the information processing apparatus has a first communication unit with one or more image processing apparatus. By causing the first wireless communication via the communication path and each of the one or more image processing devices performing the first wireless communication with the information processing device via the first communication path. The information processing device is supplied with setting information including information on whether or not the second wireless communication can be performed, and the information processing device causes one or more image processing devices to perform the second setting information based on the setting information. It is possible to check whether or not a first image processing device capable of communicating by wireless communication is included, and to perform a second wireless communication when one or more image processing devices include a first image processing device. When the possible communication function of the second communication unit is invalid, the information processing device enables the communication function of the second communication unit, and the information processing device performs the first communication when the software is started. When the communication function of the unit is invalid, it includes enabling the communication function of the first communication unit.
In the fourth information processing method according to the embodiment of the present invention, when the information processing apparatus executes predetermined software, the information processing apparatus has a first communication unit with one or more image processing apparatus. By causing the first wireless communication via the communication path and each of the one or more image processing devices performing the first wireless communication with the information processing device via the first communication path. The information processing device is supplied with setting information including information on whether or not the second wireless communication can be performed, and the information processing device causes one or more image processing devices to perform the second setting information based on the setting information. It is possible to check whether or not a first image processing device capable of communicating by wireless communication is included, and to perform a second wireless communication when one or more image processing devices include a first image processing device. When the possible communication function of the second communication unit is invalid, the information processing device enables the communication function of the second communication unit, and one or more image processing devices perform the second wireless communication. When the information processing device does not include an image processing device capable of communicating with the information processing device, the information processing device intermittently performs a process of checking whether the one or more image processing devices include the first image processing device based on the setting information. It includes what to do.
In the fifth information processing method according to the embodiment of the present invention, the information processing apparatus executes a predetermined software based on an instruction from an operation unit that accepts a user's operation, whereby one or a plurality of image processing apparatus. To have the first communication unit perform the first wireless communication via the first communication path, and each of the one or more image processing devices has a first communication with the information processing device. By performing the first wireless communication via the communication path, setting information including information about whether or not the second wireless communication can be performed is supplied to the information processing device, and the information processing device uses the setting information. Based on, it is investigated whether one or more image processing devices include a first image processing device capable of communicating by a second wireless communication, and one or more image processing devices are the first image processing device. When the communication function of the second communication unit capable of performing the second wireless communication is invalid, the information processing apparatus enables the communication function of the second communication unit. Ru der those containing.

According to the information processing device and the information processing method according to the embodiment of the present invention, it is investigated whether or not one or more image processing devices include a first image processing device capable of communicating by a second wireless communication. Alternatively, when a plurality of image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is enabled. , User convenience can be improved.

It is a block diagram which shows one structural example of the image processing system which concerns on one Embodiment. It is a block diagram which shows one configuration example of the mobile terminal and the image processing apparatus shown in FIG. It is a block diagram which shows one configuration example of another image processing apparatus shown in FIG. It is a flowchart which shows one operation example of the mobile terminal which concerns on embodiment. It is an image diagram which shows an example of the image displayed on a mobile terminal. It is an image diagram which shows other example of the image displayed on a mobile terminal. It is an image diagram which shows other example of the image displayed on a mobile terminal. It is a sequence diagram which shows an example of NFC printing. It is a flowchart which shows one operation example of the mobile terminal which concerns on a modification. It is a sequence diagram which shows an example of an NFC scan.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

[Configuration example]
FIG. 1 shows a configuration example of an image processing system 1 in which the information processing apparatus according to the embodiment of the present invention is used. Since the information processing method according to the embodiment of the present invention is embodied by the embodiment, it will be described together. The image processing system 1 includes a plurality of image processing devices 10 (image processing devices 10A, 10B, 10C, ...), A mobile terminal 20, and an access point 9.

Each of the plurality of image processing devices 10 is a so-called multifunction peripheral device (MFP; Multi Function Peripheral) having a copy function, a fax function, a scanning function, a printing function, and the like. The plurality of image processing devices 10 are connected to the same network, for example, a network of one business office of a company, and are arranged around the mobile terminal 20. Each of these image processing devices 10 receives print data DP from, for example, the mobile terminal 20 by communicating with the mobile terminal 20 using a wireless LAN (Local Area Network).

The image processing device 10A of the plurality of image processing devices 10 has two network communication modes M (infrastructure mode M1 and access point mode M2). The infrastructure mode M1 is a mode in which the image processing device 10A performs wireless network communication W1 with the mobile terminal 20 via the access point 9 using a wireless LAN. The access point mode M2 is a mode in which the image processing device 10A directly performs wireless network communication W2 with the mobile terminal 20 using a wireless LAN without going through the access point 9. Specifically, in the access point mode M2, the image processing device 10A itself operates as an access point to perform wireless network communication W2 with the mobile terminal 20. As a result, the image processing device 10A operates in the infrastructure mode M1 to perform wireless network communication W1 with the mobile terminal 20 via the access point 9, and operates in the access point mode M2. Wireless network communication W2 can be directly performed with the mobile terminal 20. The image processing device 10A also has a function of performing short-range wireless communication (NFC; Near Field Communication) WNFC with the mobile terminal 20.

Of the plurality of image processing devices 10, the image processing devices 10B and 10C have, for example, the infrastructure mode M1 and do not have the access point mode M2. As a result, the image processing devices 10B and 10C operate in the infrastructure mode M1 to perform wireless network communication W1 with the mobile terminal 20 via the access point 9. Further, in this example, unlike the image processing devices 10A, the image processing devices 10B and 10C do not have a function of performing short-range wireless communication WNFC.

As described above, the image processing system 1 includes an image processing device capable of performing short-range wireless communication WNFC (image processing device 10A in this example) and an image processing device capable of performing short-range wireless communication WNFC (this). In the example, the image processing devices 10B and 10C) are included.

The mobile terminal 20 is a so-called smartphone in this example. The mobile terminal 20 can perform wireless network communication W1 and W2, and can also perform short-range wireless communication WNFC.

The access point 9 is a wireless LAN base station. Each of the plurality of image processing devices 10 operates in the infrastructure mode M1 to perform wireless network communication W1 with the mobile terminal 20 via the access point 9.

With this configuration, in the image processing system 1, the mobile terminal 20 first determines whether or not there is an image processing device 10 capable of performing short-range wireless communication WNFC around the mobile terminal 20 by using the wireless network communication W1. Check. Then, when the mobile terminal 20 has an image processing device 10 capable of performing short-range wireless communication WNFC in the vicinity, the communication function (NFC communication function) of the short-range wireless communication WNFC in the mobile terminal 20 is "invalid". If the communication function of the short-range wireless communication WNFC is "disabled", this communication function is enabled. Then, when the user holds the mobile terminal 20 over the image processing device 10 (image processing device 10A in this example) capable of performing short-range wireless communication WNFC, the mobile terminal 20 wirelessly operates from the image processing device 10A. The network setting information INF for performing the network communication W2 is acquired, and the network setting is performed based on this network setting information INF. Then, the mobile terminal 20 supplies the print data DP to the image processing device 10A by performing wireless network communication W2 with the image processing device 10A. Then, the image processing apparatus 10A forms an image on the recording medium based on the print data DP. Hereinafter, a process of establishing a wireless network communication W2 based on the network setting information INF acquired by the short-range wireless communication WNFC and forming an image on a recording medium based on the print data DP supplied by the wireless network communication W2. Is also referred to as "NFC printing".

(Image processing device 10)
FIG. 2 shows a configuration example of the image processing device 10A and the mobile terminal 20. The image processing device 10A includes a wireless network communication unit 11, an IC (Integrated Circuit) tag 12, a fax communication unit 13, a display operation unit 14, an image reading unit 15, an image forming unit 16, and a storage unit 17. , And a control unit 18.

In the infrastructure mode M1, the wireless network communication unit 11 performs wireless network communication W1 with the mobile terminal 20 via the access point 9, and in the access point mode M2, directly wirelessly communicates with the mobile terminal 20. It performs network communication W2. The communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 11 can be set to "enabled" or "disabled" by the control unit 18.

The IC tag 12 stores the network setting information INF supplied from the control unit 18, and reads the network setting information INF by the tag reading unit 22 (described later) of the mobile terminal 20 using the short-range wireless communication WNFC. It is configured so that it can be used. The network setting information INF is setting information for the mobile terminal 20 to establish communication with the image processing device 10A by wireless network communication W2. For example, an IP (Internet Protocol) address, an SSID (Service Set Identifier), and so on. Contains password and security type information. The security type information is, for example, information about settings such as WEP (Wired Equivalent Privacy) and WPA (Wi-Fi Protected Access). The communication function (NFC communication function) of the short-range wireless communication WNFC using the IC tag 12 can be set to "valid" or "invalid" by the control unit 18.

The FAX communication unit 13 transmits and receives FAX data to and from a communication partner via a telephone line.

The display operation unit 14 accepts a user's operation and displays an operating state of the image processing device 10, and is configured by using, for example, a touch panel, various buttons, a liquid crystal display, various indicators, and the like. ..

The image reading unit 15 reads an image formed on the document medium based on an instruction from the image reading control unit 18B (described later) of the control unit 18.

The image forming unit 16 forms an image on a recording medium such as paper based on an instruction from the image forming control unit 18C (described later) of the control unit 18.

The storage unit 17 is configured by using, for example, a non-volatile memory. The storage unit 17 stores the state information 17A and the setting information 17B.

The state information 17A is information about the current operating state of the image processing device 10A. Specifically, the state information 17A provides information on which of a plurality of operating states such as a standby state, an image forming state, an image reading state, and an error state the image processing device 10A is. Includes. The state information 17A is updated based on an instruction from the control unit 18 every time the operating state of the image processing device 10 changes.

The setting information 17B is information about various settings in the image processing device 10A. Specifically, the setting information 17B includes, for example, information about "valid" or "invalid" of the communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 11, and an IC tag. The information about "valid" or "invalid" of the communication function (NFC communication function) of the short-range wireless communication WNFC using 12 is included. This setting information 17B is updated based on an instruction from the control unit 18 when the setting of the image processing device 10A is changed.

In the image processing device 10A, for example, both the wireless LAN communication function and the NFC communication function are set to "enabled". Therefore, the setting information 17B of the image processing device 10A includes information that the wireless LAN communication function is "effective" and information that the NFC communication function is "effective".

The control unit 18 controls the operation of the image processing device 10A. The control unit 18 is configured by using, for example, a CPU (Central Processing Unit), a RAM (Random Access Memory), a non-volatile memory, and the like. The control unit 18 includes an information providing unit 18A, an image reading control unit 18B, and an image formation control unit 18C.

The information providing unit 18A reads the state information 17A and the setting information 17B from the storage unit 17 based on the instruction supplied by the wireless network communication W1 from the mobile terminal 20 using the wireless network communication unit 11, and these state information. The 17A and the setting information 17B are provided to the mobile terminal 20 by the wireless network communication W1 by using the wireless network communication unit 11.

The image reading control unit 18B controls the operation of the image reading unit 15 to read the image formed on the document medium.

The image formation control unit 18C controls the operation of the image formation unit 16 to form an image on the recording medium.

FIG. 3 shows an example of a configuration of the image processing device 10B. The image processing device 10B includes a wireless network communication unit 11, a fax communication unit 13, a display operation unit 14, an image reading unit 15, an image forming unit 16, a storage unit 17, and a control unit 18. There is. That is, unlike the image processing device 10A (FIG. 2), the image processing device 10B does not have the IC tag 12. That is, in this image processing device 10B, the NFC communication function is set to "disabled". Therefore, the setting information 17B stored in the storage unit 17 of the image processing device 10B includes information that the wireless LAN communication function is "valid" and information that the NFC communication function is "invalid". There is.

(Mobile terminal 20)
The mobile terminal 20 has a wireless network communication unit 21, a tag reading unit 22, a telephone communication unit 23, a display operation unit 24, and a control unit 25.

The wireless network communication unit 21 performs wireless network communication W1 with the mobile terminal 20 via the access point 9, or directly performs wireless network communication W2 with the image processing device 10A. The communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 21 can be set to "enabled" or "disabled" by the control unit 25.

The tag reading unit 22 is a reader / writer that performs short-range wireless communication WNFC, and writes information to the IC tag 12 of the image processing device 10A or reads information from the IC tag 12 based on an instruction from the control unit 25. Is. The communication function (NFC communication function) of the short-range wireless communication WNFC using the tag reading unit 22 can be set to "valid" or "invalid" by the control unit 25.

The telephone communication unit 23 performs wireless communication with a communication partner via a base station of a mobile phone.

The display operation unit 24 accepts the user's operation and displays the operating state of the mobile terminal 20, and is configured by using, for example, a touch panel, various buttons, a liquid crystal display, various indicators, and the like.

The control unit 25 controls the operation of the mobile terminal 20. The control unit 25 is configured by using, for example, a CPU, RAM, a non-volatile memory, and the like. The application software 26 is installed on the mobile terminal 20. The application software 26 is stored in the non-volatile memory of the control unit 25. The control unit 25 is configured to be able to execute the application software 26. The application software 26 has an information acquisition unit 26A, a processing unit 26B, and a display control unit 26C.

The information acquisition unit 26A acquires the state information 17A and the setting information 17B from the image processing device 10 by the wireless network communication W1 using the wireless network communication unit 21, and also uses the tag reading unit 22 to perform short-range wireless communication. The network setting information INF is acquired by WNFC.

The processing unit 26B performs a predetermined process based on the program of the application software 26. Specifically, when the application software 26 is started, for example, the processing unit 26B is "effective" in the communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 21. Check if this is the case, and if this wireless LAN communication function is "disabled", enable this wireless LAN communication function. Further, the processing unit 26B confirms whether or not there is an image processing device 10 capable of performing short-range wireless communication WNFC in the vicinity based on the state information 17A and the setting information 17B acquired by the information acquisition unit 26A. Then, when the processing unit 26B has an image processing device 10 capable of performing short-range wireless communication WNFC in the vicinity, the communication function (NFC communication function) of the short-range wireless communication WNFC in the mobile terminal 20 is "effective". If this is "disabled", this NFC communication function is enabled. Then, the processing unit 25B sets the network of the wireless network communication unit 21 based on the network setting information INF acquired by the information acquisition unit 26A, and causes the wireless network communication unit 21 to perform the wireless network communication W2 to print. The data DP is supplied to the image processing device 10.

The display control unit 26C generates image information to be displayed on the display operation unit 24 based on the processing result in the processing unit 26B. Then, the display control unit 26C supplies the generated image information to the display operation unit 24.

Here, the mobile terminal 20 corresponds to a specific example of the "information processing device" in the present invention. The wireless network communication unit 21 corresponds to a specific example of the "first communication unit" in the present invention. The wireless network communication W1 corresponds to a specific example of the "first wireless communication via the first communication path" in the present invention. The access point 9 corresponds to a specific example of the "relay device" in the present invention. The wireless network communication W2 corresponds to a specific example of the "first wireless communication via the second communication path" in the present invention. The tag reading unit 22 corresponds to a specific example of the "second communication unit" in the present invention. The short-range wireless communication WNFC corresponds to a specific example of the "second wireless communication" in the present invention. The application software 26 corresponds to a specific example of "software" in the present invention. The print data DP corresponds to a specific example of "image data" in the present invention. The display operation unit 24 corresponds to a specific example of the "operation unit" in the present invention.

[Operation and action]
Subsequently, the operation and operation of the image processing system 1 of the present embodiment will be described.

(Overview of overall operation)
First, an outline of the overall operation of the image processing system 1 will be described with reference to FIG. When the application software 26 is started, the mobile terminal 20 first confirms whether or not the communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 21 are "enabled". , When this wireless LAN communication function is "disabled", this wireless LAN communication function is "enabled". Then, the mobile terminal 20 communicates with a plurality of image processing devices 10 around the mobile terminal 20 by using the wireless network communication W1 and acquires the state information 17A and the setting information 17B from each of the plurality of image processing devices 10. By doing so, it is confirmed whether or not there is an image processing device 10 capable of performing short-range wireless communication WNFC in the vicinity. Then, when the mobile terminal 20 has an image processing device 10 capable of performing short-range wireless communication WNFC in the vicinity, the communication function (NFC communication function) of the short-range wireless communication WNFC in the mobile terminal 20 is "effective". If the NFC communication function is "disabled", this NFC communication function is enabled. Then, when the user holds the mobile terminal 20 over the image processing device 10 (image processing device 10A in this example) capable of performing short-range wireless communication WNFC, the mobile terminal 20 is connected to the wireless network from the image processing device 10A. The network setting information INF for performing communication W2 is acquired, and the network setting is performed based on this network setting information INF. Then, the mobile terminal 20 supplies the print data DP to the image processing device 10A by performing wireless network communication W2 with the image processing device 10A. Then, the image processing apparatus 10A forms an image on the recording medium based on the print data DP.

(Detailed operation)
FIG. 4 shows an operation example of the mobile terminal 20 when the application software 26 is started by the user operating the mobile terminal 20. The plurality of image processing devices 10 are operating in the infrastructure mode M1. Then, does the mobile terminal 20 have an image processing device 10 capable of performing NFC printing around the mobile terminal 20 by communicating with a plurality of image processing devices 10 around the mobile terminal 20 using the wireless network communication W1? Check if you like. Then, when the mobile terminal 20 has an image processing device 10 capable of performing NFC printing in the vicinity, is the communication function (NFC communication function) of the short-range wireless communication WNFC in the mobile terminal 20 "effective"? Check whether or not, and if the communication function of the short-range wireless communication WNFC is "disabled", enable this communication function. Then, the image processing system 1 performs NFC printing. This operation will be described in detail below.

First, when the control unit 25 activates the application software 26, the display control unit 26C generates image information related to an image indicating that the display operation unit 24 is in operation to be displayed, and image information related to the image after activation. Then, the processing unit 26B confirms whether or not the communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 21 in the mobile terminal 20 are "valid" (step S101). .. If the wireless LAN communication function is "enabled" ("Y" in step S101), the process proceeds to step S103. When the wireless LAN communication function is "invalid" ("N" in step S101), the processing unit 26B sets the wireless LAN communication function to "enabled" (step S102) and proceeds to step S103.

Next, the mobile terminal 20 searches for an operable image processing device 10 around the mobile terminal 20 (step S103). Specifically, the wireless network communication unit 21 communicates with a plurality of image processing devices 10 connected to the same network, so that the information acquisition unit 26A sets the state information 17A from each of the plurality of image processing devices 10. Acquire information 17B. Then, based on the acquired state information 17A, the processing unit 26B confirms, for example, whether or not there is an image processing device 10 whose operating state is not an error state, and thus whether or not there is an operable image processing device 10. To confirm.

Next, the mobile terminal 20 confirms whether or not each of the movable image processing devices 10 around the mobile terminal 20 can perform NFC printing (step S104). Specifically, the processing unit 26B determines whether or not the communication function (NFC communication function) of the short-range wireless communication WNFC using the IC tag 12 is "effective" based on the setting information 17B acquired by the information acquisition unit 26A. By checking, it is confirmed whether or not NFC printing can be performed.

Then, in the mobile terminal 20, the display control unit 26C generates image information based on the processing result of the processing unit 26B in steps S103 and S104, and the display operation unit 24 displays the image based on the image information.

5A and 5B show an example of an image 100 displayed by the display operation unit 24 of the mobile terminal 20, and FIG. 5A shows an image processing device 10 capable of performing NFC printing around the mobile terminal 20. Image 100A is shown in one case, and FIG. 5B shows image 100B in the absence of an image processing device 10 capable of performing NFC printing.

The images 100A and 100B include a list display field 101, a message display field 102, a "printer search" button 103, and a "next" button 104. The list display field 101 is a field for displaying a list of the names of the movable image processing devices 10 around the mobile terminal 20 searched in step S103. The message display field 102 is a field for displaying a message to the user. The "printer search" button 103 is a button operated by the user when instructing a re-search of the movable image processing device 10 around the mobile terminal 20. The "Next" button 104 is a button operated by the user when proceeding to the next.

When there is an image processing device 10 capable of performing NFC printing around the mobile terminal 20, as shown in FIG. 5A, in the list display field 101, a list of the names of the image processing devices 10 that can operate is displayed. In addition to being displayed, an icon 105 is displayed next to the name of the image processing device 10 capable of performing NFC printing among the movable image processing devices 10. In this example, "Printer A", "Printer B", "Printer C", and "Printer D" are listed as operable image processing devices 10. Then, in this example, the icon 105 is displayed next to "Printer D". That is, in this example, the "printer D" is an image processing device 10 capable of performing NFC printing. In this example, the example described in which one image processing device 10 (“printer D”) can perform NFC printing has been described, but when a plurality of image processing devices 10 can perform NFC printing, , The icon 105 is displayed next to the names of the plurality of image processing devices 10.

When there is no image processing device 10 capable of performing NFC printing around the mobile terminal 20, the name of the image processing device 10 that can operate in the list display field 101 is as shown in FIG. 5B. The list is displayed. In this example, "Printer A", "Printer B", and "Printer C" are listed as operable image processing devices 10. In this example, the icon 105 is not displayed because there is no image processing device 10 capable of performing NFC printing.

When there is no image processing device 10 capable of performing NFC printing around the mobile terminal 20 (“N” in step S105), as shown in FIG. 5B, the display operation unit 24 sets the message display field 102. A message indicating that there is no image processing device 10 capable of performing NFC printing around the mobile terminal 20 is displayed (step S106).

Then, when the mobile terminal 20 receives the operation of the "printer search" button 103 by the user (step S107), the mobile terminal 20 returns to step S103, searches again for the operable image processing device 10 in the surroundings, and performs the operable image processing. It is confirmed whether or not the device 10 includes an image processing device 10 capable of performing NFC printing (steps S103 and S104). That is, for example, in consideration of the fact that the operating states of the plurality of image processing devices 10 can change and that the user having the mobile terminal 20 can move, the mobile terminal 20 operates around the mobile terminal 20. The possible image processing device 10 can be searched again.

In this example, the operable image processing device 10 is searched again based on the operation of the "printer search" button 103 by the user, but the present invention is not limited to this. For example, even if the user does not operate the "printer search" button 103, the operable image processing device 10 may be searched again every time a predetermined length of time elapses. Further, when the user operates the display operation unit 24 of the mobile terminal 20 to end the execution of the application software 26, this flow can be ended.

In step S105, when there is an image processing device 10 capable of performing NFC printing (“Y” in step S105), the mobile terminal 20 displays after accepting the operation of the “Next” button 104 by the user. In this example, the control unit 26C generates image information of an image (photo selection image 110) used when selecting a photo to be printed, and the display operation unit 24 displays the photo selection image 110 based on the image information. (Step S108).

FIG. 6 shows an example of the photo selection image 110 displayed by the display operation unit 24 of the mobile terminal 20. The photo selection image 110 includes a thumbnail display field 111, a "print preview" button 112, and a "print" button 113. The thumbnail display field 111 is a field for displaying thumbnails of photo data stored in the mobile terminal 20. The "print preview" button 112 is operated by the user when instructing the display of the so-called print preview. The "print" button 113 is operated by the user when instructing printing. The user selects a photo to be printed by operating the display operation unit 24. Then, the user operates the "print" button 113 in order to indicate the start of printing.

Then, when the mobile terminal 20 receives the operation of the "print" button 113 by the user (step S109), the processing unit 26B generates the print data DP based on the selected photo data. Then, the processing unit 26B confirms whether or not the communication function (NFC communication function) of the short-range wireless communication WNFC using the tag reading unit 22 in the mobile terminal 20 is "effective" (step S110). If the NFC communication function is "enabled" ("Y" in step S110), the process proceeds to step S112. When the NFC communication function is "invalid" ("N" in step S110), the processing unit 26B sets the NFC communication function to "enabled" (step S111). At that time, the mobile terminal 20 may ask the user whether or not the NFC communication function may be "enabled", and may enable the NFC communication function when the user agrees. Then, the process proceeds to step S112.

Then, the image processing system 1 performs NFC printing (step S112).

FIG. 7 shows an operation example of NFC printing in step S112. In FIG. 7, user operations are shown in parentheses.

In NFC printing, the user holds the mobile terminal 20 over an image processing device 10 (image processing device 10A in this example) capable of performing NFC printing, so that the mobile terminal 20 is subjected to an image by short-range wireless communication WNFC. The network setting information INF for performing the wireless network communication W2 is acquired from the processing device 10A, and the network setting is performed based on the network setting information INF to establish the wireless network communication W2 with the image processing device 10A. .. Then, the mobile terminal 20 supplies the print data DP to the image processing device 10A by the wireless network communication W2. Then, the image processing apparatus 10A forms an image on the recording medium based on the print data DP. This operation will be described in detail below.

First, the display operation unit 24 of the mobile terminal 20 displays a message prompting the user to hold the mobile terminal 20 over the IC tag 12 of the image processing device 10A (step S201).

Next, when the user holds the mobile terminal 20 over the IC tag 12 of the image processing device 10A, the tag reading unit 22 of the mobile terminal 20 is networked from the IC tag 12 of the image processing device 10A by the short-range wireless communication WNFC. Read the setting information INF (step S202). As a result, the information acquisition unit 26A of the mobile terminal 20 receives the network setting information INF from the image processing device 10A (step S203). Then, the user removes the mobile terminal 20 from the IC tag 12 of the image processing device 10A.

Next, the processing unit 26B of the mobile terminal 20 temporarily saves the network setting information currently used by the wireless network communication unit 21 (step S204), and sets the network based on the network setting information INF received from the image processing device 10A. (Step S205). Similarly, the control unit 18 of the image processing device 10A temporarily saves the network setting information currently used by the wireless network communication unit 11 (step S206), and network based on the network setting information INF stored in the IC tag. Make the settings (step S207). As a result, the image processing device 10A switches the operation mode from the infrastructure mode M1 to the access point mode M2, and the mobile terminal 20 and the image processing device 10A establish the wireless network communication W2.

Then, the mobile terminal 20 supplies the print data DP to the image processing device 10A by the wireless network communication W2 (step S208). Specifically, the wireless network communication unit 21 of the mobile terminal 20 supplies print data DP to the image processing device 10A by the wireless network communication W2, and the wireless network communication unit 11 of the image processing device 10A prints the print data. Receive data DP.

Next, the image processing apparatus 10A performs an image forming process based on the print data DP (step S209). Specifically, the image forming control unit 18C of the image processing device 10A controls the operation of the image forming unit 16 based on the print data DP received by the wireless network communication unit 11, and the image forming unit 16 forms an image. An image is formed on the recording medium based on the instruction from the control unit 18C.

Then, the processing unit 26B of the mobile terminal 20 performs network setting based on the network setting information saved in step S204 (step S210). Similarly, the control unit 18 of the image processing device 10A performs network setting based on the network setting information saved in step S206 (step S211). As a result, the image processing device 10A switches the operation mode from the access point mode M2 to the infrastructure mode M1, the mobile terminal 20 establishes the wireless network communication W1 with the access point 9, and the image processing device 10A sets the operation mode. Wireless network communication W1 is established with the access point 9.

In this way, NFC printing is completed.

As described above, in the image processing system 1, the mobile terminal 20 uses the wireless network communication W1 to communicate with a plurality of image processing devices 10 around the mobile terminal 20 to perform short-range wireless communication WNFC in the vicinity. Since it is confirmed whether or not there is an image processing device 10 capable of performing the above, the convenience of the user can be improved. That is, for example, when the image processing device 10 does not include the IC tag 12, or when the IC tag 12 is included but the communication function (NFC communication function) of the short-range wireless communication WNFC is set to "disabled". There can be. Therefore, when the user holds the mobile terminal 20 over the image processing device 10 without confirming whether or not the mobile terminal 20 has an image processing device 10 capable of performing short-range wireless communication WNFC, the user Is troublesome because it is understood that the image processing device 10 cannot perform short-range wireless communication WNFC only when the mobile terminal 20 is held up.

On the other hand, in the image processing system 1 according to the present embodiment, the mobile terminal 20 uses the wireless network communication W1 to communicate with a plurality of image processing devices 10 around the mobile terminal 20 so as to be close to the surroundings. It is confirmed whether or not there is an image processing device 10 capable of performing wireless communication WNFC. Therefore, in the image processing system 1, the user can grasp whether or not the surrounding image processing device 10 can perform short-range wireless communication WNFC without holding the mobile terminal 20 over, which is convenient for the user. Can be enhanced.

Further, in the image processing system 1, when there is an image processing device 10 capable of performing short-range wireless communication WNFC around the mobile terminal 20, the communication function (NFC communication function) of the short-range wireless communication WNFC in the mobile terminal 20 is performed. Is "enabled", and if the NFC communication function is "disabled", the NFC communication function is set to "enabled", which can enhance the convenience of the user. That is, if the user is urged to hold the mobile terminal 20 without confirming whether the NFC communication function is "enabled", the user may hold the mobile terminal 20 over the image processing device 10. Since the mobile terminal 20 cannot perform short-range wireless communication WNFC, the user may be confused. Further, in order to avoid this confusion, if the NFC communication function of the mobile terminal 20 is set to "enabled" when the application software is started, for example, a short-range wireless communication WNFC can be performed in the vicinity. Even if the NFC communication function cannot be used without the processing device 10, the NFC communication function becomes "enabled", so that the power consumption of the mobile terminal 20 may increase and the remaining battery level may decrease quickly. be.

On the other hand, in the image processing system 1 according to the present embodiment, when there is an image processing device 10 capable of performing short-range wireless communication WNFC around the mobile terminal 20, the NFC communication function in the mobile terminal 20 is "effective". If the NFC communication function is "disabled", this NFC communication function is enabled. As a result, in the image processing system 1, when there is an image processing device 10 capable of performing short-range wireless communication WNFC around the mobile terminal 20, the NFC communication function is "enabled" and the area is close to the mobile terminal 20. When there is no image processing device 10 capable of performing range wireless communication WNFC, the NFC communication function can be left "disabled", so that the power consumption in the mobile terminal 20 can be suppressed, so that the user can use it. Convenience can be enhanced.

[effect]
As described above, in the present embodiment, the mobile terminal can perform short-range wireless communication in the vicinity of the mobile terminal by communicating with a plurality of image processing devices using the wireless network communication W1. Since it is confirmed whether or not there is a device, the user can grasp whether or not the surrounding image processing device can perform short-range wireless communication without holding the mobile terminal over the user. Convenience can be enhanced.

In the present embodiment, when there is an image processing device capable of performing short-range wireless communication in the vicinity of the mobile terminal, it is confirmed whether or not the NFC communication function in the mobile terminal is "effective", and the NFC communication function is activated. When it is "invalid", this NFC communication function is enabled, so that the power consumption in the mobile terminal can be suppressed, and the convenience of the user can be improved.

[Modification 1]
In the above embodiment, the print data DP is generated based on the photographic data, but the present invention is not limited to this, and the print data DP may be generated based on various document data, image data, and the like.

[Modification 2]
In the above embodiment, the mobile terminal 20 supplies the print data DP to the image processing device 10A, but the present invention is not limited to this. Instead, for example, the image processing device 10A may supply the mobile terminal with the scan data DS generated by reading the image formed on the document medium. The image processing system 2 according to this modification will be described in detail below.

As shown in FIGS. 1 and 2, the image processing system 2 includes a plurality of image processing devices 10 (image processing devices 10A, 10B, 10C, ...), A mobile terminal 30, and an access point 9. The application software 36 is installed on the mobile terminal 30. The application software 36 is stored in the non-volatile memory of the control unit 35. The control unit 35 is configured to be able to execute the application software 36. The application software 36 has a processing unit 36B and a display control unit 36C.

The processing unit 36B performs a predetermined process based on the program of the application software 36, similarly to the processing unit 26B according to the above embodiment. After the wireless network communication W2 is established between the mobile terminal 30 and the image processing device 10A, the processing unit 36B causes the image processing device 10A to perform an image reading operation to generate a scan data DS, and this wireless network communication. W2 receives the scan data DS from the image processing device 10A.

The display control unit 36C generates image information to be displayed on the display operation unit 24 based on the processing result in the processing unit 36B. Then, the display control unit 36C supplies the generated image information to the display operation unit 24.

Hereinafter, the scan data DS generated by establishing the wireless network communication W2 based on the network setting information INF acquired by the short-range wireless communication WNFC and reading the image formed on the manuscript medium in the image processing device 10A is used in this wireless network. The process of supplying the mobile terminal 30 by the communication W2 is also referred to as "NFC scan".

Here, in the mobile terminal 30, the application software 36 corresponds to a specific example of the "software" in the present invention. The scan data DS corresponds to a specific example of "image data" in the present invention.

FIG. 8 shows an operation example of the mobile terminal 30 when the application software 36 is started by the user operating the mobile terminal 30.

First, when the control unit 35 activates the application software 26, the display control unit 36C generates image information related to an image indicating that the display operation unit 24 is in operation to be displayed, and image information related to the image after activation. Then, the processing unit 36B confirms whether or not the communication functions (wireless LAN communication function) of the wireless network communication W1 and W2 using the wireless network communication unit 21 in the mobile terminal 30 are "effective" (step S101). .. If the wireless LAN communication function is "enabled" ("Y" in step S101), the process proceeds to step S103. When the wireless LAN communication function is "invalid" ("N" in step S101), the processing unit 26B sets the wireless LAN communication function to "enabled" (step S102) and proceeds to step S103.

Next, the mobile terminal 30 searches for an operable image processing device 10 around the mobile terminal 30 (step S103).

Next, the mobile terminal 30 confirms whether or not each of the movable image processing devices 10 around the mobile terminal 30 can perform NFC scanning (step S124). Specifically, the processing unit 36B determines whether or not the communication function (NFC communication function) of the short-range wireless communication WNFC using the IC tag 12 is "effective" based on the setting information 17B acquired by the information acquisition unit 26A. By confirming, it is confirmed whether or not the NFC scan can be performed.

When there is no image processing device 10 capable of performing NFC scanning around the mobile terminal 30 (“N” in step S125), the display is the same as in the case of the first embodiment (FIG. 5B). The operation unit 24 displays a message in the message display field 102 indicating that there is no image processing device 10 capable of performing NFC scanning around the mobile terminal 30 (step S126). Then, when the mobile terminal 30 accepts the operation of the "scanner search" button by the user (step S127), the mobile terminal 30 returns to step S103.

In step S125, when there is an image processing device 10 capable of performing NFC scanning (“Y” in step S125), the mobile terminal 30 controls the display after receiving the operation of the “Next” button by the user. The unit 36C generates image information of an image (scan condition setting image) used when setting the scan condition, and the display operation unit 24 displays the scan condition setting image based on the image information (step S128). The user sets scan conditions such as resolution by operating the display operation unit 24. Then, the user operates the "scan" button to indicate the start of scanning.

Then, when the mobile terminal 30 receives the operation of the "scan" button by the user (step S129), the processing unit 36B performs the communication function (NFC) of the short-range wireless communication WNFC using the tag reading unit 22 in the mobile terminal 30. It is confirmed whether or not the communication function) is “valid” (step S110). If the NFC communication function is "enabled" ("Y" in step S110), the process proceeds to step S112. When the NFC communication function is "invalid" ("N" in step S110), the processing unit 36B sets the NFC communication function to "enabled" (step S111) and proceeds to step S122.

Then, the image processing system 2 performs an NFC scan (step S122).

FIG. 9 shows an operation example of the NFC scan in step S122.

First, the display operation unit 24 of the mobile terminal 30 displays a message prompting the user to hold the mobile terminal 30 over the IC tag 12 of the image processing device 10A (step S201).

Next, when the user holds the mobile terminal 30 over the IC tag 12 of the image processing device 10A, the tag reading unit 22 of the mobile terminal 30 is networked from the IC tag 12 of the image processing device 10A by the short-range wireless communication WNFC. Read the setting information INF (step S202). As a result, the information acquisition unit 26A of the mobile terminal 30 receives the network setting information INF from the image processing device 10A (step S203). Then, the user removes the mobile terminal 30 from the IC tag 12 of the image processing device 10A.

Next, the processing unit 36B of the mobile terminal 30 temporarily saves the network setting information currently used by the wireless network communication unit 21 (step S204), and sets the network based on the network setting information INF received from the image processing device 10A. (Step S205). Similarly, the control unit 18 of the image processing device 10A temporarily saves the network setting information currently used by the wireless network communication unit 11 (step S206), and network based on the network setting information INF stored in the IC tag. Make the settings (step S207). As a result, the image processing device 10A switches the operation mode from the infrastructure mode M1 to the access point mode M2, and the mobile terminal 30 and the image processing device 10A establish the wireless network communication W2.

Then, the mobile terminal 30 gives a scan instruction to the image processing device 10A by the wireless network communication W2 (step S228). This scan instruction includes information about the scan conditions set in step S128.

Next, the image processing device 10A performs an image reading process based on the scan instruction (step S229). Specifically, the image reading control unit 18B of the image processing device 10A controls the operation of the image reading unit 15 based on the scan instruction, and the image reading unit 15 controls the operation of the image reading unit 15 based on the instruction from the image reading control unit 18B. Read the image formed on the manuscript medium. As a result, the image reading control unit 18B generates the scan data DS.

Then, the image processing device 10A supplies the scan data DS to the mobile terminal 30 by the wireless network communication W2 (step S230). Specifically, the wireless network communication unit 11 of the image processing device 10A supplies the scan data DS to the mobile terminal 30 by the wireless network communication W2, and the wireless network communication unit 21 of the mobile terminal 30 supplies the scan data. Receive the DS. Then, the display control unit 36C of the mobile terminal 30 generates image information based on the scan data DS, and the display operation unit 24 displays the image acquired by the NFC scan based on the image information.

Then, the processing unit 36B of the mobile terminal 30 sets the network based on the network setting information saved in step S204 (step S210). Similarly, the control unit 18 of the image processing device 10A performs network setting based on the network setting information saved in step S206 (step S211). As a result, the image processing device 10A switches the operation mode from the access point mode M2 to the infrastructure mode M1, the mobile terminal 30 establishes the wireless network communication W1 with the access point 9, and the image processing device 10A sets the operation mode. Wireless network communication W1 is established with the access point 9.

In this example, the image processing system 2 is designed to perform NFC scanning, but the present invention is not limited to this, and NFC printing may also be performed.

Although the present technology has been described above with reference to embodiments and modifications, the present technology is not limited to these embodiments and the like, and various modifications are possible.

For example, in the above-described embodiment, the multifunctional peripheral device is used as the image processing device 10, but the present invention is not limited to this, and instead, for example, a single-function printer is used as the image processing device 10. You may use it.

For example, in the above-described embodiment, the smartphone is used as the mobile terminal 20, but the present invention is not limited to this, and various portable devices such as a tablet terminal and a digital camera are used as the mobile terminal 20. May be good.

1,2 ... Image processing system, 9 ... Access point, 10,10A, 10B, 10C ... Image processing device, 11 ... Wireless network communication unit, 12 ... IC tag, 13 ... FAX communication unit, 14 ... Display operation unit, 15 ... image reading unit, 16 ... image forming unit, 17 ... storage unit, 17A ... state information, 17B ... setting information, 18 ... control unit, 18A ... information providing unit, 18B ... image reading control unit, 18C ... image forming control unit , 20, 30 ... Mobile terminal, 21 ... Wireless network communication unit, 22 ... Tag reading unit, 23 ... Telephone communication unit, 24 ... Display operation unit, 25, 35 ... Control unit, 26, 36 ... Application software, 26A ... Information Acquisition unit, 26B, 36B ... Processing unit, 26C, 36C ... Display control unit, 100A, 100B ... Image, 101 ... List display field, 102 ... Message display field, 103 ... "Printer search" button, 104 ... "Next" Button, 105 ... icon, 111 ... thumbnail display field, 112 ... "print preview" button, 113 ... "print" button, DP ... print data, DS ... scan data, INF ... network setting information, WNFC ... short-range wireless communication, W1, W2 ... Wireless network communication.

Claims (14)

A first communication unit capable of performing a first wireless communication with one or a plurality of image processing devices via a first communication path and a second communication path, and a first communication unit.
A second communication unit capable of performing a second wireless communication and enabling or disabling the communication function,
A control unit that controls the operation of the first communication unit and the second communication unit by executing predetermined software is provided.
By executing the software, the control unit
By causing the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path, the one or more image processing devices can perform the first wireless communication. The first process of checking whether or not the first image processing device capable of communicating by the second wireless communication is included, and
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is used. The second process to enable and
After performing the second processing, the second communication unit is made to perform the second wireless communication with the first image processing device, so that the first image processing device can be used to perform the second wireless communication. A third process of acquiring the network setting information of the first wireless communication via the second communication path and setting the network of the first communication unit based on the network setting information.
Image data is supplied to the first image processing device by causing the first communication unit to perform the first wireless communication with the first image processing device via the second communication path. An information processing device that performs the fourth processing. A first communication unit capable of performing a first wireless communication with one or a plurality of image processing devices via a first communication path and a second communication path, and a first communication unit.
A second communication unit capable of performing a second wireless communication and enabling or disabling the communication function,
A control unit that controls the operation of the first communication unit and the second communication unit by executing predetermined software is provided.
By executing the software, the control unit
By causing the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path, the one or more image processing devices can perform the first wireless communication. The first process of checking whether or not the first image processing device capable of communicating by the second wireless communication is included, and
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is used. The second process to enable and
After performing the second processing, the second communication unit is made to perform the second wireless communication with the first image processing device, so that the first image processing device can be used to perform the second wireless communication. A third process of acquiring the network setting information of the first wireless communication via the second communication path and setting the network of the first communication unit based on the network setting information.
Image data is received from the first image processing device by causing the first communication unit to perform the first wireless communication with the first image processing device via the second communication path. An information processing device that performs the fifth process. The first communication path is a path via a relay device, and is a path via a relay device.
The information processing device according to claim 1 or 2, wherein the second communication path is a path that does not go through the relay device. A first communication unit capable of performing a first wireless communication with one or a plurality of image processing devices via a first communication path and enabling or disabling a communication function, and a first communication unit.
A second communication unit capable of performing a second wireless communication and enabling or disabling the communication function,
A control unit that controls the operation of the first communication unit and the second communication unit by executing predetermined software is provided.
By executing the software, the control unit
By causing the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path, the one or more image processing devices can perform the first wireless communication. The first process of checking whether or not the first image processing device capable of communicating by the second wireless communication is included, and
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is used. The second process to enable and
An information processing device that performs a sixth process of enabling the communication function of the first communication unit when the communication function of the first communication unit is invalid at the time of starting the software. A first communication unit capable of performing a first wireless communication with one or a plurality of image processing devices via a first communication path, and a first communication unit.
A second communication unit capable of performing a second wireless communication and enabling or disabling the communication function,
A control unit that controls the operation of the first communication unit and the second communication unit by executing predetermined software is provided.
By executing the software, the control unit
By causing the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path, the one or more image processing devices can perform the first wireless communication. The first process of checking whether or not the first image processing device capable of communicating by the second wireless communication is included, and
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is used. Perform the second process to enable and
The control unit is an information processing device that intermittently performs the first processing when the one or more image processing devices do not include an image processing device capable of communicating by the second wireless communication. A first communication unit capable of performing a first wireless communication with one or a plurality of image processing devices via a first communication path, and a first communication unit.
A second communication unit capable of performing a second wireless communication and enabling or disabling the communication function,
A control unit that controls the operation of the first communication unit and the second communication unit by executing predetermined software, and
Equipped with an operation unit that accepts user operations
The control unit executes the software based on an instruction from the operation unit.
By causing the first communication unit to perform the first wireless communication with the one or more image processing devices via the first communication path, the one or more image processing devices can perform the first wireless communication. The first process of checking whether or not the first image processing device capable of communicating by the second wireless communication is included, and
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit is invalid, the communication function of the second communication unit is used. An information processing device that performs the second process of enabling. The information processing device according to any one of claims 1 to 6 , wherein the software is stored in the control unit. When the information processing device executes predetermined software, the first communication unit is made to perform the first wireless communication via the first communication path with one or more image processing devices.
Can each of the one or the plurality of image processing devices perform the second wireless communication with the information processing device by performing the first wireless communication with the information processing device via the first communication path? To supply the information processing device with setting information including information about whether or not it is possible.
Based on the setting information, the information processing device examines whether or not the one or more image processing devices include a first image processing device capable of communicating by the second wireless communication.
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit capable of performing the second wireless communication is invalid, the said When the information processing device enables the communication function of the second communication unit,
The information processing device causes the second communication unit to perform the second wireless communication with the first image processing device, so that the second communication path from the first image processing device can be obtained. Acquiring the network setting information of the first wireless communication via the above, and performing the network setting of the first communication unit based on the network setting information.
The first image processing device performs network settings according to the network setting information, and
The information processing device causes the first communication unit to perform the first wireless communication with the first image processing device via the second communication path, thereby performing the first image processing. Information processing methods, including supplying image data to the device. The first image processing apparatus further includes forming an image on a recording medium based on the image data.
The information processing method according to claim 8. When the information processing device executes predetermined software, the first communication unit is made to perform the first wireless communication via the first communication path with one or more image processing devices.
Can each of the one or the plurality of image processing devices perform the second wireless communication with the information processing device by performing the first wireless communication with the information processing device via the first communication path? To supply the information processing device with setting information including information about whether or not it is possible.
Based on the setting information, the information processing device examines whether or not the one or more image processing devices include a first image processing device capable of communicating by the second wireless communication.
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit capable of performing the second wireless communication is invalid, the said When the information processing device enables the communication function of the second communication unit,
The information processing device causes the second communication unit to perform the second wireless communication with the first image processing device, thereby providing a second communication path from the first image processing device. Acquiring the network setting information of the first wireless communication via the network, and performing the network setting of the first communication unit based on the network setting information.
The first image processing device performs network settings according to the network setting information, and
The first image processing device supplies image data to the information processing device by performing the first wireless communication with the information processing device via the second communication path.
The information processing device receives the image data by causing the first communication unit to perform the first wireless communication with the first image processing device via the second communication path. Information processing methods including. The first image processing apparatus includes generating the image data by reading an image from a document medium.
The information processing method according to claim 10. When the information processing device executes predetermined software, the first communication unit is made to perform the first wireless communication via the first communication path with one or more image processing devices.
Can each of the one or the plurality of image processing devices perform the second wireless communication with the information processing device by performing the first wireless communication with the information processing device via the first communication path? To supply the information processing device with setting information including information about whether or not it is possible.
Based on the setting information, the information processing device examines whether or not the one or more image processing devices include a first image processing device capable of communicating by the second wireless communication.
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit capable of performing the second wireless communication is invalid, the said When the information processing device enables the communication function of the second communication unit,
An information processing method including enabling the communication function of the first communication unit when the information processing device disables the communication function of the first communication unit when the software is started. When the information processing device executes predetermined software, the first communication unit is made to perform the first wireless communication via the first communication path with one or more image processing devices.
Can each of the one or the plurality of image processing devices perform the second wireless communication with the information processing device by performing the first wireless communication with the information processing device via the first communication path? To supply the information processing device with setting information including information about whether or not it is possible.
Based on the setting information, the information processing device examines whether or not the one or more image processing devices include a first image processing device capable of communicating by the second wireless communication.
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit capable of performing the second wireless communication is invalid, the said When the information processing device enables the communication function of the second communication unit,
When the one or more image processing devices do not include an image processing device capable of communicating by the second wireless communication, the information processing device may use the one or more image processing devices based on the setting information. An information processing method including intermittently performing a process of checking whether or not the first image processing apparatus is included. The information processing device executes predetermined software based on an instruction from the operation unit that accepts the user's operation, so that the first communication path to the first communication unit is established between the information processing device and the image processing device. To perform the first wireless communication via
Can each of the one or the plurality of image processing devices perform the second wireless communication with the information processing device by performing the first wireless communication with the information processing device via the first communication path? To supply the information processing device with setting information including information about whether or not it is possible.
Based on the setting information, the information processing device examines whether or not the one or more image processing devices include a first image processing device capable of communicating by the second wireless communication.
When the one or more image processing devices include the first image processing device and the communication function of the second communication unit capable of performing the second wireless communication is invalid, the said An information processing method including enabling the communication function of the second communication unit by the information processing device.

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