JP7271479B2 - IMAGE PROCESSING DEVICE, CONTROL METHOD FOR IMAGE PROCESSING DEVICE, AND PROGRAM - Google Patents

Description

The present disclosure relates to an image processing device, an image processing device control method, and a program .

In recent years, a technique called NFC (Near Field Communication), which is one of short-range wireless communication means, has begun to be implemented in mobile terminals such as smartphones and tablet PCs. The NFC specification defines three functions. The first is a reader/writer function, which can read data from and write data to an NFC card or an NFC tag. The second is a peer-to-peer function, which enables transmission and reception of various data via NFC. The third is a card emulation function, which can perform the same operation as the NFC tag described above.

In the image forming apparatus as well, it is possible to replace the authentication function for controlling whether or not the user is allowed to use the authentication function, which has hitherto been realized using an RFID (Radio Frequency Identification) tag, with NFC. Since NFC can be used in various devices, the data transmitted and received via NFC is of a wide variety, from personal information such as ID information and telephone numbers to device information such as IP addresses. Also, even when the same information (for example, ID information) is transmitted and received between NFC-equipped devices, the ID information is used for the authentication function under certain conditions, but the ID information is registered as user information under other conditions. It is conceivable that it is used for Furthermore, since NFC has a communicable distance of only a few centimeters, it is possible to transmit and receive data between two NFC-equipped devices by an intuitive operation called a touch. Become. As a way to make use of these characteristics, a technique has been developed in which, when a user selects an object displayed on the display in an NFC device equipped with a display, an action associated with the object is transmitted via NFC and executed. ing.

Japanese Patent Publication No. 2009-531888

However, there are devices such as NFC cards that cannot select objects even though they transmit data. Therefore, there is a demand for a mechanism that intuitively controls information when receiving the same information without depending on the configuration of a device that transmits data via NFC.

An object of the present invention is to perform appropriate processing when information about a user is acquired from an external terminal using short-range wireless communication.

Accordingly, an image processing apparatus as one aspect of the present invention is an image processing apparatus having a plurality of functions including at least a saving function of saving document data in a specified saving destination, and is configured to be capable of wireless communication. a communication means for reading identification information stored in the card based on the fact that the card is placed in a predetermined area in which wireless communication can be performed with the image processing apparatus; a display means; a first case in which the card is placed in a communicable area of the communication means while a first operation screen, which is displayed after authentication and is capable of accepting an operation related to the saving function, is displayed; and displaying a second operation screen for setting the storage function on the display means in a state in which a predetermined storage destination corresponding to the identification information obtained by reading the card by the communication means is set. and a control means for executing display control, wherein the control means is capable of receiving an operation related to a function different from the save function , which is displayed on the display means after user authentication. In a second case where the card is arranged in the predetermined area while the operation screen is displayed, the display control is not performed.

According to the present invention, appropriate processing can be executed when information about a user is acquired from an external terminal using short-range wireless communication.

It is a figure which shows an example of a system configuration. 2 illustrates an example hardware configuration of an image forming apparatus; FIG. It is a figure which shows an example of the hardware constitutions of a portable terminal. 3 is a diagram illustrating an example of the hardware configuration of an NFC card; FIG. FIG. 4 is a diagram showing an example of a user authentication screen displayed on the operation unit of the image forming apparatus; FIG. 3 is a diagram showing an example of a main menu screen displayed on the operation unit of the image forming apparatus; FIG. 3 is a diagram showing an example of a copy menu screen displayed on the operation unit of the image forming apparatus; FIG. 3 is a diagram showing an example of a send menu screen displayed on the operation unit of the image forming apparatus; FIG. 4 is a diagram showing an example of a box menu screen displayed on the operation unit of the image forming apparatus; FIG. 4 is a diagram showing an example of a pairing menu screen displayed on the operation unit of the image forming apparatus; It is a figure which shows an example of a local variable. 4 is a flow chart showing an example of information processing of the image forming apparatus according to the first embodiment; 10 is a flow chart showing an example of information processing of the image forming apparatus according to the second embodiment; FIG. 10 is a diagram showing an example of a menu screen for adding NFC device ID information to a destination address used in a send function; FIG. 10 is a diagram showing an example of a menu screen for adding a box associated with NFC device ID information to a save destination box; 10 is a flow chart showing an example of information processing of the image forming apparatus according to Embodiment 3. FIG. FIG. 10 is a diagram showing an example of a menu screen for adding a destination address or a save destination box based on NFC device ID information; 14 is a flowchart showing an example of information processing of the image forming apparatus according to Embodiment 4; FIG. 10 is a diagram showing an example of a menu screen for selecting a destination address, adding a storage destination box, or executing pairing based on NFC device ID information;

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings.

<Embodiment 1>
FIG. 1 is a diagram showing an example of a system configuration.
This system comprises an image forming apparatus 100 , a personal computer 200 , a mobile terminal 300 , an NFC card 400 , a wireless LAN access point 500 and a local area network 600 .
The image forming apparatus 100 has a copy function, a print function, a send function, a box function, etc., and specific processing of each function is as follows.
A copy function copies a paper document.
The print function prints print jobs received via local area network 600 .
The send function (send function) sends digitized document data to a specified address.
The box function (file saving function) saves digitized document data or digitized document data received via the local area network 600 .

Personal computer 200 can transmit a print job to image forming apparatus 100 based on document data via local area network 600, and can refer to document data digitized by image forming apparatus 100. can.
The mobile terminal 300 is a portable information processing terminal having the NFC communication 700 function, the wireless LAN communication 800 function, and the like, and corresponds to a smart phone, a tablet PC, and the like.
The mobile terminal 300 can communicate with the image forming apparatus 100 via NFC communication 700 . Information exchanged between mobile terminal 300 and image forming apparatus 100 includes an IP address, user ID information, and the like. Further, the mobile terminal 300 can print the image data by transmitting the image data in the mobile terminal 300 to the image forming apparatus 100 via the wireless LAN communication 800 . Furthermore, the mobile terminal 300 can refer to the document data digitized by the image forming apparatus 100 via the wireless LAN communication 800 .

The NFC card 400 is a card that transmits user ID information via NFC communication 700 . The image forming apparatus 100 receives user ID information possessed by the NFC card 400 via the NFC communication 700 and performs user authentication based on an authentication database held within the image forming apparatus 100 . Alternatively, a server that holds user ID information may be prepared separately, and image forming apparatus 100 may perform authentication processing in cooperation with the server via local area network 600 .
The wireless LAN access point 500 has a function of enabling communication between the mobile terminal 300 having a wireless LAN interface and devices connected to the local area network 600 .
Although the system configuration using the wireless LAN communication 800 is used in the wireless communication interface in the first embodiment, other wireless communication technology such as Bluetooth (registered trademark) may be used.
A local area network 600 is a network connection implemented by Ethernet (registered trademark) or the like, and the image forming apparatus 100 , personal computer 200 and wireless LAN access point 500 are connected via the local area network 600 .
The mobile terminal 300 and the NFC card 400 are examples of recording media having a wireless communication function. Also, the image forming apparatus 100 is an example of an image processing apparatus.

FIG. 2 is a diagram showing an example of the hardware configuration of the image forming apparatus 100. As shown in FIG.
A CPU 101 is a central processing unit that controls the entire image forming apparatus.
The RAM 102 is a memory that stores programs executed by the CPU 101, and is also a work memory that temporarily stores data used by the CPU 101 for calculation.
A ROM 103 stores a program used to start up the image forming apparatus 100 .
The HDD 104 is a hard disk drive (HDD) that stores programs related to software for controlling the image forming apparatus 100, various settings, saved document data, and the like.
The operation unit 120 is used by the user to control the image forming apparatus 100, and inputs and outputs information between the image forming apparatus 100 and the user. The operation unit 120 includes an LCD, a touch panel, and hardware keys. When the user selects a button displayed on the LCD, the user may touch the displayed button.
The operation unit 120 is an example of a display unit.

An operation unit I/F 105 is an interface for the operation unit 120 and relays input/output data to the operation unit 120 .
The CPU 101 controls the image forming apparatus 100 based on the key information selected by the user and the coordinate information on the touch panel received via the operation unit I/F 105 .
Network I/F 106 is an interface for transmitting and receiving data to and from external devices via local area network 600 .
The NFC control unit 107 performs control for transmitting and receiving data via NFC.
Antenna 108 is an antenna for transmitting and receiving radio waves for performing NFC communication 700 .
The flash ROM 127 is connected to the NFC control unit 107 and used for temporary storage of data handled by the NFC control unit 107 . The image forming apparatus 100 uses the flash ROM 127 to temporarily store data handled by the NFC control unit 107, but is not limited to this, and may be a combination of other non-volatile memory or battery and SRAM.

The power control unit 125 is a unit that controls the power of the image forming apparatus 100, and controls the power according to an instruction from the CPU 101 or the operation of the power switch by the user.
When the CPU 101 detects a state in which no user operation has been received for a certain period of time or a state in which no print job has been received via the local area network 600 for a certain period of time, the CPU 101 controls the power control unit 125 to control unnecessary portions. Stop the power supply. Further, the power control unit 125 can detect a power-off operation using a power switch, and can notify the CPU 101 of the detected result as a power-off request. Upon receiving the power-off request, the CPU 101 shifts the image forming apparatus 100 to a state in which the power can be turned off, and instructs the power control unit 125 to stop the power.
The power supply unit 126 is a power supply that converts AC power to DC power for the image forming apparatus 100 , and turns off/on the conversion operation according to instructions from the power control unit 125 .
The CPU 101 , RAM 102 , ROM 103 , HDD 104 , operation unit I/F 105 , network I/F 106 , NFC control unit 107 and power supply control unit 125 are connected via a system bus 114 .

The image bus I/F 109 is responsible for relaying between the system bus 114 and the image bus 115 connecting each unit in charge of image processing, and conversion of the data structure.
RIP 110 , device I/F 111 , printer image processing section 112 , and scanner image processing section 113 are connected to image bus 115 .
RIP 110 is a raster image processor (RIP) that converts page description language (PDL) code and display lists into bitmap images.
A device I/F 111 is an interface that connects the scanner unit 130 and the printer unit 140 to the image bus 115 . be done.
The device I/F 111 adjusts timing for transmitting image data received from the scanner unit 130 via the scanner bus 116 to the image bus 115 . The device I/F 111 also adjusts the timing for transmitting image data from the image bus 115 to the printer unit 140 via the printer bus 117 .
The scanner unit 130 performs processing such as correction and resolution conversion according to the image forming apparatus 100 on image data generated by the scanner sensor.
The printer unit 140 performs processing such as correction and resolution conversion according to the print engine of the image forming apparatus 100 on image data to be printed out.

FIG. 3 is a diagram showing an example of the hardware configuration of the mobile terminal 300. As shown in FIG.
CPU 301 is a central processing unit that controls mobile terminal 300 as a whole.
A RAM 302 is a memory in which programs executed by the CPU 301 are stored, and is a work memory for temporarily storing data used for calculation by the CPU 301 .
A flash ROM 303 is a flash ROM that stores programs and various data used by the CPU 301 .
The operation unit 304 performs input/output of information between the user and the mobile terminal 300, and is composed of an LCD and a touch panel.
A camera 305 captures still images and moving images.
A wireless LAN I/F 306 is an interface for transmitting and receiving data to and from an external device via the wireless LAN communication 800 .
The NFC control unit 307 performs control for performing NFC communication 700 .
Antenna 308 is an antenna for transmitting and receiving radio waves for performing NFC communication 700 .
The CPU 301, RAM 302, flash ROM 303, operation unit 304, camera 305, wireless LAN I/F 306, and NFC control unit 307 are connected via a system bus 309 and exchange data with each other.

FIG. 4 is a diagram showing an example of the hardware configuration of the NFC card 400. As shown in FIG.
The ROM 402 holds user ID information that the NFC card 400 has. In the NFC card 400, the user ID information is stored in the ROM 402, but the present invention is not limited to this, and a non-volatile memory such as a flash ROM can also be applied. The NFC control unit 401 performs control for performing NFC communication 700 . Antenna 403 is an antenna for transmitting and receiving radio waves for performing NFC communication 700 .
FIG. 5 is a diagram showing an example of a user authentication screen displayed on the operation unit 120 of the image forming apparatus 100. As shown in FIG.
The user authentication screen shown in FIG. 5 is controlled by the CPU 101 based on software programs stored in the RAM 102 or HDD 104 . The same applies to the screens shown below.
User authentication screen 150 is displayed on operation unit 120 of image forming apparatus 100 . The user touches the NFC card 400 to the antenna 108 according to the message displayed on the operation unit 120 . Image forming apparatus 100 performs user authentication based on the user ID information received via NFC communication 700 .

FIG. 6 is a diagram showing an example of a main menu screen displayed on the operation unit 120 of the image forming apparatus 100. As shown in FIG.
When the user ID authentication processing is normally completed from the state of the user authentication screen 150 shown in FIG.
The title 152 of the menu screen is displayed as Main Menu.
The copy button 153 is a button selected by the user when executing the copy function. The send button 154 is a button selected by the user when executing the send function. The box button 155 is a button selected by the user when executing the box function. The pairing button 156 is a button selected by the user when executing the pairing function.

The pairing function connects the image forming apparatus 100 and the mobile terminal 300 via the local area network 600 and wireless LAN communication 800 .
The pairing function is a function of transmitting/receiving the IP address of image forming apparatus 100 to/from mobile terminal 300 via NFC communication 700, and then mobile terminal 300 sets the received IP address as the destination IP address for wireless LAN communication. there is However, the pairing function is not limited to this, and image forming apparatus 100 and mobile terminal 300 connect image forming apparatus 100 and mobile terminal 300 using other wireless communication technologies such as Bluetooth (registered trademark). You may make it perform the setting for doing.
A logout button 157 is a button selected when the user finishes using the image forming apparatus 100 and logs out from the authenticated state. When the user selects the logout button 157, the image forming apparatus 100 in the state of the main menu screen configuration is shifted to the state of the user authentication screen configuration shown in FIG.

FIG. 7 is a diagram showing an example of a copy menu screen displayed on the operation unit 120 of the image forming apparatus 100. As shown in FIG.
When the user selects the copy button 153 from the state of the main menu screen 151 shown in FIG.
A title 152 of the menu screen is displayed as COPY. The copy status display window 161 displays that the copy magnification is the same size, the paper size is A4, and the number of copies is 1, which are the current settings of the copy function. The user can change the copy magnification to any predetermined magnification such as 25, 50, 100, 200 and 400 [%] by selecting the magnification change button 162 . The paper selection button 163 is selected when the user changes the paper size such as A4 or A3 set in the paper feed cassette deck of the image forming apparatus 100 . The sorter button 164 is selected when the user changes the output form of the printed paper document. The user can use the sorter button 164 to change sorting by page or by group, whether or not to perform stapling, and the like. A double-sided button 165 is selected by the user so that a single-sided paper can be copied with double-sided printing, and a double-sided paper can be copied with double-sided printing. The print density adjustment bar 166 allows the user to change the density at the time of copying. Other function buttons 167 are selected by the user to perform functions such as 2-in-1 printing in which two pages are printed on one page, bookbinding printing, copy instructions for different document sizes, single-color printing, image quality adjustment, and area-specified printing. can be instructed. When the user selects the logout button 157, the image forming apparatus 100 in the state of the copy menu screen configuration is shifted to the state of the user authentication screen configuration shown in FIG.

FIG. 8 is a diagram showing an example of a send menu screen displayed on operation unit 120 of image forming apparatus 100. As shown in FIG.
When the user selects the send button 154 from the state of the main menu screen 151 shown in FIG. The send menu screen 170 is used as a setting screen for the user to set the send function such as the destination.
A title 152 of the menu screen is displayed as Send. The address book button 171 is selected when the user designates an address to which electronic document data is to be sent from addresses registered in advance in the image forming apparatus 100 . A new input button 172 is selected when the user directly inputs an address to which electronic document data is to be sent. A send to myself button 173 is selected when the user wants to send the digitized document data to himself. The color mode button 174 is used when the user sets the color mode when creating document data from a paper document using the image forming apparatus 100 . The user can use the color mode button 174 to select an automatic mode in which the image forming apparatus 100 automatically determines based on the paper document, a color setting, a monochrome setting, and the like. The resolution button 175 is used by the user to specify the resolution when creating document data using the image forming apparatus 100 . A paper size button 176 allows the user to specify the paper size of the paper document. The user can use paper size button 176 to select A4, A3, etc. in addition to the automatic size mode automatically determined by image forming apparatus 100 . A double-sided original button 177 allows the user to set whether the paper document is a single-sided original, a double-sided original, or the like. The other function button 178 can instruct functions such as image quality adjustment, density adjustment, and 2-in-1 layout by being selected by the user. When the user selects the logout button 157, the image forming apparatus 100 in the state of the send menu screen configuration is shifted to the state of the user authentication screen configuration shown in FIG.

FIG. 9 is a diagram showing an example of a box menu screen displayed on operation unit 120 of image forming apparatus 100. As shown in FIG.
When the user selects the box button 155 from the state of the main menu screen 151 shown in FIG. The box menu screen 180 is used as a screen for the user to use the box function.
A title 152 of the menu screen is displayed as a box. A new registration button 181 is selected by the user to register a name, access right, association with user ID information, etc. for a box prepared in advance for personal use. A search button 182 can be selected by the user to search by box name, name of document data stored in the box, or the like. A box number 183 indicates a management number of a box prepared in the image forming apparatus 100. 01 and 02 are added in order from 00. The box name 184 indicates the box name registered by the user.

Box usage 185 indicates the capacity used by the box. The box number 00 button 186 indicates the name registered in the box number 00 and the amount of box usage, and can display a list of document data held in the box number 00 when selected by the user. Box number 01 button 187 to box number 05 button 191 are buttons having the same function as box number 00 button 186 corresponding to each box number. The image forming apparatus 100 manages a collection of a certain number of buttons corresponding to each box as a page.
In the box menu screen configuration of FIG. 9, box numbers 00 to 05 are managed as one page. The page number 192 displays the current page number and the total number of pages displayed on the box menu screen 180 . In the box menu screen configuration of FIG. 9, the first page out of ten pages is displayed. The previous page selection button 193 can display the page preceding the page displayed on the box menu screen 180 by being selected by the user. The next page selection button 194 can display a page after the page displayed on the box menu screen 180 by being selected by the user. When the user selects the logout button 157, the image forming apparatus 100 in the state of the box menu screen configuration shifts to the state of the user authentication screen configuration shown in FIG.

FIG. 10 is a diagram showing an example of a pairing menu screen displayed on operation unit 120 of image forming apparatus 100. As shown in FIG.
When the user selects the pairing button 156 from the state of the main menu screen 151 shown in FIG.
A title 152 of the menu screen is displayed as pairing. When performing pairing between the image forming apparatus 100 and the mobile terminal 300 according to the first embodiment, the user operates according to the display of the pairing menu screen 195 . When the user selects the logout button 157, the image forming apparatus 100 in the state of the pairing menu screen configuration shifts to the state of the user authentication screen configuration shown in FIG.

FIG. 11 is a diagram showing an example of local variables.
The local variables shown in FIG. 11 are held in a work area on the RAM 102 and accessed by the CPU 101 based on software programs stored in the RAM 102 or HDD 104 .
A login flag 1001 is a flag that holds the current login state of the image forming apparatus 100 . The CPU 101 holds "1" in the login flag 1001 if the user is logged in, and holds "0" in the login flag 1001 if the user is logged out.
An address 1000 indicates the address of the login flag 1001 on the RAM 102, and the address value is 0xAAAA_B000.

A screen ID variable 1003 is a variable that holds ID information of a screen configuration currently displayed on the operation unit 120 of the image forming apparatus 100 . In the first embodiment, IDs are assigned to all screen configurations. 0x0 is assigned to the ID of the user authentication screen configuration shown in FIG. 0x1 is assigned to the ID of the main menu screen configuration shown in FIG. 0x2 is assigned to the ID of the copy menu screen configuration shown in FIG. 0x3 is assigned to the ID of the send menu screen configuration shown in FIG. 0x4 is assigned to the ID of the box menu screen configuration shown in FIG. 0x5 is assigned to the ID of the pairing menu screen configuration shown in FIG. When the currently displayed screen configuration is the send menu screen configuration, the CPU 101 holds 0x3 in the screen ID variable 1003 and updates the screen ID variable 1003 each time the screen configuration is changed.
The screen ID variable is an example of state information of the image processing device.
An address 1002 indicates the address of the screen ID variable 1003 on the RAM 102, and the address value is 0xAAAA_B004. Although the local variables in the first embodiment are composed of 32 [bits], they are not limited to this. Address values assigned to local variables, flag values assigned to respective states, IDs, and the like can also be set to optimum values for the system.

FIG. 12 is a flowchart showing an example of information processing of the image forming apparatus 100 according to the first embodiment.
After the image forming apparatus 100 is powered on, the CPU 101 executes the program stored in the ROM 103 . As a result, the CPU 101 executes processing based on the software program stored in the HDD 104 expanded in the RAM 102, thereby realizing the processing of the following flowchart. The same applies to the following flowcharts.
CPU 101 initializes each module in image forming apparatus 100 (step S100). More specifically, the CPU 101 cancels the hardware reset of each module, sets various threshold values, and secures and initializes local variables shown in FIG. 11 on the RAM 102 .
The CPU 101 sets the NFC control unit 107 to start the NFC communication 700 (step S101). In setting for the NFC communication 700 in the first embodiment, the CPU 101 sets the NFC operation mode to P2P (peer-to-peer) and initiator, thereby realizing the NFC communication 700 with the mobile terminal 300 . Further, the CPU 101 implements NFC communication 700 with an NFC card 400 such as a Mifare (registered trademark) card or FeliCa (registered trademark) card by setting the NFC operation mode to reader/writer and initiator. The CPU 101 realizes NFC communication 700 with the mobile terminal 300 and the NFC card 400 by switching between these two operation modes at regular intervals.
The CPU 101 clears the timer value for timeout detection (step S102).

Subsequently, the CPU 101 starts counting a timeout detection timer (step S103). The timer processing in the first embodiment counts up, but is not limited to this.
The CPU 101 instructs the NFC control unit 107 to send data called a polling request. NFC control unit 107 transmits a polling request via antenna 108 . When the mobile terminal 300 or the NFC card 400 is present in a space where radio waves from the NFC communication 700 reach, the NFC control unit 107 receives data called a response via the antenna 108 . The NFC control unit 107 in Embodiment 1 attempts to receive user ID information from the NFC card 400 based on the protocol defined as NFC communication 700 (step S104). The CPU 101 can confirm the state of the NFC communication 700 from the NFC control unit 107 .
When user ID information cannot be received from NFC card 400 (No in step S104), CPU 101 compares the timer value with a preset threshold value (step S105).
When the timer value exceeds the threshold value (Yes in step S105), CPU 101 determines that image forming apparatus 100 has not been operated for a certain period of time, and turns off the power supply to reduce power consumption of image forming apparatus 100. is prepared to be turned off (step S106). More specifically, part of the data held in the RAM 102 is moved to the HDD 104 based on instructions from the CPU 101 .
The CPU 101 instructs the power control unit 125 to turn off the power of the image forming apparatus 100 . The power supply control unit 125 turns off the AC/DC conversion of the power supply unit 126 (step S107).

On the other hand, if the timer value does not exceed the threshold value (No in step S105), CPU 101 continues to instruct NFC control unit 107 to perform NFC communication 700 (step S104).
When the NFC control unit 107 receives the user ID information (Yes in step S104), the CPU 101 stops the timer counting process and clears the timer value (step S108).
The CPU 101 authenticates the received user ID information based on the authentication database held in the image forming apparatus 100 (step S109). The CPU 101 performs control to display the main menu screen configuration shown in FIG. 6 on the operation unit 120 when the user authentication processing is normally completed.
Also, the CPU 101 holds “1” in the login flag 1001 . The CPU 101 holds 0x1 indicating the ID of the main menu screen configuration in the screen ID variable (step S110).
The CPU 101 starts counting of the timer (step S111).

The CPU 101 detects user operations via the touch panel and hardware keys (step S112).
If a user operation is detected (Yes in step S112), the CPU 101 stops the timer counting process and clears the timer value (step S113).
The CPU 101 holds the screen configuration ID based on the user's operation in the screen ID variable (step S114).
CPU 101 executes the function of image forming apparatus 100 based on the user's operation (step S115).
On the other hand, if no user operation is detected (No in step S112), CPU 101 instructs NFC control unit 107 to perform NFC communication 700 (step S116). Through the NFC communication 700 , ID information of the mobile terminal 300 is acquired when the device on the other end is the mobile terminal 300 , and user ID information is acquired when the device on the other end is the NFC card 400 . Hereinafter, in the processing of the image forming apparatus 100, the ID information of the mobile terminal 300 and the user ID information of the NFC card 400 are collectively referred to as NFC device ID information.
If the NFC device ID information has not been received (No in step S116), CPU 101 again detects a user operation via the touch panel and hardware keys (step S112).

On the other hand, when the NFC device ID information is received (Yes in step S116), the CPU 101 stops the timer counting process and clears the timer value (step S117).
The CPU 101 refers to the value held in the screen ID variable and compares it with the ID of the send menu screen configuration (step S118).
If the ID held in the screen ID variable matches the ID of the send menu screen configuration (Yes in step S118), CPU 101 adds the received NFC device ID information to the destination address (destination) used in the send function. (Step S119). The image forming apparatus 100 according to the first embodiment executes the send function to the address registered as the destination address. Subsequently, the CPU 101 starts counting the timer (step S111).
On the other hand, if the ID held in the screen ID variable does not match the ID of the send menu screen configuration (No in step S118), the CPU 101 compares the ID saved in the screen ID variable with the ID of the box menu screen configuration. (Step S120).
If the ID held in the screen ID variable matches the ID of the box menu configuration (Yes in step S120), CPU 101 adds the box associated with the received NFC device ID information to the storage destination box (step S121). . The image forming apparatus 100 according to the first embodiment saves digitized document data in a box registered as a save destination box. Subsequently, the CPU 101 starts counting the timer (step S111).

On the other hand, if the ID held in the screen ID variable does not match the ID of the box menu screen configuration (No in step S120), the CPU 101 compares the ID saved in the screen ID variable with the ID of the pairing menu screen configuration. (Step S122).
If the ID held in the screen ID variable matches the ID in the pairing menu configuration (Yes in step S122), CPU 101 transmits the IP address set in image forming apparatus 100 to portable terminal 300 (step S123). Subsequently, the CPU 101 starts counting the timer (step S111).
On the other hand, if the ID held in the screen ID variable does not match the ID of the pairing menu screen configuration (No in step S122), CPU 101 executes logout processing (step S124). More specifically, the CPU 101 discards data such as settings based on the user who is currently using the image forming apparatus 100, holds "0" in the login flag 1001, and performs user authentication processing next time. Control. Subsequently, the CPU 101 performs authentication processing based on the newly received NFC device ID information based on the authentication database held in the image forming apparatus 100 (step S109).
Although the NFC communication 700 is used in the processing related to the flowchart of the image forming apparatus 100 in the first embodiment, it is not limited to this, and a short-range wireless communication means such as RFID (Radio Frequency Identification) may be used. The same applies to the following embodiments.

As described above, according to the present embodiment, the CPU 101 holds the state of the device (for example, the screen configuration of the UI menu), and changes the handling of received information according to the state of the device at the timing of executing NFC communication. can realize intuitive operation.

<Embodiment 2>
The image forming apparatus 100 according to the second embodiment differs from the image forming apparatus 100 according to the first embodiment in processing when executing NFC communication 700 with the NFC card 400 .
FIG. 13 is a flow chart showing an example of information processing of the image forming apparatus 100 according to the second embodiment. A description of the same information processing of the image forming apparatus 100 according to the first embodiment shown in FIG. 12 will be omitted.
If the NFC device ID information has been received (Yes in step S116), CPU 101 stops the timer counting process and clears the timer value (step S117).
The CPU 101 refers to the value held in the screen ID variable and compares it with the ID of the send menu screen configuration (step S118).
If the ID held in the screen ID variable matches the ID of the send menu screen configuration (Yes in step S118), CPU 101 executes the following processing. That is, the CPU
101 displays a menu for adding the received NFC device ID information to the destination address used in the send function (step S150).
The CPU 101 detects user operations via the touch panel (steps S151 and S152).

If no user operation via the touch panel is detected (No in step S151 and No in step S152), CPU 101 executes the following process. That is, the CPU 101 displays a menu for adding the NFC device ID information to the destination address used in the send function (step S150).
If the user selects logout (Yes in step S152), CPU 101 executes logout processing (step S124).
On the other hand, if the user selects to add a destination address (Yes in step S151), CPU 101 adds the received NFC device ID information to the destination address used in the send function (step S119).
On the other hand, if the ID held in the screen ID variable does not match the ID of the send menu screen configuration (No in step S118), the CPU 101 compares the ID saved in the screen ID variable with the ID of the box menu screen configuration ( step S120).
If the ID held in the screen ID variable matches the ID of the box menu configuration (Yes in step S120), CPU 101 executes the following processing. That is, the CPU 101 displays a menu for adding the box associated with the received NFC device ID information to the save destination box (step S153).

The CPU 101 detects a user operation via the touch panel (steps S154 and S155).
If no user operation via the touch panel is detected (No in step S154 and No in step S155), CPU 101 executes the following process. That is, the CPU 101 displays a menu for adding the box associated with the received NFC device ID information to the save destination box (step S153).
If the user selects logout (Yes in step S155), CPU 101 executes logout processing (step S124).
On the other hand, if the user selects to add a storage destination box (Yes in step S154), CPU 101 adds a box associated with the received NFC device ID information to the storage destination box (step S121). The image forming apparatus 100 according to the second embodiment saves electronic document data in a box registered as a save destination box.

FIG. 14 is a diagram showing an example of a menu screen for adding the NFC device ID information displayed on the operation unit 120 of the image forming apparatus 100 according to the second embodiment to the destination address used in the send function.
Received ID 1101 displays NFC device ID information received via NFC communication 700 . An add to destination address button 1102 is for instructing addition of the received NFC device ID information as a destination address to be used in the send function. A logout button 1103 is for instructing execution of logout processing.
FIG. 15 is a diagram showing an example of a menu screen for adding a box associated with the NFC device ID information to the save destination box displayed on the operation unit 120 of the image forming apparatus 100 according to the second embodiment.
Received ID 1111 displays the NFC device ID information received via NFC communication 700 . The add to storage destination box button 1112 is for instructing addition of a box associated with the received NFC device ID information as a storage destination box. A logout button 1113 is for instructing execution of logout processing.

As described above, according to the present embodiment, the CPU 101 holds the state of the device (for example, the screen configuration of the UI menu), and changes the handling of the received information according to the state of the device at the timing of executing the NFC communication. screen is displayed to confirm. Then, the CPU 101 changes the handling of the received information based on option information such as buttons selected by the user via the screen. That is, the CPU 101 changes the handling of the received information based on the state of the device at the timing of executing the NFC communication and the option information selected by the user via the screen. As a result, an intuitive operation for the user can be realized while the user confirms the operation.

<Embodiment 3>
The image forming apparatus 100 according to the third embodiment differs from the image forming apparatuses 100 according to the first and second embodiments in the processing when executing the NFC communication 700 with the NFC card 400 .
FIG. 16 is a flow chart showing an example of information processing of the image forming apparatus 100 according to the third embodiment. A description of the same information processing of the image forming apparatus 100 according to the first embodiment shown in FIG. 12 will be omitted.
If the NFC device ID information has been received (Yes in step S116), CPU 101 stops the timer counting process and clears the timer value (step S117).
If the ID held in the screen ID variable does not match the ID of the send menu screen configuration, box menu screen configuration, and pairing menu screen configuration, CPU 101 executes the following processing. That is, if No in step S118, No in step S120, and No in step S122, the CPU 101 executes the following process. CPU 101 displays a menu for selecting how to handle the received NFC device ID information (step S160).
The CPU 101 detects a user operation via the touch panel (steps S161, S162, S163).

If a user operation via the touch panel is not detected (No in step S161, No in step S162, and No in step S163), CPU 101 executes the following process. That is, the CPU 101 displays a menu for selecting how to handle the received NFC device ID information (step S160).
If the user selects to add a destination address (Yes in step S161), CPU 101 adds the received NFC device ID information to the destination address used in the send function (step S119).
If the user does not select to add a destination address (No at step S161) and selects to add a save destination box (Yes at step S162), CPU 101 executes the following process. That is, the CPU 101 adds the box associated with the received NFC device ID information to the storage destination box (step S121).
When the user does not select to add a destination address, the user does not select to add a storage destination box, and the user selects to log out, the CPU 101 executes the following processing. That is, the CPU 101 executes the following process when No in step S161, No in step S162, and Yes in step S163. CPU 101 executes a logout process (step S124).

FIG. 17 shows an example of a menu screen for adding a destination address or a save destination box based on the NFC device ID information displayed on the operation unit 120 of the image forming apparatus 100 according to the third embodiment.
Received ID 1121 displays the NFC device ID information received via NFC communication 700 . The add to destination address button 1122 is for instructing addition of the received NFC device ID information as a destination address to be used in the send function. The add to storage destination box button 1123 is for instructing addition of a box associated with the received NFC device ID information as a storage destination box. A logout button 1124 is for instructing execution of logout processing.

As described above, according to the present embodiment, the CPU 101 holds the state of the device (for example, the screen configuration of the UI menu), and changes the handling of received information according to the state of the device at the timing of executing NFC communication. can realize intuitive operation.
In addition, even if the state of the device at the timing of executing the NFC communication is not the state set in advance, the CPU 101 displays a screen for changing the handling of the received information under predetermined conditions, and asks for confirmation. conduct. Then, the CPU 101 changes the handling of the received information based on option information such as buttons selected by the user via the screen.
This makes it possible to realize an intuitive operation for the user.

<Embodiment 4>
The image forming apparatus 100 according to the fourth embodiment differs from the image forming apparatuses 100 according to the first, second, and third embodiments in the processing when executing the NFC communication 700 with the NFC card 400 .
FIG. 18 is a flowchart showing an example of information processing of the image forming apparatus 100 according to the fourth embodiment. A description of the same information processing of the image forming apparatus 100 according to the first embodiment shown in FIG. 12 will be omitted.
If the NFC device ID information has been received (Yes in step S116), CPU 101 stops the timer counting process and clears the timer value (step S117).
Subsequently, CPU 101 displays a menu for selecting how to handle the received NFC device ID information (step S170).

The CPU 101 detects a user operation via the touch panel (steps S171, S172, S173, S174).
When a user operation via the touch panel is not detected (No in step S171, No in step S172, No in step S173, and No in step S174), CPU 101 executes the following process. That is, the CPU 101 displays a menu for selecting how to handle the received NFC device ID information (step S170).
If the user selects to add a destination address (Yes in step S171), CPU 101 adds the received NFC device ID information to the destination address used in the send function (step S119).
If the user does not select to add a destination address (No at step S171) and selects to add a save destination box (Yes at step S172), CPU 101 executes the following process. That is, the CPU 101 adds the box associated with the received NFC device ID information to the storage destination box (step S121).

When the user does not select to add a destination address, the user does not select to add a storage destination box, and the user selects to execute pairing, CPU 101 executes the following process. That is, the CPU 101 executes the following process when No in step S171, No in step S172, and Yes in step S173. CPU 101 transmits the IP address set in image forming apparatus 100 to portable terminal 300 (step S123).
When the user does not select to add a destination address, the user does not select to add a storage destination box, the user does not select to execute pairing, and the user selects to log out, CPU 101 does the following: That is, when No in step S171, No in step S172, No in step S173, and Yes in step S174, the CPU 101 executes the following process. CPU 101 executes a logout process (step S124).

FIG. 19 shows an example of a menu screen for selecting addition of a transmission destination address and a storage destination box, or execution of pairing based on the NFC device ID information displayed on the operation unit 120 of the image forming apparatus 100 according to the fourth embodiment. FIG. 4 is a diagram showing;
Received ID 1131 displays the NFC device ID information received via NFC communication 700 . The add to destination address button 1132 is for instructing addition of the received NFC device ID information as a destination address to be used in the send function. The add to storage destination box button 1133 instructs addition of a box associated with the received NFC device ID information as a storage destination box. A execute pairing button 1134 transmits the IP address set in the image forming apparatus 100 to the mobile terminal 300 . A logout button 1135 is for instructing execution of logout processing.

As described above, according to the present embodiment, the CPU 101 changes the handling of received information based on option information such as buttons selected by the user via the screen.
This makes it possible to realize an intuitive operation for the user.

<Other embodiments>
The present invention is also realized by executing the following processing. That is, the software (program) that realizes the functions of the above-described embodiments is supplied to a system or device via a network or various storage media, and the computer (or CPU, MPU, etc.) of the system or device reads the program. This is the process to be executed.

As described above, according to each of the above-described embodiments, the image forming apparatus 100 determines how to handle the NFC device ID information acquired via wireless communication according to the value of the screen ID variable when wireless communication is performed. control to By doing so, it is possible to intuitively control the information when receiving the same information without depending on the communication device.

Although the preferred embodiments of the present invention have been described in detail above, the present invention is not limited to such specific embodiments, and various modifications can be made within the scope of the gist of the invention described in the claims.・Changes are possible.

Claims (14)

An image processing apparatus having a plurality of functions including at least a saving function for saving document data in a specified saving destination,
communication means for reading identification information stored in a card configured to be capable of wireless communication when the card is placed in a predetermined area in which wireless communication can be performed with the image processing apparatus;
display means;
The card is placed in the communicable area of the communication means while the display means displays a first operation screen that is displayed after user authentication and allows an operation related to a saving function to be accepted. In the first case, the second operation screen for setting the storage function is displayed in a state in which a predetermined storage destination corresponding to the identification information obtained by reading the card by the communication means is set. a control means for executing display control for displaying on the display means;
has
The control means controls the display means to display a third operation screen, which is displayed after user authentication and is capable of accepting an operation related to a function different from the saving function, while the card is displayed on the display means. The image processing apparatus, wherein the display control is not performed in the second case where the image is arranged in the predetermined area. The control means varies whether or not to execute the display control when the card is placed in the predetermined area according to the displayed operation screen,
The control means sets setting information corresponding to the identification information in the second case where the card is placed in the communicable area of the communication means while the third operation screen is displayed. 2. The image processing apparatus according to claim 1, wherein display control for displaying the displayed operation screen is not executed. The first operation screen is an operation screen for setting the saving function, which is displayed on the display means when a user operation to use the saving function is accepted, and the predetermined saving destination is set. 3. The image processing apparatus according to claim 1, wherein the operation screen is in a non-activated state. When the card is placed in the communicable area of the communication means while the display means displays a fourth screen displayed when the user is unauthenticated, the control means displays the card. An attempt is made to authenticate a user corresponding to the identification information obtained by reading, and if the authentication succeeds, control is executed to provide the successfully authenticated user with a function that is not provided when the user is unauthenticated. 2. The image processing apparatus according to claim 1, wherein: The control means changes the image processing device to a user unauthenticated state when the card is placed in the communication area of the communication means while the third operation screen is displayed. 5. The image processing apparatus according to any one of claims 1 to 4, wherein the image processing apparatus executes control. 6. The image processing apparatus according to claim 1, wherein the third operation screen is a selection screen for selecting a function to be used from among the plurality of functions. 7. The image processing apparatus according to claim 1, wherein said predetermined storage destination is a storage destination associated with said identification information obtained by reading said card. The card includes at least an NFC card supporting wireless communication based on the Mifare (registered trademark) wireless communication standard or an NFC card supporting wireless communication based on the FeliCa (registered trademark) wireless communication standard. The image processing apparatus according to any one of claims 1 to 7. When a fifth operation screen for setting a function different from the saving function among the plurality of functions is displayed, the control means controls the operation screen displayed after login. According to the reading of the card, control is performed to display a sixth setting screen in which predetermined setting information regarding the different functions is set according to the identification information obtained by reading the card. The image processing apparatus according to any one of claims 1 to 5. 10. The apparatus according to any one of claims 1 to 9, wherein said communication means operates in a reader/writer mode for reading/writing information from/to a card arranged in said communicable area and configured to be capable of wireless communication. The described image processing device. 11. An image processing apparatus according to claim 10, wherein said communication means is operable in a peer-to-peer mode for two-way communication with an external terminal. The communication means performs the operation in the reader/writer mode and the operation in the peer-to-peer mode using a time-sharing method, thereby performing communication with the IC card in the reader/writer mode and communication with the external device in the peer-to-peer mode. 12. The image processing apparatus according to claim 11, wherein two-way communication is performed between the two. A control method for an image processing device having a plurality of functions including at least a saving function for saving document data in a designated saving destination,
The image processing device is
communication means for reading identification information stored in a card configured to be capable of wireless communication when the card is placed in a predetermined area in which wireless communication can be performed with the image processing apparatus;
display means;
has
The card is placed in the communicable area of the communication means while the display means displays a first operation screen that is displayed after user authentication and allows an operation related to a saving function to be accepted. In the first case, the second operation screen for setting the storage function is displayed in a state in which a predetermined storage destination corresponding to the identification information obtained by reading the card by the communication means is set. Having a control step of executing display control to display on the display means,
In the control step, while the display means displays a third operation screen which is displayed after user authentication and is capable of accepting an operation related to a function different from the save function , the card is A control method for an image processing apparatus, wherein the display control is not performed in the second case where the image is arranged in the predetermined area. A program for causing a computer to execute the image processing apparatus control method according to claim 13 .

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