JP7546633B2 - Printing device, program, and control method - Google Patents

Description

The present invention relates to a communication device and a program.

In recent years, it has become possible for a printer to receive and print images from an external device such as a digital camera or mobile phone by wirelessly communicating between the printer and the external device. In this case, the printer and the external device initially identify each other using short-range wireless communication such as NFC (Near Field Communication). It is also known that the printer then receives the image file to be printed from the external device using faster wireless communication other than the short-range wireless communication.

Printers are also equipped with multiple interfaces, such as wired LAN and wireless LAN, and users can use either interface to print. Conventional printers, even if they have multiple interfaces, typically communicate using only one of the interfaces.

In recent years, a method has been proposed that uses NFC to connect a terminal device and an external device to a common access point to prevent the Internet connection from being disconnected (Patent Document 1).

JP 2011-182449 A

However, while the technique disclosed in Patent Document 1 works well when both the terminal and the device are on the same network and can be connected, if this is not the case, there is a problem in that it is not easy to make processing requests to the terminal (for example, printing).

The present invention has been made in consideration of the above problems, and aims to provide a technology that allows a processing device to identify, with a simple operation, the network being used among multiple network connection means the processing device has, and to send a processing request from a terminal device to the processing device.

In order to solve this problem, for example, a communication device according to the present invention has the following configuration.
A printing device capable of performing short-distance wireless communication and LAN communication capable of communication at a higher speed than the short-distance wireless communication,
An operation panel ;
a first interface used for performing the LAN communication;
a receiving unit for receiving an instruction of an interface to be enabled from a user via the operation panel ;
a change means for changing, when the reception means receives a first user instruction for enabling the first interface, short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the reception of the first user instruction ;
a transmitting means for transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication;
Equipped with.

A program according to the present invention is a program for causing a processor of a printing device to execute short-range wireless communication and LAN communication, which is capable of faster communication than the short-range wireless communication, and has an operation panel and a first interface used for the LAN communication, the program comprising:
a receiving step of receiving an instruction of an interface to be enabled from a user via the operation panel ;
a changing step of changing short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the first user instruction being accepted in the accepting step;
a transmitting step of transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication ;
Execute the command.
A control method of the present invention is a control method for a printing device capable of performing short- range wireless communication and LAN communication capable of faster communication than the short-range wireless communication, the control method including:
a receiving step of receiving an instruction of an interface to be enabled from a user via the operation panel ;
a changing step of changing short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the first user instruction being accepted in the accepting step;
a transmitting step of transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication ;
The present invention is characterized by comprising:

According to the present invention, by simply bringing a terminal device close to a processing device, it becomes possible to identify the network being used from among the multiple network connection means possessed by the processing device, and to send a processing request from the terminal device to the processing device.

FIG. 1 is a diagram showing the configuration of a printing system according to an embodiment. FIG. 2 is a diagram illustrating an external appearance of a terminal device. FIG. 1 illustrates an external appearance of a printing apparatus. FIG. 2 is a block diagram showing the configuration of a terminal device. FIG. 1 is a block diagram showing the configuration of a printing apparatus. FIG. 2 is a block diagram showing the configuration of an NFC unit. FIG. 2 is a diagram showing an NDEF data structure stored in an NFC unit. 11 is a flowchart showing a process of the terminal device. 6 is a flowchart showing a process of the printing device. 10 is a flowchart showing a process of a terminal device according to the second embodiment. 13 is a flowchart showing a printing process according to the fourth embodiment.

The following describes in detail an exemplary embodiment of the present invention with reference to the drawings. However, the relative arrangement of the components, the display screen, and the like described in this embodiment are not intended to limit the scope of the present invention unless otherwise specified.

<System Configuration>
1 is a diagram showing the configuration of a network processing system according to an embodiment. This system is composed of a network 100 as the center, a portable terminal device 200 connectable to the network 100, and a printing device 300 as a processing device that receives and processes a request from the terminal device 200. The terminal device 200, which also functions as a communication device, has at least two or more types of wireless communication units with different communication speeds (or communication ranges). The terminal device 200 may be any type of device that can handle files to be printed, such as a personal information terminal such as a PDA (Personal Digital Assistant), a smartphone, a mobile phone, or a digital camera.

The printing device 300, which also functions as a communication device, has a reading function that optically reads an original placed on a platen, a printing function that prints using a print engine such as an inkjet printer, and may also have a fax function and a telephone function.

The network 100 and the printing device 300 are connected via a wired LAN or a wireless LAN. The network 100 and the terminal device 200 are connected via a wireless LAN. The terminal device 200 and the printing device 300 are capable of communicating via short-range wireless communication. In addition, since both the terminal device 200 and the printing device 300 have wireless LAN functionality, peer-to-peer (hereinafter, P2P) communication is possible by mutual authentication.

Figure 2 is a diagram showing the external appearance of the terminal device 200. In this embodiment, a smartphone is used as an example. A smartphone is a multi-function mobile phone that has a camera, an internet browser, an email function, and the like in addition to the functions of a mobile phone.

The NFC (Near Field Communication) unit 201 is a unit that performs short-distance wireless communication. Communication can be performed by actually bringing the NFC unit 201 close to the NFC unit of the other device (in this embodiment, the NFC unit of the printing device 300) within a predetermined distance (approximately 10 cm).

The wireless LAN unit 202 is a unit for communicating via a wireless LAN, which is faster than NFC communication, and is disposed within the terminal device 200. The display unit 203 is, for example, a display equipped with an LCD-type display mechanism. The operation unit 204 is equipped with a touch panel-type operation mechanism and detects information on user presses. A typical operation method is for the display unit 203 to display button icons or a software keyboard, and for the user to press the operation unit 204 to issue an event that a button has been pressed. The power key 205 is used to turn the power on and off.

Figure 3 is a diagram showing the external appearance of the printing device 300. In this embodiment, a Multi Function Printer (MFP) with a reading function (scanner) is used as an example. In Figure 3 (a), the document table 301 is a transparent glass table on which a document is placed and read by the scanner. The document cover 302 is a cover for preventing reading light from leaking to the outside when reading with the scanner. The print paper insertion port 303 is an insertion port for setting paper of various sizes. Paper set in the print paper insertion port 303 is transported one sheet at a time to the printing section, where it is printed and discharged from the print paper discharge port 304.

Figure 3(b) is a top view of the document cover 302. An operation display unit 305 and an NFC unit 306 are arranged on the top of the document cover 302. The NFC unit 306 is a unit for performing short-range wireless communication, and is actually the location where the terminal device 200 is brought close to the printing device 300. The effective contact distance is a predetermined distance (approximately 10 cm) from the NFC unit 306. The wireless LAN antenna 307 has an antenna embedded therein for communicating via wireless LAN.

Note that short-distance wireless communication refers to wireless communication such as NFC, which has a relatively small communication range (e.g., 1 meter to a few centimeters).

Figure 4 is a block diagram of the terminal device 200. The terminal device 200 has a main board 210 that controls the entire device, a wireless LAN unit 202, an NFC unit 201, a line connection unit 206, a display unit 203, and an operation unit 204. Here, the wireless LAN unit 202, the NFC unit 201, the line connection unit 206, and the priority LAN unit 309 all function as communication units of the terminal device 200.

A microprocessor-type CPU 211 arranged on the main board 210 executes processing according to a control program stored in a program memory 213 in ROM form connected via an internal bus 212 and the contents of a data memory 214 in RAM form.

The CPU 211 controls the wireless LAN unit 202 via the wireless LAN control circuit 215 to communicate with other communication terminal devices via the wireless LAN 102. The CPU 211 controls the NFC unit 201 via the NFC control circuit 216 to detect connections with other NFC terminals via NFC 101 and to transmit and receive data to and from other NFC terminals. The CPU 211 controls the line connection unit 206 via the line control circuit 217 to connect to the mobile phone line network 105 and to make calls and transmit and receive data.

The CPU 211 can receive instructions from the user via the operation unit 204 by controlling the operation unit control circuit 218, and can display various menus, images, and the like on the display unit 203. The CPU 211 can control the camera unit 219 to capture images, and store the captured images in the image memory 220 in the data memory 214. In addition to captured images, it is also possible to store images acquired from the outside via the mobile phone network 105, the wireless LAN 102, or the NFC 101 in the image memory 220, or conversely, to transmit them to the outside.

The non-volatile memory 221 is composed of a memory such as a flash memory, and stores data that is to be kept even after the power is turned off. For example, it stores phone book data, various communication connection information, information on previously connected devices, image data that is to be kept, or programs such as application software that realize various functions on the terminal device 200.

Figure 5 is a block diagram showing the configuration of the printing device 300. The printing device 300 has a main board 310 that controls the entire device, a line connection unit 322, a wireless LAN unit 308, an NFC unit 306, a wired LAN unit 309, and an operation panel 305. Here, the line connection unit 322, the wireless LAN unit 308, the NFC unit 306, and the priority LAN unit 309 function as the communication section of the printing device 300. Note that the wireless LAN is faster than the NFC unit, and the wired LAN can perform even faster communication.

The microprocessor-type CPU 311 arranged on the main board 310 executes processing according to a control program stored in the ROM-type program memory 313 connected via the internal bus 312 and the contents of the RAM-type data memory 314.

The CPU 311 controls the scanner unit 315 to read an original document and store the image in the image memory 316 in the data memory 314. The CPU 311 can also control the printing unit 317 to print the image in the image memory 316 in the data memory 314 onto a recording medium.

The CPU 311 controls the wireless LAN unit 308 via the wireless LAN control circuit 318 to communicate with other communication terminal devices via the wireless LAN 102. The CPU 311 also controls the priority LAN unit 309 via the wired LAN control circuit 329 to communicate with other communication terminal devices via the priority LAN 102. The CPU 311 also controls the NFC unit 306 via the NFC control circuit 319 to detect connections with other NFC terminals via NFC 101 and to transmit and receive data to and from other NFC terminals. The CPU 311 controls the line connection unit 322 via the line control circuit 321 to connect to the telephone line network 323 and transmit and receive faxes and data.

The CPU 311 controls the operation unit control circuit 320 to display the status of the printing device 300 and a function selection menu on the operation panel 305, and can accept operations from the user. For this reason, the operation panel 305 is composed of various switches and buttons, as well as a display with a touch panel.

Figure 6 is a block diagram showing details of the NFC unit 600 used in the NFC unit 201 in the terminal device 200 or the NFC unit 306 in the printing device 300.

In near field communication (NFC communication) using the NFC unit 600, a device that outputs an RF (Radio Frequency) field during communication to start communication is called an initiator. A device that responds to a command issued by the initiator and communicates with the initiator is called a target. The communication modes of the NFC unit include passive mode and active mode.

In passive mode, the target responds to the initiator's commands by performing load modulation. This means that the target does not need to be supplied with power. On the other hand, in active mode, the target responds to the initiator's commands by using an RF field that it emits itself. This means that the target needs to be supplied with power. Active mode also has the advantage of being able to achieve faster communication speeds than passive mode.

Returning to the explanation of FIG. 6, the NFC unit contains an NFC controller section 601, an antenna section 602, an RF section 603, a transmission/reception control section 604, an NFC memory 605, a power supply 606, and a device connection section 607. The antenna section 602 receives radio waves and carriers from other NFC devices, and transmits radio waves and carriers to other NFC devices. The RF section 603 has a function of modulating and demodulating analog signals to digital signals. The RF section 603 has a synthesizer that identifies the frequencies of bands and channels, and controls the bands and channels using frequency allocation data.

The NFC memory 605 is composed of a readable and writable non-volatile memory. Even when power is not being supplied from the power source 606, as long as induced electromotive force is being generated in passive mode, data stored in the NFC memory 605 can be read and written. Data storage control, including reading and writing data to the NFC memory 605, is achieved by the NFC controller unit 601. A state in which power is not being supplied from the power source 606 refers to a state in which the battery of the terminal device 200 is depleted, or a state in which power is not being supplied to the printing device 300.

The transmission/reception control unit 604 controls transmission and reception, such as assembling and disassembling transmission and reception frames, adding and detecting preambles, and identifying frames. The transmission/reception control unit 604 also controls the NFC memory 605, and reads and writes various data and programs. When operating in active mode, power is supplied via the power supply 606. Then, communication is performed with a device (CPU 211 of the terminal device 200 or CPU 311 of the printing device 300) via the device connection unit 607, and communication is performed with other NFC devices within a communication range by a carrier transmitted and received via the antenna unit 602. When operating in passive mode, a carrier is received from another NFC device via the antenna unit 602, power is supplied from the other NFC device by electromagnetic induction, and communication is performed with the other NFC device by modulating the carrier to transmit and receive data. In the following, the operation of bringing the terminal device 200 (NFC unit 201) and the printing device 300 (NFC unit 306) close to each other will be referred to as the "NFC touch operation."

[First embodiment]
In this first embodiment, a use case will be described in which a user operates a terminal device 200 to select an image to be printed, and then performs an NFC touch operation on the printing device 300 to print the selected image.

Figure 8 is a flowchart showing the process when an image specified by the terminal device 200 is printed by the printing device 300. Note that in this application, the flowchart executed by the terminal device 200 is realized by the CPU 211 of the terminal device 200 reading and executing a program related to the flowchart.

First, the user selects image data stored in the image memory 220 in response to an operation from the operation unit 204. Here, it does not matter whether a single image data is selected or multiple image data is selected.

The user performs an operation (NFC touch operation) of bringing the terminal device 200, with an image selected, close to the NFC unit 306 of the printing device 300, which is the target of the processing request. As a result, the terminal device 200 and the printing device 300 transition to the NFC communication mode. Note that the transition to the NFC communication mode may be realized by a user setting it on the operation panel of the printing device 300, for example, or may be realized automatically by the NFC touch operation.

In step S802, the terminal device 200 receives an NDEF message stored in the NFC memory 605 within the NFC unit 306 from the NFC unit 306 of the printing device 300.

The NDEF data structure stored in the NFC unit will be explained using Figure 7. As NDEF data, RecordType indicating what the NDEF message is is stored in "Record 1" of the first NDEF constituting the header portion. Specifically, "Hq (Handover Request)" indicating that it is a message for a handover request, or "Hs (Handover Select)" indicating that it is a response message to a request, etc. are written in Record Type. Note that NDEF data is sometimes called short-range wireless communication information because it is transmitted to the communication partner device by short-range wireless communication.

"Record2" is composed of a RecordType section containing information indicating that this packet is A service setting information and a Payload section containing detailed network setting information. The network information stores parameters related to each communication method. Specifically, the first MAC address of the first unit and the second MAC address of the second unit of the two network interface units (or network interface cards: NICs) possessed by the printing device 300 are stored in the network information. For example, a MAC address for a wired LAN and a MAC address for a wireless LAN are stored in the network information. This enables the terminal device 200 to obtain the MAC address information, which is the physical interface possessed by the printing device 300, from the NDEF message. Note that in this application, an example in which the printing device 300 has two network interface units is shown, but there is no particular limit to this number as long as it is one or more.

The payload section also stores peer-to-peer connection information (hereinafter, "peer-to-peer" will be abbreviated simply as P2P). Specifically, information such as the SSID, encryption method, authentication method, and network key required for P2P connections such as Wi-Fi Direct is stored.

Generally, if the terminal device 200 and the printing device 300 are not connected to the same access point, data communication cannot take place. To avoid this, the terminal device 200 changes the wireless network settings on the terminal device 200 side using the P2P information acquired from the NDEF message of the printing device 300. In this way, peer-to-peer communication is established between the terminal device 200 and the printing device 300, enabling data communication to take place.

After receiving the NDEF message, the terminal device 200 determines in step S803 whether a mode transition command to wait for data reception from the terminal device 200 has been issued to the printing device 300. Information on whether a mode transition command has been issued is stored in the data memory 214 of the terminal device 200. If a mode transition command has not been issued, in step S804, it is confirmed (searched) whether the first MAC address of the NDEF message exists on the same network as the terminal device 200. If the first MAC address exists on the same network, the terminal device 200 can recognize the IP address of the printing device 300 (step S805). For example, ICMP or Multicast DNS is used to recognize the IP address. Then, in step S806, the terminal device 200 issues a mode transition command to wait for data reception to the printing device 300.

Furthermore, if the first MAC address cannot be detected on the network, the terminal device 200 checks in step S810 whether the second MAC address is present on the same network as the terminal device 200. If not detected, the terminal device 200 refers to the P2P information stored in the NDEF message acquired from the NFC unit 201 of the printing device 300 in step S811, and determines whether the communication mode of the terminal device 200 is the same as the wireless LAN setting in the P2P information. As an example of this determination, the terminal device 200 compares the SSID of the access point provided in the printing device 300 with the SSID set in the terminal device 200, and determines whether they are the same.

If the communication mode of the terminal device 200 does not match the P2P information, the terminal device 200 changes the communication mode of the terminal device 200 to match the communication mode of the printing device 300 (step S812). For example, the terminal device 200 sets the SSID of the printing device 300.

In this way, if the printing device 300 has multiple interfaces and only returns interface information for one of them, the device may not be detected. For example, if the wired LAN is enabled but the wireless LAN MAC address is stored in the NDEF message, the terminal device 200 will search for the wireless LAN MAC address on the network. As a result, even if the terminal device 200 and the printing device 300 are on the same network, it will not be possible to search for the printing device 300 that has been touched by NFC. However, by performing the above process, it is possible to properly establish a connection between the terminal device 200 and the printing device 300.

In step S806, the terminal device 200 issues a mode transition command to the printing device 300 to wait for data to be received from the terminal device. After issuing the command, in step S807, the terminal device 200 converts the image data selected by the user into a format that can be printed by the printing device 300, and transmits the converted data as print data to the printing device 300 via the wireless LAN unit 202. Note that just because the terminal device 200 transmits print data to the printing device 300 via the wireless LAN, it does not necessarily mean that the printing device 300 will receive the print data from the terminal device 200 via the wireless LAN. This is because the data may also be received via a wired LAN connected to an access point.

After all print data has been sent, in step S808 the terminal device 200 determines whether to continue sending print data. This determination may be based on a user operation, or on the determination that no operation has been performed for a certain period of time. When printing is to end, in step S809 the terminal device 200 issues a command to the printing device 300 to cancel the data reception wait mode. As a result, the connection between the terminal device 200 and the printing device 300 is released.

Next, the process of the printing device 300 printing an image received from the terminal device 200 will be described with reference to the flowchart in FIG. 9. Note that in this application, the flowchart executed in the printing device 300 is realized by the CPU 311 of the printing device 300 reading and executing a program related to the flowchart.

First, the user brings the terminal device 200 (NFC unit 201) close to the printing device 300 (NFC unit 306). As a result, NFC communication is started by both NFC units, and in step S902, the printing device 300 transfers the NDEF message stored in the NFC memory in the NFC unit 306 of the printing device to the terminal device 200.

When the NDEF message is transferred to the terminal device 200, in step S903, the printing device 300 determines whether it has already received a mode transition command to wait for data reception from the terminal device 200.

If a mode transition command has not been received, in step S904, the printing device 300 determines whether there is an IP protocol level request from the terminal device 200. If there is an IP protocol level request, it can be determined that the terminal device 200 and the printing device 300 are already on the same network, so the printing device 300 waits to receive a mode transition command issued by the terminal device 200 to wait for data reception.

Then, in step S905, the printing device 300 receives a mode transition command from the terminal device 200. Also, if it is determined in step S904 that there is no communication at the IP protocol level, the printing device 300 stores (shelves) the current communication mode of the printing device 300 in the data memory 314 in step S910. Then, in step S911, the printing device 300 changes the communication mode of the printing device 300 to the P2P mode. The terminal device 200 then executes the process of S812, thereby enabling the printing device 300 to be connected to the same network as the terminal device 200. For example, if the printing device 300 is operating in a communication mode in which communication is performed using an external access point, the communication mode is changed from the communication mode in which communication is performed using the access point to the P2P mode in S911.

After the network is established, in step S907, the printing device 300 receives print data from the terminal device 200 and prints it. However, even if the network is established, if no data is sent from the terminal device 200 for a certain period of time in step S906, the printing communication mode is returned to the original in step S909.

After printing, in step S908, the printing device 300 determines whether it has received a command from the terminal device 200 to wait for data reception and to cancel the mode. If the cancel command has been received, and if the printing communication mode was changed in step S909, it is returned to the communication mode immediately before printing using NFC (i.e., the communication mode stored in step S910).

Specific examples of reverting the communication mode are as follows. For example, if the wireless LAN of the printing device 300 is disabled, the wireless LAN disabled state is stored in step S910, printing is performed in P2P mode, and after printing is completed, the wireless LAN state is disconnected and processing ends. In other words, the communication mode of the printing device 300 is changed to the wireless LAN disabled state. Also, if the wireless LAN of the printing device 300 is enabled and on the same network as the terminal device, printing processing is performed with the communication mode unchanged, and after printing is completed, in step S909, the communication mode remains unchanged.

If either or both of the first and second interfaces of the printing device 300 are enabled and are not on the same network as the terminal device, the first and second interface states are stored in step S911. Then, printing is performed in P2P mode, and after printing is completed, the first and second interface states are restored to their original state and processing ends.

In this manner, in this embodiment, the optimal communication method is automatically selected by the NFC touch operation of the terminal device 200, without the user having to switch the current communication mode. If a command to wait for mode release is not sent from the terminal device 200 for a certain period of time in step S908, the passage of time is monitored in step S912, making it possible to return the communication mode to the previous communication mode if a command to wait for mode release is not sent for a certain period of time.

A timer is used to measure the fixed period of time, but the start trigger for the timer may be after printing has finished, or the timer may be started but cleared if the next print process is executed before the fixed period of time has elapsed. Alternatively, the communication mode may be ended by operating the device on the operation panel 305. This makes it possible for the user to execute printing without being aware of the communication mode.

Second Embodiment
In the second embodiment, a use case will also be described in which the user operates the terminal device 200 to select an image to be printed, and then the image is printed.

The difference from the first embodiment is that the interface information acquired by the NFC touch operation includes information indicating a valid MAC address. Below, a user performs an NFC touch operation with the terminal device 200 against the printing device 300. A use case will be described in which the terminal device 200 then acquires the currently active interface information and uses the MAC address of the active interface to print a selected image on the printing device 300. For example, the terminal device 200 can acquire information indicating the MAC address currently active on the printing device 300, of the wired MAC address and wireless MAC address, by the NFC touch operation.

First, the user selects image data in response to an operation from the operation unit 204. Here, multiple image data may be selected.

The user performs an NFC touch operation by bringing the terminal device 200 (NFC unit 201) close to the printing device 300 (NFC unit 306).

As a result, in step S1002, the terminal device 200 receives the NDEF message in the NFC memory 605 in the NFC unit 306 of the printing device 300.

After receiving the NDEF message, the terminal device 200 determines in step S1003 whether a mode transition command to wait for data reception has been issued from the terminal device 200 to the printing device 300. Information on whether a mode transition command has been issued is stored in the data memory 214 of the terminal device 200. If a mode transition command has not been issued, in step S1004, the terminal device 200 obtains interface information of the currently valid state obtained from the NDEF message. For example, S1004 can be achieved by the terminal device 200 obtaining information indicating valid MAC address information from among multiple MAC addresses included in the NDEF message. Incidentally, a valid state refers to a state in which the printing device 300 has established a network connection and is able to obtain an IP address.

In step S1005, the terminal device 200 checks whether the MAC address of the interface in a valid state described in the NDEF message is on the same network as the terminal device 200. If the MAC address is on the same network in step S1006, the terminal device 200 can recognize the IP address of the printing device 300. If the IP address cannot be detected, the terminal device 200 performs steps S1011-1012. Note that the processing of S1011-S1012 is the same as S811-S812, so a detailed description will be omitted. Also, the processing of S1007-S1010 is the same as S806-S809, so a detailed description will be omitted.

This embodiment can prevent device searches using the MAC addresses of disabled interfaces when performing device searches by broadcast using multiple MAC addresses, for example. Therefore, this embodiment can reduce the network communication load.

[Third embodiment]
In the above first embodiment, the MAC address of the first interface and the MAC address of the second interface stored in the NDEF message are sequentially referenced. Priorities may be set for the first interface and the second interface, and information for determining which interface should be preferentially connected may be stored in the NDEF message. The terminal device 200 may detect whether the acquired MAC address exists on the same network based on the priority of the read NDEF message.

In the embodiment, the processing device that communicates with the terminal device 200 is described as a printing device (MFP) 300, but it is not limited to a printing device as long as it is a device that responds to processing requests. For example, it may be a network scanner or network storage.

[Fourth embodiment]
In this embodiment, the process in which the printing device 300 rewrites the information in the NDEF depending on the valid interface will be described with reference to FIG.

The printing device 300 determines whether or not an instruction to select an interface to be enabled has been received from the user using the operation panel 305 (S1101). For example, the printing device 300 receives an instruction to enable either a wired LAN or a wireless LAN. Note that a terminal device 200 capable of communicating with the printing device 300 may issue a selection instruction to select an interface to be enabled. Alternatively, an information processing device capable of communicating with the printing device 300 may issue an instruction to select an interface to be enabled.

If it is determined in S1101 that the instruction has been accepted, the printing device 300 writes the MAC address corresponding to the interface enabled by the user's instruction in the NDEF of the NFC memory 605 of the NFC unit 600 (S1102). In FIG. 7, it is described that the first MAC address of the first unit and the second MAC address of the second unit of the two network interface units (or NICs) that the printing device 300 has are stored in the network information. However, in this embodiment, the printing device 300 writes only the MAC address corresponding to the enabled interface in the network information in FIG. 7. For example, if the wired LAN is enabled by the above instruction, only the MAC address of the wired LAN is written in the network information in FIG. 7. On the other hand, if the enabled interface is changed from the wired LAN to the wireless LAN, the printing device 300 rewrites the network information in FIG. 7 from the MAC address of the wired LAN to the MAC address of the wireless LAN.

The printing device 300 determines whether an NFC touch operation has been received (S1103). If it is determined that an NFC touch operation has been received, the process proceeds to S902 and subsequent steps. On the other hand, if an NFC touch operation has not been received, the process returns to S1101. Note that the process from S902 onwards is the same as in FIG. 9, so a detailed description will be omitted.

By performing the above process, the terminal device 200 can obtain the MAC address of the interface that is enabled on the printing device 300, enabling it to properly connect to the printing device 300.

Other Examples
In this application, NFC has been used as an example of short-distance wireless communication, but other communication methods, such as Bluetooth (registered trademark), may be used. In addition, in this application, a printing device has been used as an example, but a digital camera, music player, or other device other than a printing device may be used.

The present invention can also be realized by executing the following process. That is, software (programs) that realize the functions of the above-described embodiments are 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 and executes the program.

100...Network, 200...Terminal device, 300...Printing device

Claims (31)

A printing device capable of performing short-distance wireless communication and LAN communication capable of communication at a higher speed than the short-distance wireless communication,
An operation panel ;
a first interface used for performing the LAN communication;
a receiving unit for receiving an instruction of an interface to be enabled from a user via the operation panel ;
a change means for changing, when the reception means receives a first user instruction for enabling the first interface, short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the reception of the first user instruction ;
a transmitting means for transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication;
A printing device comprising: The printing device according to claim 1, further comprising a print control means for executing a print process based on print data received via the enabled first interface. The printing device according to claim 2, characterized in that the print control means executes the printing process using an inkjet method. When the short-range wireless communication is performed between the printing device and the communication partner device, and the printing device is connected to a network to which the communication partner device is connected, the printing device receives print data from the communication partner device with which the short-range wireless communication is performed via the network,
A printing device as described in any one of claims 1 to 3, characterized in that when the short-range wireless communication is performed between the printing device and the communication partner device and the printing device is not connected to a network to which the communication partner device is connected, the printing device further comprises a receiving means for receiving print data from the communication partner device via a direct connection between the communication partner device and the printing device established by the printing device executing a communication control process. The printing device according to any one of claims 1 to 4, characterized in that the network information is a MAC address. The printing device according to any one of claims 1 to 5, characterized in that the short-range wireless communication is Near Field Communication (NFC) communication. The printing device according to any one of claims 1 to 6, characterized in that the short-range wireless communication information is NDEF information. The printing device according to any one of claims 1 to 5, characterized in that the short-range wireless communication is Bluetooth communication. The printing device according to any one of claims 1 to 8, characterized in that it is provided with a second interface used for communication at a higher speed than the short-range wireless communication. The printing device according to claim 9, characterized in that the first interface is an interface for wireless communication, and the second interface is an interface for wired communication. The printing device according to claim 10, characterized in that, when the interface enabled by the receiving means is changed from the second interface to the first interface, the changing means changes the short-range wireless communication information from a state in which the network information is included to a state in which the short-range wireless communication information does not include at least a part of the network information. The printing device according to claim 10 or 11, characterized in that the receiving means receives an instruction to select the interface to be enabled from the first interface and the second interface. The printing device according to any one of claims 1 to 12, characterized in that the receiving means receives an instruction to enable the first interface that has been disabled. A printing device as described in any one of claims 1 to 13, characterized in that when the accepting means accepts a second user instruction to change the first interface from an enabled state to an disabled state , the changing means changes the short-range wireless communication information communicated by the short-range wireless communication from second short-range wireless communication information that includes network information corresponding to the first interface to first short-range wireless communication information that does not include network information corresponding to the first interface in response to accepting the second user instruction . A printing device according to any one of claims 1 to 14, characterized in that, in response to the reception means receiving an instruction to enable the first interface, the change means changes the short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information that does not include network information corresponding to the enabled first interface in accordance with the instruction to second short-range wireless communication information that includes network information corresponding to the enabled first interface. A program to be executed by a processor of a printing device capable of performing short-range wireless communication and LAN communication capable of communication at a higher speed than the short-range wireless communication, the printing device having an operation panel and a first interface used for performing the LAN communication, the program comprising:
a receiving step of receiving an instruction of an interface to be enabled from a user via the operation panel ;
a changing step of changing short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the first user instruction being accepted in the accepting step;
a transmitting step of transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication ;
A program for executing. The program according to claim 16, further comprising causing the processor to execute a print control step of executing a print process based on print data received via the enabled first interface. The program according to claim 17, characterized in that in the print control step, the print process is executed by an inkjet method. The processor,
When the short-range wireless communication is performed between the printing device and the communication partner device, and the printing device is connected to a network to which the communication partner device is connected, the printing device receives print data from the communication partner device with which the short-range wireless communication is performed via the network,
The program according to any one of claims 16 to 18, characterized in that when the short-range wireless communication is performed between the printing device and the communication partner device and the printing device is not connected to a network to which the communication partner device is connected, the program further executes a receiving process to receive print data from the communication partner device via a direct connection between the communication partner device and the printing device established by the printing device executing a communication control process. The program according to any one of claims 16 to 19, characterized in that the network information is a MAC address. The program according to any one of claims 16 to 20, characterized in that the short-range wireless communication is Near Field Communication (NFC) communication. The program according to any one of claims 16 to 20, characterized in that the short-range wireless communication information is NDEF information. The program according to any one of claims 16 to 20, characterized in that the short-range wireless communication is Bluetooth communication. The program according to any one of claims 16 to 23, characterized in that the printing device is provided with a second interface used for communication at a higher speed than the short-range wireless communication. The program according to claim 24, characterized in that the first interface is an interface for wireless communication, and the second interface is an interface for wired communication. The program according to claim 25, characterized in that, when the interface enabled by the receiving process is changed from the second interface to the first interface, the changing process changes the short-range wireless communication information from a state in which the network information is included to a state in which the short-range wireless communication information does not include at least a part of the network information. The program according to claim 25 or 26, characterized in that in the receiving step, an instruction to select the interface to be enabled from the first interface and the second interface is received. The program according to any one of claims 16 to 27, characterized in that the receiving step receives an instruction to enable the first interface that has been disabled. The program described in any one of claims 16 to 28, characterized in that when a second user instruction to change the first interface from an enabled state to an disabled state is received in the reception process, the change process changes the short-range wireless communication information communicated by the short-range wireless communication from second short-range wireless communication information that includes network information corresponding to the first interface to first short-range wireless communication information that does not include network information corresponding to the first interface in response to receiving the second user instruction . The program according to any one of claims 16 to 29, characterized in that in response to receiving an instruction to enable the first interface in the receiving step, the changing step changes the short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information that does not include network information corresponding to the enabled first interface in accordance with the instruction to second short-range wireless communication information that includes network information corresponding to the enabled first interface. 1. A method for controlling a printing device capable of performing short-range wireless communication and LAN communication capable of communication at a higher speed than the short-range wireless communication, the printing device having a first interface used for performing the LAN communication with an operation panel , the method comprising the steps of:
a receiving step of receiving an instruction of an interface to be enabled from a user via the operation panel ;
a changing step of changing short-range wireless communication information communicated by the short-range wireless communication from first short-range wireless communication information not including network information corresponding to the first interface to second short-range wireless communication information including network information corresponding to the first interface in response to the first user instruction being accepted in the accepting step;
a transmitting step of transmitting the second short-range wireless communication information to a communication partner device by the short-range wireless communication ;
A control method comprising:

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