JP6515705B2 - INFORMATION PROCESSING APPARATUS, INFORMATION PROCESSING SYSTEM, INFORMATION PROCESSING METHOD, AND PROGRAM - Google Patents

Description

  The present invention relates to a technology suitable for wireless connection between a portable terminal and a device.

When a portable terminal or the like transmits a request for print processing or the like to the image processing apparatus, the portable terminal needs to recognize connection information such as an IP address of the image processing apparatus in advance.
When the image processing apparatus is used by a user who holds the mobile terminal for the first time, the mobile terminal may not store connection information of the image processing apparatus in advance, and the user who holds the mobile terminal has an IP address for the mobile terminal. An operation such as inputting is required.

  On the other hand, when the portable terminal is connected to the image processing apparatus, the connection information from the image processing apparatus according to a wireless communication method that does not require connection information such as infrared communication or near field communication (NFC). A technique is known that transmits a request for print processing to an image processing apparatus via a network without connecting the user by inputting the connection information by receiving the connection information and using the received connection information. There is.

  According to Patent Document 1, the device detects a signal transmitted by the mobile terminal, and the detected signal detects whether the mobile terminal has entered a predetermined range, and the mobile terminal remains outside the predetermined range. In this case, there is disclosed a technique of setting a standby state without starting image formation, and canceling the standby state when it is detected that the portable terminal has come within a predetermined range.

  Furthermore, by using a low power wireless communication method such as BLE (Bluetooth (registered trademark) Low Energy) as a wireless communication method replacing infrared communication or NFC, for example, a signal from a device equipped with the communication method is always transmitted There is known a technique of transmitting and notifying information to a terminal such as a portable terminal that has approached the device.

  The portable terminal has entered the predetermined range of the image forming apparatus when it is detected that the intensity of the signal transmitted from the image processing apparatus exceeds the predetermined threshold value by the wireless communication method such as BLE described above It is possible to determine connection information with the image processing apparatus from the signal received from the portable terminal and to connect to the image forming apparatus based on the connection information.

  However, since the transmission strength of the signal varies depending on the portable terminal, if the same threshold is provided for all the portable terminals, the distance from the image processing apparatus at the time of starting connection is different for each portable terminal. It will Therefore, even if the user does not bring the portable terminal close to the image forming apparatus, the connection between the two is made, or even if the portable terminal is brought close to the image forming apparatus sufficiently. There was a problem that connection could not be started.

  The present invention has been made in view of the above, and the purpose thereof is that information is obtained when the distance between the image processing apparatus and the information processing apparatus reaches a predetermined distance without depending on the transmission intensity of the information processing apparatus. It is in communication with the processing unit.

In order to solve the above-mentioned problems, the invention according to claim 1 is an information processing apparatus connectable to at least one or more devices via a wireless network, wherein the device is captured by an imaging unit configured to capture an image; Distance determination means for determining the distance between the own device and the device based on the captured image, identification information acquisition means for obtaining identification information related to the device based on the signal received from the device, and a signal strength measuring means for measuring a received signal strength of the signal received from the device, determining means for determining the distance between a received signal strength threshold based on said received signal strength between the own apparatus and the device, A connection determining unit that compares the received signal strength with the received signal strength threshold to determine whether to connect to the device, and when it is determined to connect to the device; A connection control unit for controlling the connection between the host device and the device based on another information, characterized by comprising a.

  According to the present invention, it is possible to communicate with the information processing apparatus when the distance between the image processing apparatus and the information processing apparatus reaches a predetermined distance without depending on the transmission intensity of the information processing apparatus.

FIG. 1 is a schematic view showing a configuration example of an image processing system according to a first embodiment of the present invention. It is a block diagram showing an example of the hardware constitutions of the image processing device concerning this embodiment. It is a block diagram showing an example of hardware constitutions of an operation part of an image processing device of this embodiment. It is a block diagram showing the example of hardware constitutions of the radio communication terminal of this embodiment. It is a block diagram which shows the function structure of the operation part of this embodiment. It is a figure showing an example of data of a device information disclosure packet management table of this embodiment. It is a figure which shows the example of data of the connection information management table of this embodiment. It is a block diagram which shows the function structure of the radio | wireless communication terminal of this embodiment. It is a figure which shows the example of data of the received signal strength management table of this embodiment. It is a figure which shows the example of data of the signal strength reference | standard table of this embodiment. It is a graph which shows an example (the 1) of time change of the receiving signal strength of the device information publication packet received by the radio | wireless communication terminal of this embodiment. It is a graph which shows an example (the 2) of time change of the receiving signal strength of the device information publication packet received by the radio | wireless communication terminal of this embodiment. It is a flowchart which shows the operation | movement at the time of the radio | wireless communication terminal of this embodiment determining the connection start distance with an image processing apparatus. It is a figure which shows an example at the time of displaying QR Code (registered trademark) by QR Code (registered trademark) display control part of this embodiment. It is a figure which shows an example of the screen displayed by the display control part of the radio | wireless communication terminal of this embodiment. It is a figure which shows an example of the screen displayed by the display control part of a radio | wireless communication terminal in case the distance of the radio | wireless communication terminal of this embodiment and an image processing apparatus are separated with respect to connection start distance. It is a figure which shows an example of the screen which instruct | indicates the stillness of the radio | wireless communication terminal displayed by the display control part of the radio | wireless communication terminal of this embodiment. It is FIG. (1) which shows the measuring method of the 1st distance which the distance determination part of this embodiment performs. It is FIG. (2) which shows the measuring method of the 1st distance which the distance determination part of this embodiment performs. It is a figure (the 1) which shows the measuring method of the 2nd distance which the distance determination part of this embodiment performs. It is a figure (the 2) showing the measuring method of the 2nd distance which the distance judging part of this embodiment performs. It is a figure (the 3) showing the measuring method of the 2nd distance which the distance judging part of this embodiment performs. (A) and (b) are figures which show the measuring method of the 3rd distance which the distance determination part of this embodiment performs. It is a flowchart which shows the operation | movement at the time of the wireless communication terminal of this embodiment connecting to an image processing apparatus. It is a figure showing an example of a screen which urges updating of a receiving signal strength threshold displayed by a display control part of this embodiment. It is a figure which shows an example of the screen which notifies that the new apparatus displayed by the display control part of this embodiment was detected. It is a flowchart which shows the operation | movement at the time of the radio | wireless communication terminal which concerns on 2nd Embodiment of this invention determining a receiving signal strength threshold value. It is a figure which shows an example of the screen which a wireless communication terminal displays, when the distance of a wireless communication terminal and an image processing apparatus is 5 cm in this embodiment. It is a figure which shows an example of the screen which a wireless communication terminal displays, when the distance of a wireless communication terminal and an image processing apparatus is 20 cm in this embodiment.

Hereinafter, the present invention will be described in detail by embodiments shown in the drawings.
The present invention has the following configuration in order to communicate with a terminal when the distance between the image processing apparatus and the terminal reaches a predetermined distance without depending on the transmission intensity of the wireless communication terminal.
That is, an information processing apparatus according to the present invention is an information processing apparatus connectable to at least one or more devices via a wireless network, and an imaging unit configured to capture an image and an image captured by the imaging unit. A distance determination unit that determines the distance between the device and the device, an identification information acquisition unit that acquires identification information related to the device based on the signal received from the device, and a received signal strength related to the signal received from the device Signal strength measurement means for measuring, connection start distance storage means for storing in advance a connection start distance indicating the distance between the own device and the device when starting the connection between the own device and the device, and between the own device and the device And determining the received signal strength threshold corresponding to the connection start distance based on the received signal strength and the received signal strength, and comparing the received signal strength with the received signal strength threshold to connect with the device A connection determination means for determining whether, when it is determined that the connected device, characterized by comprising a connection control unit for controlling the connection between the host device and the device based on the identification information.
With the above configuration, communication with the terminal can be performed when the distance between the image processing apparatus and the terminal reaches a predetermined distance without depending on the transmission intensity of the wireless communication terminal.
The above-mentioned features of the present invention will be described in detail below with reference to the drawings.

First Embodiment
FIG. 1 is a schematic view showing a configuration example of an image processing system according to a first embodiment of the present invention.
The image processing system 1 includes image processing apparatuses 100A to 100C, a wireless communication terminal 200, and a wireless access point 300.
The image processing apparatus 100 is applied to a projection apparatus such as a projector and an electronic blackboard in addition to an image forming apparatus such as a multifunction machine and a printer, and an image forming apparatus such as a multifunction machine having a print function, a scan function, and a copy function. For example, image processing is executed in response to a print request or scan request from the outside of the wireless communication terminal 200 or the like.
The image processing apparatus 100 includes a first wireless communication unit and a second wireless communication unit, and is directly connected to the wireless communication terminal 200 by the first wireless communication unit, and wirelessly accessed by the second wireless communication unit. The wireless communication terminal 200 is connected via the point 300.

The wireless communication terminal 200 can apply a smartphone, a tablet terminal, or the like.
The wireless communication terminal 200 directly communicates with the image processing apparatuses 100A to 100C via the first wireless communication transmission paths N1A to N1C, and receives communication information such as an IP address for connecting to the second wireless communication. Based on the received communication information, a print request and a scan request are transmitted via the second wireless communication channel N2 via the wireless access point 300.

The wireless access point 300 establishes a communication path between the image processing apparatus 100 and the wireless communication terminal 200. The wireless access point 300 is connected to a local area network (LAN) 50 such as Ethernet (registered trademark), and communicates with the wireless communication terminal 200 according to a wireless LAN standard such as IEEE 802.11.
Here, the image processing apparatus 100 may be configured to include a Wi-Fi module that operates in the infrastructure mode, and a Wi-Fi direct module that can be directly connected to the wireless communication terminal 200 for communication. In this case, since the wireless communication terminal 200 can directly connect to and communicate with the image processing apparatus 100 without the intervention of the wireless access point 300, the wireless access point 300 may not be provided.

FIG. 2 is a block diagram showing an example of the hardware configuration of the image processing apparatus 100 according to the first embodiment of the present invention.
The image processing apparatus 100 includes a controller 102, an operation unit 122, a facsimile control unit (FCU) 126, a universal serial bus (USB) 128, and an IEEE (Institute of Electrical and Electronic Engineers) 1394 interface 130. , And an engine unit 132. In the image processing apparatus 100, portions other than the operation unit 122 may be referred to as a main body.

The controller 102 includes a central processing unit (CPU) 104, a north bridge (NB) 106, a system memory (MEM-P) 108, a south bridge (SB) 114, an application specific integrated circuit (ASIC) 116, and a local A memory (MEM-C) 118, an HDD 120, and a network interface card (NIC: Network Interface Card) 121 are provided.
The system memory 108 includes a read only memory (ROM) 110 and a random access memory (RAM) 112.

The CPU 104 controls the entire image processing apparatus 100, and configures a chipset together with the north bridge 106, the system memory 108, and the south bridge 114. The CPU 104 is connected to other devices via this chipset.
The north bridge 106 is a bridge that connects between the CPU 104, the system memory 108, the south bridge 114, and an accelerated graphics port (AGP) bus 60.
The north bridge 106 includes a memory controller that controls reading and writing to the system memory 108, a peripheral component interface (PCI) master, and an AGP target.

  The AGP bus 60 is a bus interface for a graphic accelerator card proposed to accelerate graphic processing, and makes the graphics accelerator card faster by directly accessing the system memory 108 with high throughput.

The ROM 110 of the system memory 108 is a read only memory for storing programs and data for the image processing apparatus. A RAM 112 of the system memory 108 is a writable and readable memory that is used to develop programs and data for the image processing apparatus and that is used when drawing processing is performed by the printer.
The south bridge 114 is a bridge that connects between the north bridge 106 and peripheral devices such as PCI devices. The south bridge 114 is connected to the north bridge 106 via a PCI bus, and a network interface (I / F) or the like can also be connected to the PCI bus.

The ASIC 116 is an IC (Integrated Circuit) for image processing application having hardware elements for image processing, and has a role of a bridge connecting the AGP bus 60, the PCI bus 70, the HDD 120 and the local memory 118, respectively.
The ASIC 116 includes a PCI target and an AGP master, an arbiter (ARB) which is a core of the ASIC 116, a memory controller for controlling the local memory 118, and a plurality of DMACs (Direct Memory Access) for rotating image data by hardware logic. Controller) and a PCI unit that performs data transfer between the engine unit 132 and the PCI bus 70.
The operation unit 122, the facsimile control unit 126, the USB 128, the IEEE 1394 interface 130, and the engine unit 132 are connected to the ASIC 116 via the PCI bus 70.

  The local memory 118 is used as an image buffer for copying and a code buffer. The HDD 120 stores image data, programs, font data, and forms. The HDD 120 also stores a license file of an application executed by the image processing apparatus 100. The NIC 121 is an interface connected to a network such as the LAN 50.

  The operation unit 122 is an interface for a user such as an operator who is directly connected to the ASIC 116 and operates the image processing apparatus 100. By operating the operation unit 122, data input, job execution, and display can be performed.

The facsimile control unit 126 is connected to the PCI bus 70 and controls communication with an external device such as a facsimile machine or a copying machine having a modem function through a public line.
The USB 128 and the IEEE 1394 interface 130 are each connected to the PCI bus 70 and can connect peripheral devices.
The engine unit 132 is connected to the PCI bus 70, and can apply a printer engine such as a black and white plotter, a one-drum color plotter, a four-drum color plotter, a scanner, and a fax unit. The engine unit 132 can also include an image processing unit that performs error diffusion, gamma conversion, and the like.

FIG. 3 is a block diagram showing an example of a hardware configuration of the operation unit 122 of the image processing apparatus 100 according to the present embodiment.
The operation unit 122 can apply a general information processing terminal, and the CPU 152, the memory (MEM) 154, the non-volatile memory 160, the I / F 162, the first wireless communication unit 164, and the second wireless communication A section 166, a USB 168, a sensor 170, and a touch panel 172 are provided.
The CPU 152, the memory 154, the non-volatile memory 160, the I / F 162, and the first wireless communication unit 164, the second wireless communication unit 166, the USB 168, the sensor 170, and the touch panel 172 are connected via the bus 80.

The CPU 152 controls the overall operation of the operation unit 122. The memory 154 has a ROM 156 and a RAM 158.
The ROM 156 is a read only non-volatile storage medium, and stores programs such as firmware.
The RAM 158 is a volatile storage medium capable of high-speed reading and writing of information, and is used as a work area when the CPU 152 processes information.

The non-volatile memory 160 is a non-volatile storage medium capable of reading and writing information such as NAND type, and stores an OS (Operating System), various control programs, application programs, and the like.
The I / F 162 connects between the bus 80 and various hardware, networks such as the LAN 50, and the like.

  The first wireless communication unit 164 uses a second wireless communication method such as Bluetooth (registered trademark) 4.0 (Bluetooth (registered trademark) Low Energy: BLE), Near Field Communication (NFC), or the like. The wireless communication is performed by the first wireless communication method which is relatively low in speed.

  The second wireless communication unit 166 is connected to the wireless access point 300 via a network such as the LAN 50. The second wireless communication unit 166 performs processing for performing high-speed wireless communication via the wireless access point 300 in comparison with the first wireless communication method according to the standard of the second wireless communication method such as a wireless LAN. Do.

  The USB 168 can connect peripheral devices. The sensor 170 is a sensor realized by hardware such as an acceleration sensor. The touch panel 172 is a visual user interface for the user to confirm the state of the image processing apparatus 100, and is also used when operating.

  The operation unit 122 and the ASIC 116 can be connected via the I / F 162 or via the USB 168.

  In addition, the first wireless communication unit 164 and the second wireless communication unit 166 may be provided in the main body instead of the operation unit 122, or may be provided in both the operation unit 122 and the main body. .

FIG. 4 is a block diagram showing an example of a hardware configuration of the wireless communication terminal 200 according to the present embodiment.
The wireless communication terminal 200 includes a CPU 202, a RAM 204, a ROM 206, an HDD 208, an I / F 210, a sensor 212, an LCD (Liquid Crystal Display) 214, an operation unit 216, a first wireless communication unit 218, And a wireless communication unit 220.
The CPU 202, the RAM 204, the ROM 206, the HDD 208, the I / F 210, and the sensor 212 are connected by a bus 90.

The CPU 202 controls the entire wireless communication terminal 200.
The ROM 206 is a read only non-volatile storage medium, and stores programs such as firmware. The RAM 204 is a volatile storage medium capable of high-speed reading and writing of information, and is used as a work area when the CPU 202 processes information.
The HDD 208 is a non-volatile storage medium capable of reading and writing information, and stores an OS, various control programs, application programs, and the like.

The I / F 210 connects the bus 90 to various hardware, networks, and the like. The sensor 212 is a sensor realized by hardware such as an acceleration sensor.
The LCD 214 is a visual user interface for the user to confirm the state of the wireless communication terminal 200.
The operation unit 216 is a user interface for a user such as a keyboard and a mouse to input information to the wireless communication terminal 200. The LCD 214 and the operation unit 216 can be configured by a touch panel, and the keyboard can be realized by software.

  The first wireless communication unit 218 performs wireless communication by a low-speed first wireless communication method as compared with the second wireless communication method such as Bluetooth (registered trademark) 4.0 or near field wireless communication.

  The second wireless communication unit 220 performs high-speed wireless communication as compared to the first wireless communication method according to the standard of the second wireless communication method such as a wireless LAN.

  The imaging unit 222 is a camera or the like, and acquires an image by performing imaging.

Next, FIG. 5 is a block diagram showing a functional configuration of the operation unit 122. As shown in FIG.
The operation unit 122 includes a first transmission / reception unit 502, a second transmission / reception unit 504, a device information disclosure packet creation unit 506, a connection information request processing unit 508, a connection distance determination unit 509, a connection processing unit 510, and a QR code (registered trademark ), A QR code (registered trademark) display control unit 514, and a job control unit 516.
These units are functions or means implemented by any one of the components shown in FIG. 3 being operated by an instruction from CPU 152 according to the program for the operating unit stored in nonvolatile memory 160. It is.
The operation unit 122 also includes a storage unit 518 configured by the non-volatile memory 160 illustrated in FIG. 3.

  In the storage unit 518, a device information disclosure packet management DB 520 configured by a device information disclosure packet management table as shown in FIG. 6 is constructed.

The device information disclosure packet management table associates the device name, the operation mode, the connection start distance, and the output power level by associating them.
The device name is used for plug and play of the image processing apparatus 100.
The operation mode represents a standard supported by the first wireless communication unit 164. For example, when the first wireless communication unit 164 corresponds to Bluetooth (registered trademark) 4.0, either the dual mode or the single mode is stored.
The connection start distance represents the distance between the image processing apparatus 100 and the wireless communication terminal 200 when the image processing apparatus 100 and the wireless communication terminal 200 start connection. That is, when the wireless communication terminal 200 determines that the distance to the image processing apparatus 100 is within the connection start distance, it transmits a connection request for connection to the image processing apparatus 100 via the second communication unit. .
The output power level indicates the output intensity of the radio wave transmitted by the image processing apparatus 100. By setting the output power level as a fixed value, the distance between the image processing apparatus 100 and the wireless communication terminal 200 can be estimated based on the received signal level of the device information disclosure packet in the image processing apparatus 100.

In the storage unit 518 shown in FIG. 5, a connection information management DB 522 configured by the connection information management table shown in FIG. 7 is constructed.
The connection information management table is a network such as a Service Set Identifier (SSID), a security method, a password, etc. used when connecting between the second wireless communication unit 166 and the wireless communication terminal 200 by the second wireless communication method. It associates by connecting connection information such as information, address information such as IP address and port number, and the like.
The SSID is identification information of the wireless LAN, and the security method is represented by a standard of an encryption method such as WEP, WPA, WPA2, WPA2-TKIP, or AES.

The first transmission / reception unit 502 shown in FIG. 5 is realized by an instruction from the first wireless communication unit 164 and the CPU 152 shown in FIG. The first transmission / reception unit 502 transmits / receives various data (information) to / from the wireless communication terminal 200 in accordance with the standard of the first wireless communication system.
The second transmission / reception unit 504 is realized by an instruction from the second wireless communication unit 166 and the CPU 152 shown in FIG. The second transmission / reception unit 504 performs processing for transmitting / receiving various data (information) to / from the wireless communication terminal 200 in accordance with the standard of the second wireless communication system.

The device information disclosure packet creating unit 506 is realized by an instruction from the CPU 152.
The device information disclosure packet creating unit 506 acquires information stored in the device information disclosure packet management table of the device information disclosure packet management DB 520, includes an advertisement packet with the information attached, and the like. A device information disclosure packet for publicizing the existence is created, and this packet is transmitted from the first transmission / reception unit 502 to the wireless communication terminal 200.

  The connection information request processing unit 508 is realized by an instruction from the CPU 152. When the connection information request transmitted by the wireless communication terminal 200 having received the device information disclosure packet is input from the first transmission / reception unit 502, the connection information request processing unit 508 transmits the connection information management DB 522 according to the connection information request. It creates connection information attached with the information stored in the connection information management table, and transmits it from the first transmission / reception unit 502.

  The connection distance determination unit 509 is realized by an instruction from the CPU 152. The connection distance determination unit 509 determines the connection start distance included in the device information disclosure packet management table of the device information disclosure packet management DB, for example, by receiving an input of the distance from the user. The connection start distance may not be determined by the connection distance determination unit 509, but may store a predetermined value.

  The connection processing unit 510 is realized by an instruction from the CPU 152. When the connection request transmitted by the wireless communication terminal 200 having received the connection information is input from the second transmitting / receiving unit 504, the connection processing unit 510 performs connection processing with the wireless communication terminal 200 according to the connection request. Do.

  The job control unit 516 is realized by an instruction from the CPU 152. When a job requested by the wireless communication terminal 200 is input from the second transmission / reception unit 504, the job control unit 516 controls the job such as delivering the job to the main unit.

  The QR code (registered trademark) generation unit 512 is realized by an instruction from the CPU 152. The QR code (registered trademark) generation unit 512 is a QR code (registered trademark) including the connection start distance, the device name and the actual size value of the QR code (registered trademark) stored in the device information disclosure packet management table of the device information disclosure packet management DB. Generate). Here, the actual size value of the QR code (registered trademark) may not be included in the QR code (registered trademark) but may be included in a device information disclosure packet or the like.

  The QR code (registered trademark) display control unit 514 is realized by an instruction from the CPU 152 and a touch panel. The QR code (registered trademark) display control unit 514 generates the QR code (registered trademark) generated by the QR code (registered trademark) generation unit 512 when a request for displaying the QR code (registered trademark) is received from the user via a touch panel or the like. Is displayed on the touch panel.

FIG. 8 is a block diagram showing a functional configuration of the wireless communication terminal 200. As shown in FIG.
The wireless communication terminal 200 includes a first transmission / reception unit 252, a second transmission / reception unit 254, a received signal strength measurement unit 256, a connection determination unit 258, a connection information acquisition unit 260, a connection processing unit 262, a job request unit 264, and an image reading A unit 268, an image analysis unit 270, a tilt measurement unit 272, a distance determination unit 274, a received signal threshold determination unit 276, and a display control unit 278 are included.
These units are functions or means implemented by any of the components shown in FIG. 8 being operated by an instruction from the CPU 202 according to the program for the wireless communication terminal stored in the HDD 208.
The wireless communication terminal 200 also has a storage unit 280 constructed by the HDD 208 shown in FIG.

In the storage unit 280, a received signal strength management DB 282 configured by the received signal strength management table shown in FIG. 9 is constructed.
The received signal strength management table is associated by associating a device name, received signal strength, and the like.
The device name is a device name included in the device information disclosure packet received from the image processing apparatus 100.
As the received signal strength, when the first transmission / reception unit 252 receives the device information disclosure packet transmitted by the image processing apparatus 100, the received signal intensity measurement unit 256 measures the intensity of the received signal of the received device information disclosure packet. Received signal strength.
In the received signal strength management table, a queue of received signal strengths of device information disclosure packets is created for each device name.
In the example illustrated in FIG. 9, the received signal strength of the device information disclosure packet transmitted by the image processing apparatus 100 whose device name is represented by "A" is -24 dB, -30 dB, -26 dB, -25 dB depending on the passage of time. And has been shown to change.

In the storage unit 280 shown in FIG. 8, a signal strength reference DB 284 configured by the signal strength reference table shown in FIG. 10 is constructed.
The signal strength reference table is associated by associating a device name, a received signal strength threshold, an IP address, and the like.
The device name is a device name included in the device information disclosure packet received from the image processing apparatus 100.
The received signal strength threshold is a received signal strength of a device information disclosure packet that is a reference when the wireless communication terminal 200 starts a connection request to the image processing apparatus 100 using the second communication unit.
For example, when the wireless communication terminal 200 receives a device information disclosure packet with an intensity higher than -30 dB from the image processing apparatus 100A whose device name is A, the wireless communication terminal 200 connects with the image processing apparatus 100A using the second communication unit. I do.

Next, each part of the wireless communication terminal 200 shown in FIG. 8 will be described.
The first transmission / reception unit 252 of the wireless communication terminal 200 is realized by an instruction from the first wireless communication unit 218 and the CPU 202 shown in FIG. 4.
The first transmission / reception unit 252 transmits / receives various data (information) to / from the image processing apparatus 100 according to the standard of the first wireless communication system. The first transmission / reception unit 252 constitutes identification information acquisition means, and receives a device name and an IP address from the image processing apparatus 100.

  The second transmission / reception unit 254 is realized by an instruction from the second wireless communication unit 220 and the CPU 202 shown in FIG. The second transmission / reception unit 254 transmits / receives various data (information) to / from the image processing apparatus 100 according to the standard of the second wireless communication system.

Received signal strength measurement unit 256 is realized by an instruction from CPU 202 and a program for a wireless communication terminal stored in HDD 208.
The received signal strength measurement unit 256 measures the received signal strength of the device information disclosure packet received by the first transmission / reception unit 252 in a predetermined cycle, and measures the received signal intensity together with the device name attached to the device information disclosure packet. The signal strength is stored in the received signal strength management DB 282 of the storage unit 268. When storing the device name and the received signal strength in the received signal strength management DB 282 of the storage unit 268, the received signal strength can be stored according to the FIFO for each device name.
This will be specifically described with reference to the received signal strength management table shown in FIG.
For example, when storing the received signal strength of the device information disclosure packet transmitted by the image processing apparatus whose newly measured device name is "B", the value of -52 dB, which is the oldest value of the device name "B" Is removed and the received signal strength of the device information disclosure packet is added as the newest value of the device name "B".

Connection determination unit 258 is realized by an instruction from CPU 202 and a program for a wireless communication terminal stored in HDD 208.
Connection determination unit 258 determines the received signal strength stored in received signal strength management table of received signal strength management DB 282 stored in storage unit 280 and the received signal reference value stored in the signal strength reference table of signal strength reference DB 284. It is determined based on which of the image processing apparatuses 100 whose signal strength is stored in the received signal strength management table is to be connected.

FIG. 11 shows an example of a time change of received signal strength of the device information disclosure packet received by the wireless communication terminal 200.
In FIG. 11, the horizontal axis is time (t), and the vertical axis is received signal strength (RSSI) of the device information disclosure packet. Further, it is assumed that the distance Xcm between the image processing apparatus 100 and the wireless communication terminal 200 is smaller than the distance Ycm.
Here, in FIG. 11, values plotted with ○ are signal intensities measured when the distance between the image processing apparatus 100 and the wireless communication terminal is X cm, and values plotted with x are with the image processing apparatus 100. It is the signal strength measured when the distance of the wireless communication terminal is Y cm.

  As shown in FIG. 11, even if the signals are received at the same distance and the signal strength is measured, the received signal strengths vary. However, referring to FIG. 11, if the average value of a plurality of signal strengths is taken, the closer the wireless communication terminal 200 is to the image processing apparatus 100, the stronger the received signal strength of the device information disclosure packet received by the wireless communication terminal 200 becomes. It can be understood that there is a tendency.

FIG. 12 shows an example of a time change of received signal strength of the device information disclosure packet received by the wireless communication terminal 200 different from the terminal which has measured the received signal strength shown in FIG.
In FIG. 12, the wireless communication terminal 200 receives a signal at distances similar to the distance X cm and the distance Y cm shown in FIG. 11, and measures the strength of the received signal.
However, since the terminal from which the signal was received differs between FIG. 11 and FIG. 12, the strength of the received signal differs depending on the characteristics of the antenna of each terminal.
For example, comparing the terminal that received the signal in FIG. 11 with the terminal that received the signal in FIG. 12, the terminal that measured the received signal strength in FIG. It can be seen that the signal tends to be received with a stronger intensity than the terminal that performed the measurement of.

The connection determination unit 258 determines a device information disclosure packet based on the received signal strength of the device information disclosure packet stored in the received signal strength management table and the reception signal strength reference value stored in the signal strength reference table of the signal strength reference DB 284. It is determined whether there is an image processing apparatus whose received signal strength μ [dB] exceeds a certain received signal strength threshold Rs [dB].
The connection determining unit 258 obtains the minimum value μ [dB] of an appropriate sampling number such as three device information disclosure packets, and determines whether the minimum value μ exceeds the threshold value Rs.
Here, when the user issues a print instruction to the image processing apparatus 100 to the wireless communication terminal 200 in addition to the minimum value of the intensity of the reception signal of an appropriate sampling number, the reception signal strength μ [dB] is The reception signal strength of one device information disclosure packet received by the transmission / reception unit 1 may be used, or the average value of the reception signal strengths of an appropriate number of samplings may be used.
Connection determination unit 258 determines that an image processing apparatus in which the minimum value μ of the received signal strength of the device information disclosure packet exceeds threshold Rs is in front of the eyes of wireless communication terminal 200, and sets the image processing apparatus as a connection target. The device name of the image processing apparatus is notified to the connection information acquisition unit 260.

Returning to FIG. 8, the description of the wireless communication terminal 200 will be continued.
The connection information acquisition unit 260 is realized by an instruction from the CPU 202 and the program for the wireless communication terminal stored in the HDD 208.
The connection information acquisition unit 260 creates a connection information request with the image processing apparatus corresponding to the device name as a destination based on the device name input by the connection determination unit 258, and transmits it from the first transmission / reception unit 252 .
When the job requested by the user is input to the job request unit 264, the connection information acquisition unit 260 addresses the image processing apparatus corresponding to the device name based on the device name input by the connection determination unit 258. The connection information request may be created and transmitted from the first transmission / reception unit 252.
When connection information is input from the first transmission / reception unit 252 as a response to the connection information request, the connection information acquisition unit 260 inputs the connection information to the connection processing unit 262.

Connection processing unit 262 is realized by an instruction from CPU 202 and a program for a wireless communication terminal stored in HDD 208.
The connection processing unit 262 switches by handover from the first wireless communication scheme to the second wireless communication scheme based on the connection information input by the connection information acquisition unit 260, and switches the image processing apparatus to be connected and the second A process of connecting with the transmitting and receiving unit 254 is performed.
The job requested by the user is input to the job request unit 264, and the connection information request addressed to the image processing apparatus corresponding to the device name is input to the first transmission / reception unit based on the device name input by the connection determination unit 258 When not transmitting from 252, the connection processing unit 262 connects the image processing apparatus to be connected and the second transmission / reception unit 254 when the job requested by the user is input to the job request unit 264. It may be configured to start the process of
By sharing a key relating to encryption between the image processing apparatus 100 and the wireless communication terminal 200, the image processing apparatus 100 encrypts and transmits connection information, and the wireless communication terminal 200 transmits the encrypted connection information. Decrypt.

  The job request unit 264 is realized by an instruction from the CPU 202 and the program for the wireless communication terminal stored in the HDD 208. The job request unit 264 transmits the job requested by the user from the second transmission / reception unit 254 to the connected image processing apparatus 100.

  The image reading unit 268 is realized by an instruction from the CPU 202, the imaging unit 222, and the program for the wireless communication terminal stored in the HDD 208. The image reading unit 268 reads the image by capturing a QR code (registered trademark) displayed on the touch panel of the operation unit 122 of the image processing apparatus 100, and acquires an image of the QR code (registered trademark).

  The image analysis unit 270 is realized by an instruction from the CPU 202 and the program for the wireless communication terminal stored in the HDD 208. The image of the QR code (registered trademark) acquired by the image reading unit 268 is analyzed, and the device name and the connection start distance of the image processing apparatus 100 that has displayed the QR code (registered trademark) are acquired.

  The inclination measurement unit 272 is realized by the sensor 212 shown in FIG. 3 and an instruction from the CPU 202. The inclination measurement unit 272 detects the inclination of the wireless communication terminal 200 such as the angle based on measurement information such as acceleration measured by the sensor 212.

Distance determination unit 274 is realized by an instruction from CPU 202 and a program for a wireless communication terminal stored in HDD 208. The distance between the wireless terminal 200 and the image processing apparatus 100 is calculated based on the information included in the QR code (registered trademark) acquired by the analysis of the image analysis unit 270, the inclination of the wireless terminal 200 measured by the inclination measurement unit 272, and the like. calculate.
Further, the calculated distance is compared with the connection start distance acquired by analyzing the QR code (registered trademark) by the image analysis unit 270 to determine whether or not it is within a predetermined range.

The received signal threshold value determination unit 276 forms a storage control unit, and is realized by an instruction from the CPU 202 and a program for a wireless communication terminal stored in the HDD 208.
The first transmission / reception unit when the reception signal threshold determination unit 276 determines that the distance between the wireless communication terminal 200 and the image processing apparatus 100 is within a predetermined range as compared with the connection start distance by the distance determination unit 274. A received signal strength threshold value of the image processing apparatus 100 is determined based on the received signal strength measured by the received signal strength measurement unit 256 of the device information disclosure packet 502 received from the image processing apparatus 100 at 502.
Further, the received signal threshold determination unit 276 associates the determined received signal strength threshold with the IP address and the device name received by the first transmission / reception unit 502, and stores it in the signal strength reference table of the signal strength reference DB 284.

The display control unit 278 is realized by an instruction from the CPU 202, an LCD, and a program for a wireless communication terminal stored in the HDD 208.
If it is determined by the distance determination unit 274 that the distance between the wireless communication terminal 200 and the image processing apparatus 100 is not within the predetermined range as compared with the connection start distance, the distance is determined according to the distance between the wireless communication terminal 200 and the image processing apparatus 100. To display a message on the LCD of the wireless communication terminal 200 to prompt the user to move the wireless terminal 200 closer to the image processing apparatus 100 or to guide the wireless communication terminal 200 to move away from the image processing apparatus 100. Display the message of.

Next, the flow of processing when the wireless communication terminal 200 determines the connection start distance with each of the image processing apparatuses 100A to 100C will be described.
FIG. 13 is a flowchart showing an operation when the wireless communication terminal 200 determines a connection start distance with the image processing apparatus 100.

First, the operation unit 122 of the image processing apparatus 100 causes the QR code (registered trademark) display control unit 514 to display the QR code (registered trademark) as shown in FIG. The image reading unit 268 of the wireless communication terminal 200 acquires the image by capturing the QR code (registered trademark) displayed on the operation unit 122 of the image processing apparatus 100 (step S1301).
Here, as shown in FIG. 15, the display control unit 278 of the wireless communication terminal 200 displays a message “Please read QR code (registered trademark)”, and the image reading unit 268 displays the displayed QR code. The (registered trademark) is imaged by an imaging unit 222 (FIG. 4) such as a camera.

  Next, the distance determination unit 274 performs wireless communication based on the image included in the QR code (registered trademark) acquired in step S1301 and the information included in the QR code (registered trademark) acquired by analyzing the image analysis unit 270. The distance between the terminal 200 and the image processing apparatus 100 is measured (step S1302). Details of the method of measuring the distance by the distance determination unit 274 will be described later.

Here, the distance measured in step S1302 is compared with the connection start distance included in the QR code (registered trademark) acquired in step S1301, and the measured distance is within a predetermined range in comparison with the connection start distance. It is determined (step S1303).
For example, when the connection start distance is 7 cm, it is determined whether the distance measured in step S1302 is in the range of 6 cm to 8 cm, with an error of ± 1 cm as an allowable range.
Here, if it is not within the predetermined range (NO in step S1303), the display control unit 278 of the wireless communication terminal 200 causes the user to connect the wireless communication terminal 200 to the image processing apparatus 100 as the connection start distance. A message is displayed to prompt the user to move (step S1304). For example, when the distance between the wireless communication terminal 200 and the image processing apparatus 100 is far from the connection start distance, as shown in FIG.

If the measured distance is within the predetermined range in comparison with the connection start distance included in the QR code (registered trademark) acquired in step S1301 (step S1303, YES), the first transmission / reception unit of the wireless communication terminal 200 A step 252 receives a device information disclosure packet from the image processing apparatus 100 (step S1305), and the received signal strength measurement unit 256 measures the signal intensity of the received device information disclosure packet (step S1306).
It is preferable that a plurality of device public packets be measured here. As shown in FIGS. 11 and 12, even if the strength of the received signal is measured at the same distance, the variation occurs. Therefore, in order to prevent the user from moving the wireless communication terminal 200 until a predetermined number of packets are received, as shown in FIG. 17, the message display “adjustment of detection sensitivity” and “remaining 5 seconds” is performed. May be
Further, whether the image processing apparatus 100 displaying the QR code (registered trademark) and the image processing apparatus 100 transmitting the device information disclosure packet are the same apparatus or not is determined by the device name included in the QR code (registered trademark) It can be determined by whether the device name included in the device information disclosure packet matches or not.

  Furthermore, when the reception signal threshold determination unit 276 of the wireless communication terminal 200 starts connection with the image processing apparatus that has displayed the QR code (registered trademark) in step S1301 based on the signal strength measured in step S1306. A received signal strength threshold, which is the received signal strength of (1) is determined (step S1307).

  Finally, the connection information acquisition unit 260 of the wireless communication terminal 200 receives the connection information from the image processing apparatus 100 via the first transmission / reception unit 252, and the received signal threshold determination unit 276 determines the received signal strength determined in step S1307. The threshold, the IP address (identification information) included in the connection information, and the IP address of the image processing apparatus 100 are associated with each other and stored in the reception signal strength table of the reception signal strength DB 282 (step S1308).

<Measurement method 1>
Next, the method of measuring the distance performed by the distance determination unit 274 in step S1302 illustrated in FIG. 13 will be described in detail.
FIGS. 18 and 19 are explanatory views showing a first method of measuring the distance performed by the distance determination unit 274 in step S1303 shown in FIG.

Α illustrated in FIG. 18 indicates the angle of view of the imaging unit 222 of the wireless communication terminal 200. The angle of view α of the imaging unit 222 is stored in advance in the wireless communication terminal 200.
Also, D shown in FIG. 18 indicates the actual size value of the QR code (registered trademark). The actual size value of the QR code (registered trademark) is included in the QR code (registered trademark), and the wireless communication terminal 200 analyzes the image of the QR code (registered trademark) acquired by the image reading unit 268 by the image analysis unit 270 , Get the actual size value of the QR code (registered trademark).
The above D may be stored in advance in the storage unit 280 of the wireless communication terminal 200 in addition to acquisition from the QR code (registered trademark), and the administrator of the image processing apparatus 100 notifies by e-mail or the like. It may be managed by a server or the like, and the wireless communication terminal 200 may acquire it from the server.

L1 shown in FIG. 18 indicates the pixel value of the display area of the LCD of the wireless communication terminal 200. The pixel values of the display area are stored in advance in the wireless communication terminal 200.
L2 shown in FIG. 18 indicates the pixel value of one side of the QR code (registered trademark) in the image acquired by the image reading unit 268 of the wireless communication terminal 200. One side of the QR code (registered trademark) can be acquired by the image analysis unit 270 analyzing the image of the QR code (registered trademark).
Here, as in the screen of the wireless communication terminal 200 shown in FIG. 18, when imaging a QR code (registered trademark), the display control unit 278 of the wireless communication terminal 200 displays the center line of the vertical and horizontal of the imaging range It is necessary to guide the QR code (registered trademark) to be imaged at the center of the imaging range.

  It is possible to obtain the distance between the wireless communication terminal 200 and the image processing apparatus 100 using the values of α, D, L1, and L2. FIG. 19 is a diagram for describing a specific method of calculating the distance between the wireless communication terminal 200 and the image processing apparatus 100.

“A” shown in FIG. 19 indicates the distance between the wireless communication terminal 200 and the image processing apparatus 100, and “a” can be obtained by the following equation from the formula of a right triangle.
a = b / tanθ

Here, b is an actual size value of half of the vertical length of the imaging range by the imaging unit 222, that is, half of the actual size value of L1, and θ represents a half of the angle of view of the imaging unit 222. Therefore, the value b can be obtained by the following equation using the values of D, L1, and L2 shown in FIG.
b = (D × L1) / (2 × L2)

Further, θ can be obtained by the following equation using the value of α shown in FIG.
θ = α / 2

  Therefore, it is possible to obtain a, which is the distance between the wireless communication terminal 200 and the image processing apparatus 100, using b and θ.

<Measurement method 2>
Next, details of a second distance measurement method performed by the distance determination unit 274 in step S1302 illustrated in FIG. 13 will be described.
20 to 22 are diagrams showing a second method of measuring the distance performed by the distance determination unit 274 in step S1303 shown in FIG.

In the second measurement method, the wireless communication terminal 200 captures two images as shown in FIG. 20 and FIG.
Here, in order to capture two images as shown in FIGS. 20 and 21, it is necessary for the user to change only the tilt without changing the position of the portable terminal.
Therefore, as shown in FIG. 20, the display control unit 278 of the wireless communication terminal 200 first guides the position of the QR code (registered trademark) in the imaging area to be at the center as “QR code (registered trademark) "Please align the center to the position where the center line intersects", and then, as shown in Fig. 21, to guide the position of the upper side of the QR code (registered trademark) to be the center, Display the message "Please tilt the top edge of the QR code (registered trademark) to coincide with the center line".
At the position shown in FIG. 20, when imaging a QR code (registered trademark), the QR code is measured at the angle of the wireless communication terminal 200 measured by the tilt measuring unit 272 of the wireless communication terminal 200 and at the position shown in FIG. The elevation angle θ shown in FIG. 22 is determined by measuring the angle of the wireless communication terminal 200 measured by the tilt measurement unit 272 of the wireless communication terminal 200 when the (registered trademark) imaging is performed.
Furthermore, using the actual size value of the QR code (registered trademark) acquired by analyzing the QR code (registered trademark) acquired by the image reading unit 268 by the image analysis unit 270, b shown in FIG. It is possible to ask.
b = Actual size value of QR code (registered trademark) / 2

Furthermore, by using the elevation angles θ and b thus determined, the distance between the wireless communication terminal 200 and the image processing apparatus 100 can be determined by the following equation as in the first method.
a = b / tanθ

  In this method, since it is necessary to photograph the QR code (registered trademark) at two points, the user's operation increases, but α, L1, and so on shown in FIG. The information of L2 becomes unnecessary.

<Measurement method 3>
Next, details of a third distance measurement method performed by the distance determination unit 274 in step S1302 illustrated in FIG. 13 will be described.
FIGS. 23A and 23B are diagrams showing a third method of measuring the distance performed by the distance determination unit 274 in step S1303 shown in FIG.

In the third measurement method, when the size of the QR code (registered trademark) acquired by the image reading unit 268 of the wireless communication terminal 200 and analyzed by the image analyzing unit 270 is a predetermined size, the wireless communication terminal 200 is used. And the image processing apparatus 100 is assumed to be a predetermined distance.
For example, as in the wireless communication terminal 200 of (a) shown in FIG. 23, the display control unit displays two frames. The display control unit may control to change the size of this frame according to the connection start distance acquired from the QR code (registered trademark), or the connection is started at the same distance as all the image processing apparatuses 100. In this case, the size of the frame may be fixed.
In this state, in the imaging unit 222 of the wireless communication terminal 200, as shown in FIG. 23 (b), a QR code (registered trademark) is imaged, and the imaged QR code (registered trademark) has a size between two frames If the distance between the wireless communication terminal 200 and the image processing apparatus 100 is within the predetermined range.

In the three measurement methods 1 to 3 described above, the QR code (registered trademark) display control unit 514 of the image processing apparatus 100 is described as displaying a QR code (registered trademark), but the image processing apparatus 100 Images other than (registered trademark) may be displayed. For example, two-dimensional barcodes other than QR code (registered trademark) or one-dimensional barcode may be displayed.
Further, if the size of the image can be recognized in advance by the wireless communication terminal 200, the wireless communication terminal 200 is not limited to a bar code or the like that can read information from the image, and may be a logo, a pattern or the like.

  Next, processing when the wireless communication terminal 200 connects to the image processing apparatus 100 will be described based on the signal strength reference table of the signal strength reference DB 284 generated by the processing shown in FIG. FIG. 24 is a flowchart showing an operation when the wireless communication terminal 200 connects to the image processing apparatus 100.

  First, the first transmission / reception unit 252 of the wireless communication terminal 200 receives a device information disclosure packet from the image processing apparatus 100 (step S2401). Next, a device name is acquired from the received device information disclosure packet, and it is determined whether the acquired device name is stored in the signal strength reference database of the signal strength reference DB 284 (step S2402). If the acquired device name is not included in the signal strength reference database (NO in step S2402), the process returns to step S2401 to repeat the process.

If the acquired device name is included in the signal strength reference database (YES in step S2402), the signal strength of the device information disclosure packet received in step S2401 is measured (step S2403).
Further, the connection determination unit 258 compares the signal strength measured in step S 2403 with the received signal strength threshold associated with the device name acquired in step S 2402 in the signal strength reference table of the signal strength reference DB 284 and measures the signal. It is determined whether the strength is equal to or greater than the reception signal strength threshold (step S2404).

Here, when it is determined that the measured signal strength is not equal to or higher than the reception signal strength threshold (NO in step S2404), connection is not performed, and the processing from step S2401 is repeated.
If it is determined that the measured signal strength is equal to or higher than the reception signal strength threshold, the connection information acquisition unit 260 receives connection information from the image processing apparatus 100 (step S2405).
Further, based on the received connection information, the connection processing unit 262 switches by handover from the first wireless communication scheme to the second wireless communication scheme, and the image processing apparatus to be connected and the second transmission / reception unit 254 A process of connecting the two is performed (step S2406).
Finally, the job request unit 264 transmits a job such as printing to the image processing apparatus via the second transmission / reception unit 254 using the second wireless communication method (step S2407).

  When determining whether the signal received in step S2404 is the received signal strength threshold or more, it may be determined by only one packet, but a plurality of packets including information of the same device name is received, The wireless communication terminal 200 is surely closer than the connection start distance set in the image processing apparatus by comparing the average value or the minimum value of the strengths of the plurality of received packets with the received signal strength threshold value. It will be possible to make a connection.

Further, as a method of acquiring connection information in step S2405, the wireless communication terminal 200 may receive connection information by requesting the image processing apparatus 100 for connection information via the second transmission / reception unit 254, or When the connection between the wireless communication terminal 200 and the image processing apparatus 100 is established using the wireless communication method of 2, even if the connection information is transmitted from the image processing apparatus 100 without receiving a request from the wireless communication terminal 200. good.
In addition, the wireless communication terminal 200 stores connection information included in the device information disclosure packet including the connection information included in the device information disclosure packet output by the image processing apparatus 100, and the received signal strength threshold is equal to or higher at step S2404. If it is determined that the connection information is stored, the stored connection information may be acquired.
In this case, it is preferable that the stored connection information be deleted if it is determined in step S2404 that it is not equal to or greater than the signal strength threshold.

Next, the process of updating the signal strength reference table of the signal strength reference DB 284 will be described.
When connection information is received by the connection information acquisition unit 260 of the wireless communication terminal 200 and the device name and IP address are acquired from the connection information, they are associated with the device name stored in the signal strength reference table of the signal strength reference DB284. If the IP address is not the same, the display control unit 278 of the wireless communication terminal 200 says, "The IP address of the device has been updated. Do you want to set the received signal strength threshold again?" As shown in FIG. Display a message, "Cancel" button, "OK" button, etc. on the screen.
When the IP address is changed, there is a high possibility that the environment such as the installation position of the image processing apparatus has been changed, so the user is prompted to set the reception signal strength threshold again.

Further, when a device name not stored in the signal strength reference table of the signal strength reference DB 284 is acquired from the device information disclosure packet, the display control unit 278 of the wireless communication terminal 200 detects “new equipment as shown in FIG. The message “Do you adjust the connection distance?”, “OK” button, “Cancel” button, “Apply settings of other devices”, etc. are displayed on the screen.
When the user wants to connect to a new image processing apparatus 100, the "OK" button is pressed to set the reception signal strength threshold shown in FIG. When the user does not connect to the new image processing apparatus 100, the setting process of the reception signal strength threshold can be canceled by pressing the “Cancel” button.

  By performing the process described above by the wireless communication terminal 200 possessed by each user, each wireless communication terminal 200 starts connection with the image processing apparatus 100 at a predetermined distance regardless of the characteristics of each wireless communication terminal 200. It is possible to

In addition, even if the image processing apparatus 100 of the same type such as the same model is used, the wireless communication terminal 200 is determined by the signals output from the apparatuses installed around the respective image processing apparatuses 100, the position of the surrounding wall, etc. The intensity of the signal received from the image processing apparatus 100 may be different.
Also in this case, according to the above configuration, since the reception signal strength threshold of each image processing apparatus 100 is determined, the wireless communication terminal 200 can be operated at a predetermined distance regardless of the environment around the image processing apparatus 100. It is possible to start connection to the image processing apparatus 100.

Furthermore, by including the information on the connection start distance in the QR code (registered trademark) displayed by the image processing apparatus 100, it is possible to set the connection start distance according to the environment of the image processing apparatus 100.
For example, in an environment in which the image processing apparatuses 100 are arranged side by side, setting the connection start distance short can prevent connection to an incorrect image processing apparatus.
On the other hand, in an environment where there are not many devices around the user, the user sets the distance to such an extent that it can be determined that the user is approaching the image processing apparatus 100 and sets the wireless communication terminal 200 to the image processing apparatus 100. It is also possible to start the connection without making the operation close.

Second Embodiment
Hereinafter, a second embodiment of the present invention will be described with reference to the drawings.
In the second embodiment, only differences from the first embodiment will be described.
In the second embodiment, without prompting the movement of the position of the portable terminal to the connection start distance by the display of the display control unit 278 of the portable terminal 200, the signal strength at the connection start distance is estimated from the signal strength at the measured distance. To determine the received signal strength threshold.

  In the second embodiment, a process when the wireless communication terminal 200 determines a received signal strength threshold will be described. FIG. 27 is a flow chart showing a flow of processing when the wireless communication terminal 200 in the second embodiment determines a reception signal strength threshold.

First, the image reading unit 268 of the wireless communication terminal 200 acquires the image by capturing a QR code (registered trademark) displayed on the image processing apparatus 100 (step S2701).
Next, the distance determination unit 274 performs wireless communication based on the image acquired by analyzing the QR code (registered trademark) acquired in step S 2701 and the QR code (registered trademark) acquired by the image analysis unit 270. The distance between the communication terminal 200 and the image processing apparatus 100 is measured (step S2702).

  Next, the first transmission / reception unit 252 of the wireless communication terminal 200 receives the device information disclosure packet from the image processing apparatus 100 (step S2703). The received signal strength measurement unit 256 measures the signal strength of the received device information disclosure packet (step S2704).

Next, the position of the wireless communication terminal 200 is changed, and the distance is measured as in step S2702 (step S2705).
Furthermore, at the position used for measurement in step S2705, the first transmission / reception unit 252 receives a device information disclosure packet from the image processing apparatus 100 as in steps S2403 and S2404 (step S2706), and the received signal strength measurement unit 256 The signal strength of the received device information disclosure packet is measured (step S2707).

Next, the distance between the wireless communication terminal 200 measured at two points of step S2702 and step S2705, the signal strength measured at two points of step S2704 and step S2707, and the analysis of the image analysis unit 270 Based on the acquired connection start distance of the image processing apparatus 100, the reception signal strength threshold of the image processing apparatus 100 displaying the QR code (registered trademark) in step S2401 is determined (step S2708).
Here, the first point distance is d1, the second point distance is d2, the connection start distance is d, and the first signal strength is R1, the second point signal strength is R2.
When the received signal is a radio wave of BLE, the received signal strength of BLE increases as the distance decreases, and the distance and the received signal strength are logarithmically proportional. Therefore, the signal strength R at the connection start distance d is determined by linear interpolation It is obtained by
R = R1 + (R2-R1) x (d-d1) / (d2-d1)

For example, in steps S2402 to S2404, as shown in FIG. 28, the distance between the wireless communication terminal 200 and the image processing apparatus 100 is 5 cm, and in steps S2405 to S2407, as shown in FIG. Consider the case where the distance to the device 100 is 20 cm.
Further, assuming that the signal strength measured in step S2404 is -31 [dB] and the signal strength measured in step S2407 is -37 [dB] and the connection start distance at this time is 10 cm, the distance at the connection start distance is The signal strength R can be calculated by the following equation.
R = -31 + (-37-(-31)) x (10-5) / (20-5) = -33

  Therefore, it can be estimated that the signal strength in the case of the distance 10 cm between the wireless communication terminal 200 and the image processing apparatus 100 is −33 [dB].

  Returning to FIG. 24, finally, the signal strength at the connection start distance estimated in step S2808 is stored in the signal strength reference table of the signal strength reference DB 284 in association with the device name of the image processing apparatus 100 and the IP address (step S2709). ).

  When measuring the signal strength of the device information disclosure packet received in steps S2404 and S2407, the signal intensity of one device information disclosure packet may be measured, but as shown in FIGS. 11 and 12, the device Since the received signal strength of the information disclosure packet varies, it is preferable to measure the signal strength of a plurality of device information disclosure packets and calculate an average value or a minimum value.

According to the second embodiment, the reception signal strength threshold can be determined without accurately guiding the wireless terminal 200 to the connection start distance to the image processing apparatus 100.
In the above-described embodiment, the wireless communication terminal is an example of the information processing apparatus.

<Configuration, Operation, and Effect of Embodiment of the Present Invention>
<First aspect>
The wireless communication terminal 200 (information processing apparatus) according to this aspect includes an imaging unit 222 configured to capture an image in the wireless communication terminal 200 connectable to at least one or more image processing apparatuses 100 (devices) via a wireless network; Image processing is performed based on a signal received from the image processing apparatus 100 and a distance determination unit 274 that determines the distance between the image processing apparatus 100 based on the image captured by the imaging unit 222 based on the image captured by the image processing apparatus 100. A first transmission / reception unit 252 (identification information acquisition means) for acquiring identification information related to the device 100, a received signal strength measurement unit 256 for measuring the received signal strength related to the signal received from the image processing device 100, Signal strength reference D for storing in advance a connection start distance representing the distance between the image processing apparatus 100 and the apparatus itself when starting connection with the image processing apparatus 100 284, a reception signal threshold determination unit 276 that determines a reception signal strength threshold corresponding to the connection start distance based on the distance between the own apparatus and the image processing apparatus 100 and the reception signal strength; Connection determination unit 258 determines whether or not to connect with image processing apparatus 100 by comparing with the received signal strength threshold, and when it is determined to connect with image processing apparatus 100, based on the identification information And a connection processing unit 262 configured to control connection with the image processing apparatus 100.
According to this aspect, the distance between the image processing apparatus 100 and the image processing apparatus 100 is determined based on the image obtained by imaging the image processing apparatus 100, and the image processing apparatus 100 is determined based on the signal received from the image processing apparatus 100. Acquire the relevant identification information. The received signal strength of the signal received from image processing apparatus 100 is measured, and the connection start distance representing the distance between the own apparatus and image processing apparatus 100 when starting the connection between the own apparatus and image processing apparatus 100 is stored in advance. According to the distance between the apparatus and the image processing apparatus 100 and the received signal strength, the received signal strength threshold corresponding to the connection start distance is determined, and the received signal strength and the received signal strength threshold are determined. In comparison, it is determined whether or not to connect with the image processing apparatus 100, and when it is determined to connect with the image processing apparatus 100, the connection between the own apparatus and the image processing apparatus 100 is controlled based on the identification information.
Thus, communication can be performed with the wireless communication terminal 200 when the distance between the image processing apparatus 100 and the wireless communication terminal 200 is within the connection start distance without depending on the transmission intensity of the wireless communication terminal 200.

Second Embodiment
Whether the wireless communication terminal 200 (information processing apparatus) of this aspect stores the signal strength reference DB 284 in which the received signal strength threshold and the identification information are associated with each other and stored as connection signal strength information, and the identification information in the signal strength reference DB 284 Connection determination unit 258 that determines whether the connection determination unit 258 corresponds to the received signal strength and the identification information included in the connection signal strength information when the identification information is stored in the signal strength reference DB 284 The connection processing unit 262 compares the received signal strength threshold with the received signal strength threshold to determine whether or not to connect with the image processing apparatus 100, and the connection processing unit 262 determines that the connection with the image processing apparatus 100 is to be performed. It is characterized by making a connection.
According to this aspect, the reception signal strength threshold and the identification information are associated and stored as connection signal strength information, and it is determined whether the identification information is stored in the signal strength reference DB 284 and the identification information is the signal strength When stored in the reference DB 284, the received signal strength is compared with the received signal strength threshold value corresponding to the identification information included in the connection signal strength information to determine whether to connect with the image processing apparatus 100. When it is determined to connect with the image processing apparatus 100, the connection with the image processing apparatus 100 is made.
Thereby, when the identification information is stored in advance, when the distance between the image processing apparatus 100 and the wireless communication terminal 200 becomes within the connection start distance without depending on the transmission intensity of the wireless communication terminal 200. Communication can be performed with the wireless communication terminal 200.

Third Embodiment
The wireless communication terminal 200 (information processing apparatus) of this aspect compares the distance between the own apparatus and the image processing apparatus 100 with the connection start distance, and displays a message indicating that the position of the own apparatus is moved. A display control unit 278 is provided.
According to this aspect, the distance between the own apparatus and the image processing apparatus 100 is compared with the connection start distance, and a message indicating that the position of the own apparatus is moved is displayed, so that the own apparatus and the image processing apparatus It becomes easy to adjust the distance between 100 and 100.

<Fourth aspect>
The signal strength reference DB 284 in this aspect receives the identification information related to the image processing apparatus 100 when the difference between the distance between the own apparatus and the image processing apparatus 100 and the connection start distance is within a predetermined range. It is characterized in that it is stored in association with the signal strength.
According to this aspect, when the difference between the distance between the own apparatus and the image processing apparatus 100 and the connection start distance is within a predetermined range, the identification information related to the image processing apparatus 100, and the received signal strength. When the identification information is received from the image processing apparatus 100 by being associated with each other, the signal processing apparatus 100 is set as the image processing apparatus 100 when the signal strength is equal to or higher than the reception signal strength stored in advance corresponding to the identification information. Can be connected to

<Fifth aspect>
The wireless communication terminal 200 (information processing apparatus) of this aspect includes a tilt measurement unit 272 that measures the tilt of the own device, and the distance determination unit 274 performs image processing with the own device based on the tilt of the own device and an image. It is characterized in that the distance between the device 100 is determined.
According to this aspect, even when the own device is inclined by determining the distance between the own device and the image processing device 100 based on the inclination of the own device and the image, the own device and the image The distance to the processing device 100 can be determined.

<Sixth aspect>
The received signal threshold determination unit 276 of this aspect is characterized by determining each received signal strength threshold corresponding to the connection start distance based on the plurality of received signal strengths.
According to this aspect, by determining each reception signal strength threshold corresponding to the connection start distance based on a plurality of reception signal strengths, any image processing apparatus 100 can be brought closer to within the reception signal strength threshold. For example, the own device can be connected to the image processing apparatus 100.

<Seventh aspect>
An information processing system 1 of this aspect includes the wireless communication terminal 200 according to any one of the first to sixth aspects, and an image processing apparatus 100 connectable to the wireless communication terminal 200 via a wireless network. It is characterized by having.
According to this aspect, the communication with the wireless communication terminal 200 is performed when the distance between the image processing apparatus 100 and the wireless communication terminal 200 becomes within the connection start distance without depending on the transmission intensity of the wireless communication terminal 200. Can.

Eighth Embodiment
The wireless communication method according to this aspect includes an imaging unit 222 configured to capture an image, and the information processing method by an information processing apparatus connectable to at least one or more image processing apparatuses 100 via wireless communication. The image processing apparatus 100 determines a distance between itself and the image processing apparatus 100 based on an image obtained by imaging the processing apparatus 100 (step S1302) and a signal received from the image processing apparatus 100. The identification information acquisition step of acquiring identification information related to the signal strength measurement step (step S1306) of measuring the received signal strength related to the signal received from the image processing apparatus 100, and the connection between the own apparatus and the image processing apparatus 100 Connection start distance storage which stores in advance a connection start distance representing the distance between the image processing apparatus 100 and its own device at the time of start A determination step (step S1307) of determining a reception signal strength threshold corresponding to the connection start distance based on the step, the distance between the own apparatus and the image processing apparatus 100, and the reception signal strength; A connection determining step (step S2404) of comparing with the received signal strength threshold to determine whether to connect with the image processing apparatus 100, and when it is determined to connect with the image processing apparatus 100, based on the identification information. And a connection control step (step S2406) for controlling the connection between the own apparatus and the image processing apparatus 100.
According to this aspect, the communication with the wireless communication terminal 200 is performed when the distance between the image processing apparatus 100 and the wireless communication terminal 200 becomes within the connection start distance without depending on the transmission intensity of the wireless communication terminal 200. Can.

<Ninth aspect>
The program of this aspect is characterized by causing the processor to execute each step in the information processing method described in the eighth aspect.
According to this aspect, the communication with the wireless communication terminal 200 is performed when the distance between the image processing apparatus 100 and the wireless communication terminal 200 becomes within the connection start distance without depending on the transmission intensity of the wireless communication terminal 200. Can.

100: image processing apparatus 122: operation unit 200: wireless communication terminal 252: first transmission and reception unit 254: second transmission and reception unit 256: reception signal strength measurement unit 258: connection determination unit 260: connection Information acquisition unit 262 Connection processing unit 264 Job request unit 268 Image reading unit 270 Image analysis unit 272 Tilt measurement unit 274 Distance determination unit 276 Received signal threshold value determination unit 278 Display control unit 280 Storage unit 282 Received signal strength DB 284 Signal strength reference DB 300 Wireless access point 502 First transmission / reception unit 504 Second transmission / reception unit 506 Device information disclosure Packet generation unit 508: Connection information request processing unit 510: Connection processing unit 512: QR code (registered trademark) generation unit 514: QR code (registered trademark) display control unit 516 ... job control unit, 518 ... storage unit, 520 ... device information public packet management DB, 522 ... connection information management DB

JP, 2010-47004, A

Claims (9)

In an information processing apparatus connectable to at least one or more devices via a wireless network,
Imaging means for capturing an image;
Distance determination means for determining the distance between the device and the device based on an image obtained by imaging the device by the imaging means;
Identification information acquisition means for acquiring identification information related to the device based on a signal received from the device;
Signal strength measurement means for measuring the received signal strength of the signal received from the device;
Determining means for determining the distance between a received signal strength threshold based on said received signal strength between the own apparatus and the device,
Connection determination means for determining whether or not to connect with the device by comparing the received signal strength with the received signal strength threshold;
Connection control means for controlling the connection between the own device and the device based on the identification information when it is determined to connect with the device;
An information processing apparatus comprising: Storage control means for storing the received signal strength threshold and the identification information in association with each other as connection signal strength information;
Determining means for determining whether the identification information is stored in the storage control means;
The connection determining means compares the received signal strength with the connection start signal strength corresponding to the identification information included in the connection signal strength information when the identification information is stored in the storage control means. , Determine whether to connect with the device,
The information processing apparatus according to claim 1, wherein the connection control unit performs connection with the device when it is determined that the connection with the device is to be connected. The message indicating that the position of the own device is moved is displayed by comparing the distance between the own device and the device with a connection start distance indicating the distance between the own device for starting connection and the device. The information processing apparatus according to claim 1, further comprising display control means. The storage control means
When the difference between the distance between the own device and the device and the connection start distance indicating the distance between the own device for starting connection and the device is within a predetermined range, identification information relating to the device and The information processing apparatus according to claim 1, wherein the received signal strength is stored in association with each other. Equipped with inclination measurement means for measuring the inclination of the own device,
The information processing apparatus according to claim 1, wherein the distance determination unit determines the distance between the own device and the device based on an inclination of the own device and the image. The determining means is
The information according to claim 1, characterized in that each reception signal strength threshold corresponding to a connection start distance indicating a distance between the device to start connection and the device is determined based on a plurality of reception signal strengths. Processing unit. An information processing apparatus according to any one of claims 1 to 6.
An information processing system comprising: the information processing apparatus; and an apparatus connectable via a wireless network. An image pickup means for picking up an image;
In an information processing method by an information processing apparatus connectable to at least one or more devices through wireless communication,
A distance determining step of determining a distance between the device and the device based on an image obtained by capturing the device by the imaging unit;
An identification information acquisition step of acquiring identification information related to the device based on a signal received from the device;
A signal strength measurement step of measuring a received signal strength related to a signal received from the device;
A determining step of determining the distance between a received signal strength threshold based on said received signal strength between the own apparatus and the device,
A connection determination step of comparing the received signal strength with the received signal strength threshold to determine whether to connect to the device;
A connection control step of controlling connection between the device itself and the device based on the identification information when it is determined to connect with the device;
An information processing method characterized in that:   A program causing a processor to execute each step in the information processing method according to claim 8.

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