JP4705424B2 - Communication information transfer method and communication information transfer system - Google Patents

Description

  The present invention relates to a communication information transfer method and a communication information transfer system, and more particularly to a transfer method in which an imaging terminal and an information terminal are connected wirelessly and communication information related to the imaging terminal is transmitted to the information terminal.

In recent years, as a photographing method of a digital camera device, a method of recording various information together with a photographed image has been proposed. Information attached to the image is transferred to a PC or the like and used as information for performing various post-processing. Further, as information, character string information set in advance by the user, audio information recorded by the digital camera device, information set in the photographing terminal before photographing as information temporarily input by the digital camera device, There are information such as the file name, file size, and file type related to the recorded file, unique ID information for identifying the camera, shooting conditions for the shot image, and GPS information for specifying the shooting location.
In addition, a digital camera device equipped with a communication function such as a wireless LAN and Bluetooth has been proposed. A digital camera device equipped with this communication function can be wirelessly connected to devices such as PDAs, PCs, and mobile phones equipped with the communication function, and can exchange data such as captured images and image-related information. Became.
As a prior art to be added to this image, Patent Document 1 acquires photographing information, converts it into image data, retrieves a fixed file name stored in advance in a digital camera, searches a memory card, and converts it into a fixed file. The written additional information is converted into image data. Thereafter, the Y component of the photographed image is extracted, the photographing information converted into image data is converted into watermark data and combined with the Y component, and the additional information converted into image data is converted into watermark data and combined with the Y component, Replace with the Y component of the captured image. Thus, a technique for adding imaging information and additional information as watermark data to an image is disclosed.
Patent Document 2 discloses an image processing apparatus and an image processing method that can add digital watermark information that can claim copyright without using a large-scale system and in real time to captured digital image data. Is disclosed.
JP 2001-69454 A Japanese Patent Laid-Open No. 10-308943

However, the prior art disclosed in Patent Literature 1 is configured to be detachable from the camera body, and stores a storage medium that stores image information captured by the imaging unit and additional information to be added to the image information, There is a problem that the operation is troublesome because it is necessary to retrieve and retrieve additional information from information stored in the medium.
In the prior art disclosed in Patent Document 2, watermark information data is stored in a memory in advance, and the image data and the watermark information data stored in the memory are switched by a switch and added to the image data. Data is generated by compression, and there is a problem that the number of switches for adding watermark information data to the camera increases, and the operation becomes complicated accordingly.
In view of such a problem, the present invention performs a point-to-point information transfer wireless communication connection between an information terminal and an imaging terminal in advance, and captures information related to a captured image every time shooting is performed on the imaging terminal. By automatically transferring the information to the information terminal, it becomes possible to use it as information for post-processing various images on a PDA, PC, mobile phone or the like before transferring image information with a large amount of data. An object is to provide a communication information transfer method and system.

In order to solve this problem, the present invention provides a point-to-point wireless communication between an information terminal having a wireless communication function and an imaging terminal having the wireless communication function and a photographing function. by the communication information transfer method that enables information exchange, it makes a connection information transfer wireless point-to-point communication between automatically the information terminal and the image pickup device when performing imaging by the imaging device, the imaging An information transfer procedure for transferring information related to the captured image taken by the terminal to the information terminal, and after transferring the information related to the captured image to the information terminal, the information transfer wireless communication is automatically disconnected once. A point-to-point file transfer wireless communication for file transmission, and a captured image transfer procedure for transferring the captured image to the information terminal. To.
The present invention automatically establishes a point-to-point information transfer wireless communication connection between an information terminal and an imaging terminal when shooting with the imaging terminal, and provides information related to a captured image captured by the imaging terminal. After transferring to the terminal and transferring the information related to the captured image to the information terminal, the information transfer wireless communication is automatically disconnected once, and the point-to-point file transfer wireless communication for file transmission is connected and the captured image information is transmitted. It is to be transferred to the terminal. As a result, a lot of image-related information can be received separately from the captured image, and can be used as information for post-processing various images on PDAs, PCs, mobile phones, etc. It becomes .

Claim 2 is a communication information transfer system capable of exchanging information by performing point-to-point wireless communication between an information terminal having a wireless communication function and an imaging terminal having the wireless communication function and a photographing function. in the information the performed connection information transfer wireless point-to-point communication between automatically the information terminal and the image pickup device when performing imaging by the imaging device, associated with the captured image captured by the imaging device And information transfer means for transferring the information to the information terminal, and after transferring the information related to the captured image to the information terminal, the information transfer wireless communication is automatically disconnected once, and the point-to-point file transfer wireless communication for file transmission is performed. And a captured image transfer means for transferring the captured image to the information terminal.
The present invention has the same effect as that of the first aspect .

According to the first and second aspects of the present invention, a point-to-point information transfer wireless communication connection is established, information related to a captured image captured by the imaging terminal is transferred to the information terminal, and information related to the captured image is transmitted as information. After transferring to the terminal, it automatically disconnects the information transfer wireless communication once, connects the file transmission point-to-point file transfer wireless communication, and transfers the shot image to the information terminal. Can be received separately from the captured image, and can be used as information for post-processing various images by a PDA, PC, mobile phone, or the like. In addition, since information transfer wireless communication is not always performed, power can be reduced .

Hereinafter, the present invention will be described in detail with reference to embodiments shown in the drawings. However, the components, types, combinations, shapes, relative arrangements, and the like described in this embodiment are merely illustrative examples and not intended to limit the scope of the present invention only unless otherwise specified. .
FIG. 1 is an external view of a digital camera that is an example of an imaging apparatus of the present invention. 1A is a top view, FIG. 1B is a front view, and FIG. 1C is a back view. FIG. 2 is a block diagram of a digital camera which is an example of the imaging apparatus of the present invention. First, the operation of a digital camera which is an example of an imaging apparatus of the present invention will be described with reference to FIGS. 1 and 2, a lens barrel unit (7) includes a zoom lens (7-1a) for capturing an optical image of a subject, a zoom optical system (7-1) including a zoom drive motor (7-1b), and a focus lens ( 7-2a), a focus optical system (7-2) including a focus drive motor (7-2b), an aperture (7-3a), an aperture unit (7-3) including an aperture motor (7-3b), a mechanical shutter ( 7-4a), a mechanical shutter unit (7-4) including a mechanical shutter motor (7-4b), and a motor driver (7-5) for driving each motor. The motor driver (7-5) is a CPU block (104) in a digital still camera processor (104), which will be described later, based on input from the remote control light receiving unit (6) and operation input from the operation unit key units (SW1 to SW13). The drive is controlled by the drive command from -3).
The ROM (108) stores control programs and parameters for control described in codes readable by the CPU block (104-3). When the power of the digital camera is turned on, the program is loaded into a main memory (not shown), and the CPU block (104-3) controls the operation of each part of the apparatus according to the program, as well as data necessary for control, etc. Are temporarily stored in a RAM (107) and a local SRAM (104-4) in a digital still camera processor (104) described later. By using a rewritable flash ROM for the ROM (108), it becomes possible to change the control program and parameters for control, and the function can be easily upgraded.

The CCD (101) is a solid-state imaging device for photoelectrically converting an optical image, and the F / E (front end) -IC (102) is a CDS (102-1) that performs correlated double sampling for image noise removal. AGC (102-2) for gain adjustment, A / D (102-3) for digital signal conversion, CCD1 signal processing block (104-1), vertical synchronization signal (hereinafter referred to as VD), horizontal A synchronization signal (hereinafter referred to as HD) is supplied, and a TG (102−) that generates drive timing signals for the CCD (101) and the F / E-IC (102) controlled by the CPU block (104-3). 4).
The digital still camera processor (104) performs white balance setting and gamma setting on the output data of the F / E-IC (102) from the CCD (101), and supplies the VD signal and HD signal as described above. CCD1 signal processing block (104-1), CCD2 signal processing block (104-2) for converting into luminance data / chrominance data by filtering processing, and CPU block (104-3) for controlling the operation of each unit described above The local SRAM (104-4) for temporarily storing the data necessary for the control described above, the USB block (104-5) for USB communication with an external device such as a personal computer, and the serial with an external device such as a personal computer Serial block (104-6) for communication, JPEG CODEC block for JPEG compression / decompression (104-7), a RESIZE block (104-8) for enlarging / reducing the size of the image data by interpolation processing, and converting the image data into a video signal for display on an external display device such as a liquid crystal monitor or TV. A TV signal display block (104-9) and a memory card controller block (104-10) for controlling a memory card for recording photographed image data are provided.
The SDRAM (103) temporarily stores image data when the digital still camera processor (104) performs various processes on the image data. For example, the image data to be stored is acquired from the CCD (101) via the F / E-IC (102), and the white balance setting and the gamma setting are performed by the CCD1 signal processing block (104-1). “RAW-RGB image data” in the state, “YUV image data” in which the luminance data / color difference data conversion is performed in the CCD 2 signal processing block (104-2), and JPEG compression in the JPEG CODEC block (104-7) “JPEG image data” or the like.

The memory card throttle (121) is a throttle for mounting a removable memory card.
The built-in memory (120) is a memory for storing captured image data even when no memory card is attached to the memory card throttle (121).
The LCD driver (117) is a drive circuit that drives the LCD monitor (10) to be described later, and a signal for displaying the video signal output from the TV signal display block (104-9) on the LCD monitor (10). It also has the function of converting to
The LCD monitor (10) is a monitor for monitoring the state of a subject before photographing, confirming a photographed image, displaying image data recorded in a memory card or the built-in memory (120), and the like. is there.
The video AMP (118) is an amplifier for converting the impedance of the video signal output from the TV signal display block (104-9) to 75Ω, and the video jack (119) is connected to an external display device such as a TV. Jack for.
The USB connector (122) is a connector for performing USB connection with an external device such as a personal computer.
The serial driver circuit (123-1) is a circuit for converting the voltage of the output signal of the serial block (104-6) described above in order to perform serial communication with an external device such as a personal computer. The RS-232C connector ( 123-2) is a connector for serial connection with an external device such as a personal computer.

The SUB-CPU (109) is a CPU in which ROM and RAM are built in one chip, and the CPU block described above using the output signals of the operation key units (SW1 to SW13) and the remote control light receiving unit (6) as user operation information (104-3), and the camera status output from the CPU block (104-3) described above, the sub LCD (1), AF LED (8), strobe LED (9), buzzer (described later) 113) and output.
The sub LCD (1) is a display unit for displaying, for example, the number of shootable images, and the LCD driver (111) is configured to display the sub LCD (1) described above based on the output signal of the SUB-CPU (109). A drive circuit for driving.
The AF LED (8) is an LED for displaying an in-focus state at the time of photographing, and the strobe LED (9) is an LED for representing a strobe charging state. The AF LED (8) and the strobe LED (9) may be used for another display application such as when a memory card is being accessed.
The operation key units (SW1 to SW13) are key circuits operated by the user, and the remote control light receiving unit (6) is a signal reception unit of the remote control transmitter operated by the user.
The voice recording unit (115) includes a microphone (115-3) for a user to input a voice signal, a microphone AMP (115-2) for amplifying the input voice signal, and a voice recording circuit (115) for recording the amplified voice signal. 115-3).
The audio reproduction unit (116) converts an audio reproduction circuit (116-1) that converts a recorded audio signal into a signal that can be output from the speaker, and an audio AMP (116) that amplifies the converted audio signal and drives the speaker. -2) and a speaker (116-3) for outputting an audio signal.

FIG. 3 is a hardware configuration diagram of a PDA information terminal device according to an embodiment of the present invention. The digital camera 200 stores a SYSTEM BUS 201, a CPU 202 that controls the entire system, a PROM 203 that stores a program, a RAM 204 that serves as a work area for the program and data, a captured image file, a system file, a data file, and the like. Captured from built-in Memory 205, KEY I / F control unit 206 for detecting hard keys, hard key 207 such as shutter and zoom key, camera unit 209, camera control unit 208 for controlling camera unit 209, and camera control unit 208 An image compression / decompression control unit 212 for compressing the recorded image into JPEG or decompressing JPEG data stored in the memory, image data from the camera control unit 208, and image data from the image compression / decompression control unit 212 LCD part 11, an image control unit 210 that outputs a video signal, a USB I / F control unit 213, a USB cable 214 that is connected to the printer device 221, a CF (Compact Flash) control unit 215, and a CF I / F 216. , The communication card 217 inserted into the CF I / F 216, the SD control unit 218, the SD I / F 219, the SD 220 inserted into the SD I / F 219, and the digital camera 200 via the USB cable 214 or the communication card 217. And a microphone 223 for inputting sound, and an A / D conversion unit 222 for digitally converting an analog sound signal from the microphone 223.
In normal shooting, the hard key 207 recognizes the start of shooting. The camera unit 209 captures an image. The image control unit 210 converts the image signal output from the camera unit 209 into frame data such as RGB data or YcbCr data, performs necessary image processing, and then transfers the image data to the RAM 204. The transferred image data is compressed into image data such as JPEG by the image compression / decompression control unit 212 and transferred to the RAM 204 again. Image data such as JPEG stored in the RAM 204 is recorded in the SD card 220 via the built-in Memory 205 or the SD control unit 218 after performing necessary header processing.
Compared with the block diagram of the digital camera shown in FIG. 2, the lens barrel unit (7) is in the camera unit 209, and the F / E (front end) -IC (102) including the CCD (101) is in the camera control unit 208. The CCD 1 signal processing block (104-1) and the CCD 2 signal processing block (104-2) correspond to the image control unit 210. The camera function portion of the PDA information terminal device of FIG. 3 may be inferior in performance to the digital camera device shown in FIG. 2, but the basic functions are the same. In the present invention, both a digital camera device and a PDA information terminal device can be realized if a basic camera function is mounted.

FIG. 4 is a diagram showing a display method of camera memo data according to an embodiment of the present invention. The camera memo data 40 is divided into an in-data item 41 and a small item 42. Category 1, Category 2, Category 13, Category 4, and Category 5 in FIG. 4A correspond to the middle item 41. Small items are linked under the middle item 41. For example, “Camera Memory 01”, “Camera Memory 23”, “Camera Memory 32”, “Camera Memory 33”, and “Camera Memory 14” in FIG. Also, the middle item data 41a of Category1, Category2, Category3, Category4, and Category5 displayed in FIG. 4B, and Camera Memory01, CameraMemory23, CameraMemory32, CameraMemo33, and CameraMemo data, The data is recorded together with the captured image information on a memory card mounted via the built-in memory (120) or the memory card throttle (121).
In the screen of FIG. 4A, a small item linked to the middle item 41 of Category1, Category2, Category3, Category4, and Category5 can be selected. Each Category is pre-registered in the system from Camera Memo01 to Camera Memo50. The TEMPORARY 43 temporarily inputs information using the operation key units (SW1 to SW13) of FIG. 2 in addition to the data registered in advance in the system. In addition to the Camera Memo01 to Camera Memo50 and TEMPORARY information, the RECORD 44 uses the microphone (115-3), the microphone AMP (115-2), and the voice recording circuit (115-1) to register large-capacity data such as voice data. And selectable.

FIG. 5 is a diagram showing the data structure of camera memo data according to an embodiment of the present invention. The camera memo data structure shown in FIG. 5 corresponds to the display method shown in FIG. For example, the registration number of the category data 45 is 5 at the maximum, and the maximum data length is 32 bytes. The maximum number of registrations of the Camera Memo data 46 is 50, and the maximum data length is 32 bytes. The maximum number of registered Sound Memo data 47 is 5, and the maximum data length is 64 Kbytes. The Category data, the Camera Memory data, and the TEMPORARY data are text format information, and the Sound Memory data is PCM format data.
The format of the camera memo data shown in FIGS. 4 and 5 is merely an embodiment, and the information format such as the text format and the PCM format, the maximum number of registrations, and the maximum data length are limited in the present invention. It is not a thing.
The digital camera device shown in FIG. 2 implements Bluetooth communication using a Bluetooth card attached via a memory card throttle (121) or using a Bluetooth circuit (130).

FIG. 6 is a diagram illustrating a Bluetooth protocol stack structure according to an embodiment of the present invention. The Bluetooth protocol stack on the device side includes an HW device driver 50 that directly controls hardware, an HCI (Host Controller Interface) 51 that controls communication between the host and the host controller, logical channel settings, and layer packet division, L2CAP (Logical Link Control and Adaptation Protocol) 52 that performs assembly, RFCOMM 53 that converts a Bluetooth wireless communication protocol to an I / F such as RS232C, and OBEX (Object Exchange) 54 that transmits / receives data (object) SDP (Service Discovery Protocol) 55 for searching for Bluetooth device services, DUN (DialUp Network) 56 for realizing dial-up communication, BIP (Basic Image Protocol) 57 for transmitting / receiving images, and serial communication Realize S PIP (Serial Port Profile) 58, BIP Application 59 that controls BIP 57 to realize image transmission / reception, OPPA application 60 that controls OBEX 54 to realize file transmission / reception, and DUN 56 to realize dial-up communication Network Application 61, SPPA application 62 that controls the SPP 58 to realize serial communication, and an SDPA application 63 that controls the SDP 55 to search for a Bluetooth device.
The Bluetooth card via CF card I / F64 connects the HCI Firmware 65 that controls communication between the host and the host controller, the Link Manager Firmware 66 that controls the establishment of the connection between the Bluetooth devices, and the physical wireless part and Bluetooth. Baseband Controller 67 is configured.

FIG. 7 is a Bluetooth SPP protocol sequence diagram according to the first embodiment of the present invention. The SPP protocol provides a Bluetooth serial communication function. The imaging terminal 70 automatically executes Bluetooth SPP connection to the information terminal 71 using SPPA application when the power is turned on. As the partner information, the previous connection partner may be used or registered in the imaging terminal 70 in advance. After the Bluetooth SPP is connected between the imaging terminal 70 and the information terminal 71, image-related information is transferred to the information terminal every time imaging is performed by the imaging terminal 70. The imaging terminal automatically disconnects the Bluetooth SPP from the information terminal 71 when the power is turned off.
This embodiment will be described on the premise that the Bluetooth SPP information transfer method for each photographing and the SPP are always connected. The present embodiment is an information terminal having a wireless communication function having a system configuration as shown in FIG. 3, and an imaging having a wireless communication function and a photographing function having the system configuration as shown in FIG. The protocol stack shown in FIG. 6 is installed between terminals, and point-to-point wireless communication can be performed using SPPA application and SPP as shown in FIG. 7 to exchange information by serial communication. A simple system.
By implementing the above functions, before transferring image information with a large amount of data, it can be used as information for post-processing various images on PDAs, PCs, mobile phones, etc. Become.

FIG. 8 is a Bluetooth SPP protocol sequence diagram according to the second embodiment of the present invention. The SPP protocol provides a Bluetooth serial communication function. The imaging terminal 70 automatically executes Bluetooth SPP connection to the information terminal 71 using SPPA application when the power is turned on. As the partner information, the previous connection partner may be used or registered in the imaging terminal in advance. Thereafter, the Bluetooth SPP between the imaging terminal 70 and the information terminal 71 is disconnected due to the line status and the convenience of the information terminal. When photographing with the imaging terminal 70, it is determined whether or not the Bluetooth SPP is connected. If not connected, the Bluetooth SPP is connected between the imaging terminal 70 and the information terminal 71. After the connection, the image related information is transferred to the information terminal 71 every time the imaging terminal 70 performs imaging. The imaging terminal 70 automatically disconnects the Bluetooth SPP from the information terminal 71 when the power is turned off.
In the present embodiment, the information terminal having the wireless communication function having the system configuration as shown in FIG. 3 and the wireless communication function and the photographing function having the system configuration as shown in FIG. The protocol stack shown in FIG. 6 is installed between the imaging terminals, and point-to-point wireless communication is performed using SPPA application and SPP as shown in FIG. It realizes a possible system.
By implementing the above functions, before transferring image information with a large amount of data, it can be used as information for post-processing various images on PDAs, PCs, mobile phones, etc. Become. Further, since the wireless communication reconnection for information transfer is automatically performed, the convenience of claim 1 can be improved.

FIG. 9 is a Bluetooth SPP protocol sequence diagram according to the third embodiment of the present invention. The SPP protocol provides a Bluetooth serial communication function. The OPP protocol provides a Bluetooth file transfer function. In this embodiment, file transfer is realized using the OPP protocol, but file transfer can also be realized using the BIP protocol. When shooting with the imaging terminal 70, the information terminal 71 is automatically connected to the Bluetooth SPP by using SPPA application. As the partner information, the previous connection partner may be used or registered in the imaging terminal in advance. When the image related information is sent to the information terminal 71, the Bluetooth SPP is disconnected. After that, the Bluetooth OPP connection is executed using OPPA application, and the captured file is transmitted.
In the present embodiment, the information terminal having the wireless communication function having the system configuration as shown in FIG. 3 and the wireless communication function and the photographing function having the system configuration as shown in FIG. The protocol stack shown in FIG. 6 is implemented between the imaging terminals, and point-to-point wireless communication is performed using SPPA application, SPP, OPPA application, and OPP as shown in FIG. It is possible to realize a system capable of exchanging information on the Internet and a system capable of transferring files via file communication.
By implementing the above functions, a lot of information related to the image can be received separately from the captured image, and information for post-processing various images by PDA, PC, mobile phone etc. It becomes possible to use as. Compared with claims 1 and 2, information transfer wireless communication is not always performed, which is advantageous in terms of power.

FIG. 10 is a Bluetooth SPP protocol sequence diagram according to the fourth embodiment of the present invention. The SPP protocol provides a Bluetooth serial communication function. The OPP protocol provides a Bluetooth file transfer function. In this embodiment, file transfer is realized using the OPP protocol, but file transfer can also be realized using the BIP protocol. The imaging terminal 70 automatically executes Bluetooth SPP connection to the information terminal 71 using SPPA application when the power is turned on. As the partner information, the previous connection partner may be used or registered in the imaging terminal 70 in advance. When photographing with the imaging terminal 70, the Bluetooth SPP is automatically disconnected from the information terminal 71. When the disconnection is completed, the Bluetooth OPP connection is executed using OPPA application, and the captured file is transmitted. When the file transmission is completed, the Bluetooth OPP is disconnected, and the Bluetooth SPP disconnected before the file transmission is reconnected.
In the present embodiment, the information terminal having the wireless communication function having the system configuration as shown in FIG. 3 and the wireless communication function and the photographing function having the system configuration as shown in FIG. The protocol stack shown in FIG. 6 is implemented between the imaging terminals, and point-to-point wireless communication is performed using SPPA application, SPP, OPPA application, and OPP as shown in FIG. It is possible to realize a system capable of exchanging information on the Internet and a system capable of transferring files via file communication.
By carrying out the above processing, the effect of claim 1 can be ensured even when file unit transfer is executed, and convenience is improved.

1 is an external view of a digital camera that is an example of an imaging apparatus of the present invention. 1 is a block diagram of a digital camera that is an example of an imaging apparatus of the present invention. It is a block diagram of the hardware of the PDA information terminal device which is one Example of this invention. It is a figure which shows the display system of the camera memo data of one Embodiment of this invention. It is a figure which shows the data structure of the camera memo data of one Embodiment of this invention. It is a figure which shows the Bluetooth protocol stack structure of one Embodiment of this invention. It is a BluetoothSPP protocol sequence diagram which is the 1st Embodiment of this invention. It is a BluetoothSPP protocol sequence diagram which is the 2nd Embodiment of this invention. It is a BluetoothSPP protocol sequence diagram which is the 3rd Embodiment of this invention. It is a BluetoothSPP protocol sequence diagram which is the 4th Embodiment of this invention.

Explanation of symbols

  200 Digital Camera, 201 SYSTEM BUS, 202 CPU, 203 PROM, 204 RAM, 205 Built-in Memory, 206 KEY I / F Control Unit, 207 Hard KEY, 208 Camera Control Unit, 209 Camera Unit, 210 Image Control Unit, 211 LCD Unit 212, image compression / decompression control unit, 213 USB I / F control unit, 214 USB cable, 215 CF (Compact Flash) control unit, 216 CF I / F, 217 communication card, 218 SD control unit, 219 SD I / F, 220 SD, 221 Printer device, 222 A / D converter, 223 Microphone

Claims (2)

In a communication information transfer system that enables information exchange by performing point-to-point wireless communication between an information terminal having a wireless communication function and an imaging terminal having the wireless communication function and a photographing function,
Provides connection for information transfer wireless point-to-point communication between automatically the information terminal and the image pickup device when performing imaging by the imaging device, wherein the information related to the captured image captured by the imaging device Information transfer procedure for transferring to an information terminal and connection of point-to-point file transfer wireless communication for file transmission after automatically transferring the information transfer wireless communication once information related to the captured image is transferred to the information terminal And a captured image transfer procedure for transferring the captured image to the information terminal. In a communication information transfer system that enables information exchange by performing point-to-point wireless communication between an information terminal having a wireless communication function and an imaging terminal having the wireless communication function and a photographing function,
Provides connection for information transfer wireless point-to-point communication between automatically the information terminal and the image pickup device when performing imaging by the imaging device, wherein the information related to the captured image captured by the imaging device Information transfer means for transferring to the information terminal, and connection of the point-to-point file transfer wireless communication for automatically transmitting the file after temporarily transferring the information transfer wireless communication after transferring the information related to the captured image to the information terminal And a captured image transfer means for transferring the captured image to the information terminal.

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