JP4114350B2 - Electronic camera, electronic device, image transmission system, and image transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information transmission system and an information transmission method for exchanging data between portable terminals and the like, and more particularly, to a cellular phone with an image display function for electronic image data obtained by photographing a desired subject using a photographing device such as an electronic camera. The present invention relates to an image transmission system and an image transmission method for transmitting to an electronic device such as a terminal.
[0002]
[Prior art]
In the case where image data shot with a conventional electronic camera is transferred to another image display terminal for viewing, the image data is temporarily stored in a memory card and the memory card is installed offline in another image display terminal. There are known an information transmission method and an online information transmission method in which image data is transmitted wirelessly or by wire from an electronic camera to another image display terminal. For example, Japanese Patent Laid-Open No. 10-341388 discloses an image transmission system that directly transmits image data from an electronic camera to another electronic camera by optical communication using infrared rays.
[0003]
[Problems to be solved by the invention]
In the conventional offline image transmission system and image transmission method as described above, it is necessary to exchange an information storage medium such as a memory card. Therefore, it is necessary to remove and install the storage medium one by one. In other words, the data cannot be acquired and recorded, and the recording medium must be physically transported, and it takes time until the data can be used on the receiving side.
[0004]
In addition, in the conventional online image transmission system and image transmission method as described above, it is not necessary to transport the information recording medium. However, if the communication speed at the time of transmission is low, data acquisition such as shooting is also performed during communication. There was a drawback that recording was not possible. In particular, the amount of data for image data tends to increase because the amount of data is very large compared to general document data and the like. In addition, when taking a group photo of a large number of people with an electronic camera and distributing the captured image data directly from the electronic camera to a large number of people's mobile phones, etc., the transmission of the image data is enormous. I took it.
[0005]
Therefore, the present invention has an object to provide an image transmission system and an image transmission method in which an image transmission side is less burdened during image transmission and an image is transmitted to the image reception side in a short time. It is an object of the present invention to provide an image transmission system and an image transmission method capable of quickly transmitting image data to a partner electronic device without imposing a large burden on the electronic camera side. Further, it is intended to provide an image transmission system and an image transmission method capable of distributing image data captured by an electronic camera to a mobile terminal possessed by a plurality of persons who have quickly become subjects without imposing a heavy burden on the electronic camera. Objective.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, in the information transmission system (image transmission system) and information transmission method (image transmission method) according to the present invention, the information generation device (imaging device, electronic camera) has a function of connecting to the Internet, The identification information (file name) is attached to the information (image) that has been transmitted to a predetermined information server (image server) on the Internet and stored (upload), and the electronic device that is the transmission destination of the information (image) Is directly connected using near field communication, transmits destination information of the information server (image server) on the Internet and identification data of the generated information (image) to the electronic device, and the electronic device receives the received destination Read (download) information (image) from an information server (image server) on the Internet based on the information and identification data. It is characterized in.
[0007]
In order to achieve the above object, in the information transmission system (image transmission system) and the information transmission method (image transmission method) according to the present invention, the information generation device (imaging device, electronic camera) is a transmission destination of information (image). Directly connect to an electronic device using short-range communication, receive destination information on the Internet of the electronic device from the other electronic device, and temporarily send the destination information of the electronic device together with the generated information (image) on the Internet The information server (image server) transmits (uploads) the information to a predetermined information server (image server), and the information server (image server) automatically transmits the received information (image) to an electronic device corresponding to the received destination information. .
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a conceptual diagram of an embodiment of the present invention, in which an electronic camera shoots a subject within a shooting range, attaches a file name to image data obtained as a result of shooting, and connects to an image server on the Internet The image data is uploaded to a predetermined folder of the image server. In addition, the electronic camera transmits the destination information (address on the Internet of the image server = URL: Uniform Resource Locator, the folder name on the image server) Image file name). An electronic device (such as a mobile phone) possessed by the subject connects to an image server on the Internet based on related information received from the electronic camera by short-range wireless communication, and acquires the image data from a predetermined folder on the image server. Download and display on screen.
[0009]
FIG. 2 is a conceptual diagram of an information transmission system using an electronic camera, an image server, and a mobile phone terminal to which the present invention is applied. In FIG. 2, the electronic camera 100 captures a subject existing within the capturing range, and generates electronic image data or digital image data (hereinafter referred to as image data). The electronic camera 100 has a wireless telephone function, and is connected to the public telephone line network 140 via the base station 120 by a wireless portable telephone line 190. The public telephone line network 140 is further connected to the Internet 130, and the electronic camera 100 is connected to an image server 150 installed on the Internet 130. The image server 150 has a large-capacity memory for storing image data. The image server 150 stores image data uploaded via the Internet 130 in a folder set for each user, and there is a request for reading from the outside via the Internet 130. In this case, the designated image data is downloaded via the Internet 130. The electronic camera 100 connects to the image server 150 and uploads and stores image data in a predetermined folder.
[0010]
Further, the electronic camera 100 has a short-range wireless communication function such as Bluetooth, and communicates with the mobile phone 160 having the short-range wireless communication function of the same method through the short-range wireless line 180 and identifies the image server that uploaded the image data. Data (URL), folder identification data (folder name), and image data identification data (file name) are transferred to the mobile phone terminal 160. It is assumed that a person who is the subject of the electronic camera 100 is possessed, and this mobile phone 160 has a UIM card (User Identify Module Card) 170 for storing user personal information and storing image data. Installed.
[0011]
The mobile phone 160 has a wireless telephone function, and is connected to the public telephone line network 140 via the base station 120 by the wireless mobile telephone line 190. The public telephone line network 140 is further connected to the Internet 130, and the mobile phone 160 is connected to the image server 150 installed on the Internet 130. The mobile phone 160 connects to the image server 150, downloads image data to a predetermined folder, stores it in the UIM card 170, and displays the downloaded image data on the screen.
[0012]
Bluetooth is a short-distance weak transmission output mobile communication technology that covers a short distance of about 10 m using radio waves in the 2.45 GHz band and realizes a one-to-one or one-to-many connection at a transfer rate of 1 Mbps. (For portable electronic devices).
[0013]
3 and 4 are external views (front view and back view) of the electronic camera 100 according to the embodiment shown in FIG. As shown in FIG. 3, a photographing lens 10 for forming a subject image, a finder 11 for confirming a photographing screen, a strobe 12 for illuminating the subject during photographing, and the brightness of the subject are formed on the front surface of the electronic camera 100. A photometric circuit 13 for detection, a grip portion 14 protruding from the camera body for holding the electronic camera 100 by hand, and a release button 16 for instructing the start of shooting on the upper surface, the power supply of the electronic camera 100 are provided. A power switch 17 (a momentary switch that switches between ON and OFF for each operation) for performing ON / OFF control is provided.
[0014]
As shown in FIG. 4, on the back of the electronic camera 100, the eyepiece of the finder 11, a left LCD (left screen) 21 having a substantially square screen for displaying text and images, and a substantially square for displaying text and images. A right LCD (right screen) 22 having the following screen is arranged. In the vicinity of the left side of the left LCD 21, an up button 23 and a down button 24 for scrolling an image displayed on the left screen 21, a right LCD 22 and the left Around the LCD 21, a shooting mode button 25 for setting the electronic camera 100 to a shooting mode, a playback mode button 26 for setting the playback mode, a print button 27 for printing image data, and transmission for transmitting image data. A button 28 and a download button 29 for downloading image data are arranged. The upload dial 32 is an operation member for selecting an image server for uploading image data by a rotation operation, and an image server corresponding to a number corresponding to the position of the dot 31 is selected. A memory card slot 30 for mounting a memory card 77 is provided on the side surface.
[0015]
The release button 16, the up button 23, the down button 24, the shooting mode button 25, the playback mode button 26, the print button 27, the send button 28, the download button 29, and the upload dial 32 are all operation keys operated by the user. is there.
[0016]
On the surface of the left LCD 21 and the right LCD 22, a so-called touch screen 66 having a function of outputting position data corresponding to a position instructed by a finger touch operation is arranged, and selection items displayed on the screen and It can be used to select image data. The touch screen 66 is made of a transparent material such as glass resin, and the user can observe an image or text formed inside the touch screen 66 through the touch screen 66.
[0017]
FIG. 5 is an external view (front view) of an embodiment of the mobile phone 160 shown in FIG. As shown in FIG. 5, the mobile phone 160 includes a display screen 161, operation keys 162, and a card slot for installing a UIM card.
[0018]
FIG. 6 is a block diagram showing an example of the internal electrical configuration of the electronic camera 100 shown in FIGS. 3 and 4. Each component has a data / control bus 51 for transmitting various information data and control data. Are connected to each other. Each component is roughly classified into the following five blocks. A wireless communication circuit 71 that communicates with a block centering the imaging control circuit 60 that performs an imaging operation of image data and an electronic device in the vicinity of the electronic camera 100 by short-range wireless communication (such as Bluetooth) and a wireless mobile phone A block centering on a radiotelephone circuit 72 that transmits / receives data to / from the outside using a telephone line, a block of a memory card 77 that stores and saves image files, and a screen control circuit 92 that displays image data and related information , And a block centering on a user interface such as operation keys 65 and a CPU 50 that performs overall control on each control circuit.
[0019]
The CPU 50 (central processing unit) is a means for controlling the entire electronic camera 100, and includes an operation key 65, a touch screen 66, a power switch 17, a timer 74, and a photographing control circuit 60 according to input information from the photometry circuit 13. Various instructions are given to the wireless communication circuit 71, the wireless telephone circuit 72, the screen control circuit 92, and the power supply control circuit 64. The photometry circuit 13 measures the luminance of the subject and outputs photometry data as the measurement result to the CPU 50. The CPU 50 sets the exposure time and sensitivity of the CCD 55 by the CCD drive circuit 56 according to the photometric data, and controls the aperture value of the diaphragm 53 by the aperture control circuit 54 via the photographing control circuit 60 according to the set data.
[0020]
In the shooting mode, the CPU 50 controls the shooting operation via the shooting control circuit 60 according to the operation of the release button 15. Further, when the subject is dark based on the photometric data, the CPU 50 causes the strobe 12 to emit light via the strobe driving circuit 73 at the time of shooting. The timer 74 has a built-in clock circuit, detects date / time information corresponding to the current date / time, and supplies the shooting date / time information to the CPU 50 at the time of shooting. CPU50 controls each part according to the control program memorize | stored in ROM67 (read-only memory). An EEPROM 68 (electrically erasable and writable ROM) is a non-volatile memory and stores setting information and the like necessary for the operation of the electronic camera 100. The RAM 70 is a volatile memory and is used as a work area for the CPU 50. The CPU 50 detects the operation state of the power switch 17 and controls the power source 63 via the power control circuit 64.
[0021]
The photographing control circuit 60 performs focusing and zooming of the photographing lens 10 by the lens driving circuit 52, controls the exposure amount of the CCD 55 by controlling the diaphragm 53 by the diaphragm control circuit 54, and controls the operation of the CCD 55 by the CCD driving circuit 56. To do. The light flux from the subject is formed as a subject image on the CCD 55 through the diaphragm 53 for adjusting the amount of light by the photographing lens 10, and this subject image is picked up by the CCD 55. A CCD 55 (charge coupled device) having a plurality of pixels is a charge storage type image sensor for capturing a subject image, and an electric image signal corresponding to the strength of the subject image formed on the CCD 55 is driven by the CCD. In response to the drive pulse supplied by the circuit 56, the signal is output to the analog processing unit 57.
[0022]
The imaging control circuit 60 repeats the above operation, and the screen control circuit 92 reads the digital data sequentially stored in the imaging buffer memory 59 via the data / control bus 51 and temporarily stores it in the frame memory 69. Is converted into display image data, re-stored in the frame memory 69, and the operation of displaying the display image data on the left screen 21 is repeated. The screen control circuit 92 obtains text display information from the CPU 50 as necessary, converts it into display text data, stores it in the frame memory 69, and displays the display text data on the left screen 21 and the right screen 22. . In this manner, in the shooting mode, the image captured by the CCD 50 is displayed in real time on the left screen 21, so that it is possible to perform composition setting for shooting using this through image as a monitor screen. Become. The photographing control circuit 60 detects the focus adjustment state of the photographing lens 10 by analyzing the degree of the high frequency component of the digital data stored in the photographing buffer memory 59, and the lens driving circuit 52 adjusts the focus of the photographing lens 10 according to the detection result. Do.
[0023]
When photographing, the photographing control circuit 60 receives a photographing instruction from the CPU 50, causes the CCD 55 to pick up a subject image, and the image signal generated by the picking up through the analog processing unit 57 and the A / D conversion circuit 58. And temporarily stored as digital data (raw data) in the photographing buffer memory 59. The shooting control circuit 60 converts or compresses the digital data once stored in the shooting buffer memory 59 into a predetermined recording format (JPEG or the like) to form image data, and stores the image data in the shooting buffer memory 59 again.
[0024]
The CPU 50 wirelessly outputs the image data from the antenna 76 by the wireless telephone circuit 72 and uploads the image data to the folder of the image server on the Internet. At the same time, the identification data of the uploaded image server, the identification data of the folder, the image data The identification data is wirelessly output from the antenna 75 by the wireless communication circuit 71. Thereafter, the CPU 50 converts the image data stored in the shooting buffer memory 59 into reduced image data (hereinafter referred to as thumbnail image data) with a reduced data amount for storage, and the thumbnail image data includes related information (identification of the image server). Data, folder identification data, and image data identification data) are added and stored in the memory card 77.
[0025]
In the playback mode, the screen control circuit 92 reads out the thumbnail image data instructed to the CPU 50 from the memory card 77, temporarily stores it in the frame memory 69, displays the thumbnail image data on the left screen 21, and follows the instruction of the CPU 50. Then, text data such as a description of the reproduction mode is stored in the frame memory 69 and the text data is displayed on the right screen 22. When the print button 27 is operated in the reproduction mode, the CPU 50 performs an operation for causing the printer to print image data corresponding to the thumbnail image data being reproduced. In addition, when the transmission button 28 is operated in the reproduction mode, the CPU 50 performs an operation of transmitting image data corresponding to the thumbnail image data being reproduced to the electronic device of the other party.
[0026]
When the download button 29 is operated in the reproduction mode, the CPU 50 downloads image data corresponding to the thumbnail image data being reproduced from the image server by the wireless telephone circuit 72 and sets it in the frame memory 69. The screen control circuit 92 converts the image data set in the frame memory 69 into display image data, stores it again in the frame memory 69, and displays the display image data on the left screen 21.
[0027]
FIG. 7 is a block diagram showing an example of the internal electrical configuration of the mobile phone 160 shown in FIG. 5, and each component is connected around the CPU 151. The CPU 151 (central processing unit) is a means for controlling the mobile phone 160 as a whole, and includes a wireless communication circuit 171 and a wireless telephone circuit 172 according to input information from the operation keys 162, the touch screen 166, the power switch 117, and the timer 174. The display screen 161 and the power source 163 are controlled. In the call mode, the CPU 151 converts the voice input from the microphone 164 into voice data, causes the radiotelephone circuit 172 to wirelessly transmit and output from the antenna 176 to the outside, and the voice received from the outside by the radiotelephone circuit 172 via the antenna 176. The data is reproduced by voice through the speaker 165.
[0028]
In the Internet mode, the CPU 151 exchanges information regarding image data with the antenna 175 and the wireless communication circuit 171 by short-range wireless communication with the electronic camera 100, and obtains related information (image server identification data and folder identification). Based on the data and the identification data of the image data), it connects to the image server on the Internet via the wireless telephone circuit 172, downloads the desired image data, reproduces and displays the image data on the display screen, Save to flash memory 168.
[0029]
The CPU 151 controls each unit according to a control program stored in the ROM 167 (read only memory). The flash memory 168 (electrically erasable and writable memory) is a nonvolatile memory, and stores image data and the like. The RAM 169 is a volatile memory and is used as a work area for the CPU 151. The CPU 151 controls the power supply 163 by detecting the operation state of the power switch 117.
[0030]
FIG. 8 is a diagram showing the relationship between the number set for the upload dial 32 of the electronic camera 100 shown in FIG. 4 and the upload destination image server. As shown in FIG. It corresponds to the image servers W, X, Y, and Z.
[0031]
FIG. 9 shows the structure of data stored in the memory card 77. As shown in FIG. 9, the memory card 77 stores a plurality of image files. Each image file is composed of thumbnail image data and additional information data. The additional information data includes shooting information data (FIG. 10) indicating various settings at the time of shooting and upload information data when the image data is uploaded to the image server. The upload information data includes date / time data when image data is uploaded to the image server, image server identification data (upload destination URL), folder name, file name, image data amount, image data recording format, and the like.
[0032]
FIG. 10 is a diagram illustrating the configuration of the shooting information data, which includes shooting date / time data, shooting lens settings at the time of shooting, and setting information related to camera settings.
[0033]
FIG. 11 is a state transition diagram of an embodiment of an electronic camera according to the present invention. The operation mode of the electronic camera 100 includes two modes, a shooting mode and a playback mode, and the mode is changed between the two operation buttons (the shooting mode button 25 and the playback mode button 26). When the power is turned on, first the mode is changed to the shooting mode. In the shooting mode, a shooting operation, an operation of uploading image data to an image server, a conversion of image data to thumbnail image data and a storage operation to the memory card 77, and a short-distance wireless communication operation with a mobile phone are executed. In the reproduction mode, a thumbnail image data reproduction operation, an image data download operation from the image server, an image data transmission operation to a mobile phone, and a print operation of image data by a printer are performed.
[0034]
FIG. 11 is a main flowchart of the operation of the electronic camera 100 (CPU 50) in the above embodiment. First, when the power switch 17 is operated in S10, the power is turned on, and in S20, a shooting mode subroutine is executed and a shooting is possible. When the release button 16 is operated during the shooting mode, a release interrupt processing subroutine of S30 is executed and a shooting operation is performed. The captured image data is uploaded to an image server on the Internet designated by the upload dial 32 through a wireless telephone line, converted into thumbnail image data, stored in the memory card 77, and uploading of image data. Information is automatically transmitted to the mobile phone 160 possessed by the subject in the vicinity of the electronic camera 100 by short-range wireless communication.
[0035]
In addition, when two operation buttons (shooting mode button 25 and playback mode button 26) are operated in each operation mode, the mode switching interrupt process of S50 is started, and switching to each mode is performed according to the type of the operation button.
[0036]
In the playback mode of S60, the image file stored in the memory card 77 is read, the thumbnail image data is played back and displayed on the display screen, and when the transmission button 28 is operated, the transmission interrupt processing subroutine of S70 is executed and selected. Information about uploading image data corresponding to the thumbnail image data is transmitted to the mobile phone 160 possessed by the subject in the vicinity of the electronic camera 100 by short-range wireless communication, and is received from the electronic camera 100 by the mobile phone 160. Based on the information, it automatically connects to an image server on the Internet, downloads image data, displays it on a screen, and saves it on a UIM card.
[0037]
When the print button 27 is operated during the reproduction mode, the print interrupt processing subroutine of S80 is executed, and information regarding uploading of image data corresponding to the selected thumbnail image data is in the vicinity of the electronic camera 100 by short-range wireless communication. In addition to being transmitted to the printer, the printer automatically connects to an image server on the Internet based on information received from the electronic camera 100, downloads image data, and executes printing.
[0038]
When the download button 29 is operated during the playback mode, the download interrupt processing subroutine of S90 is executed, and the image data corresponding to the selected thumbnail image data is downloaded from the image server to which the image data is uploaded using a wireless telephone line. Play on the display screen.
[0039]
FIG. 13 is a detailed flowchart of the shooting mode subroutine. When activated in S20, the processing in S201 is repeated. In S201, image data sequentially generated by the CCD 55 based on the shooting setting conditions set by the user is displayed on the left screen 21 as shown in FIG. 14, and the shooting setting conditions at that time are displayed as text on the right screen 22 in FIG. FIG. 4 is a detailed flowchart of a release interrupt processing subroutine. When the release interrupt processing subroutine is activated in S30, it is checked in S301 whether the shooting mode is selected. In the shooting mode, the imaging operation is executed under the shooting setting conditions set by the user in S302 to generate image data. In S303, the image data is converted into thumbnail image data, and upload information data is added to the image. It is stored in the memory card 77 as a file. In step S304, the wireless communication unit 71 attempts wireless communication with an electronic device (a mobile phone held by the person who is the subject) around the electronic camera 100. At this time, the signal transmission output at the time of wireless communication is changed according to the focal length of the photographing lens 10. For example, it is presumed that the subject is present at a longer distance as the focal length is longer, so the signal transmission output level is increased. If the communication is not established in S305, the process returns in S311. When the communication is established, image data upload information is transmitted to the electronic device of the communication partner with which the communication is established in S306. Display of the image data photographed in S307 is started.
[0040]
In S308, the image data is uploaded to a predetermined folder (a folder unique to the photographer or the electronic camera 100) of the image server designated by the upload dial 32. When the image data upload is completed, in step S309, the wireless communication unit 71 notifies the electronic devices around the electronic camera 100 of the completion of the image data upload. In S310, the display of the image data is terminated, and the process returns in S311, and the display of the through image is started again in the photographing mode.
[0041]
FIG. 16 is a sequence diagram for explaining a wireless communication operation performed between the electronic camera and the electronic device (mobile phone) at the time of the release interrupt processing. First, when a release operation is performed on the electronic camera 100 side. In response to this, a shooting operation is performed, and then the image data is converted into thumbnail image data and stored. Next, wireless communication of (1) search communication is attempted from the electronic camera 100 side to surrounding electronic devices. (1) In search communication, identification information of the electronic camera 100 indicating the transmission source is transmitted.
[0042]
In response to this (1) search communication, in response to this, the electronic device sends a response (2) to the electronic camera 100 to transmit the identification information of the transmission source electronic device and the transmission destination electronic camera identification information. To do.
[0043]
(2) Upon receiving the response, the electronic camera 100 confirms the communication partner based on the identification information of the electronic device, and specifies (3) information transmission in order to identify the electronic device of the communication partner and transmit the upload information. Execute. (3) In the information transmission, identification information of the transmission destination electronic device, identification information of the transmission source electronic camera 100, upload information, thumbnail image data, and the like are transmitted.
[0044]
(3) The electronic device corresponding to the identification information of the electronic device included in the information transmission responds to the electronic camera 100 and (4) transmits the information. (4) The information transmission includes identification information of the destination electronic camera 100, identification information of the electronic device indicating the transmission source, and related information (image server information specified by the electronic device).
[0045]
When the electronic camera 100 receives (4) information transmission from the electronic device, the electronic camera 100 uploads the image data to an image server on the Internet via a wireless telephone line. When the upload of the image data is completed, the electronic camera 100 transmits (5) upload completion notification to the electronic device. The electronic device that has received this information connects to an image server on the Internet via a wireless telephone line based on the upload information received in (3) information transmission, and downloads and uses the designated image data.
[0046]
If the response (2) is received from a plurality of electronic devices, the electronic camera 100 may transmit the information (3) to the electronic device by a one-to-many simultaneous communication, or a pair for each electronic device. You can do it in one communication. In this case, (4) information transmission is performed a plurality of times.
[0047]
FIG. 17 is a detailed flowchart of a mode switching interrupt processing subroutine activated by operating the operation buttons (shooting mode button 25, playback mode button 26). When activated in S50, the button operated in S501 is the shooting mode button 25. If it is the shooting mode button 25, the process proceeds to the shooting mode subroutine of S20. If it is not the shooting mode button 25, the process proceeds to the reproduction mode subroutine of S60.
[0048]
FIG. 18 is a detailed flowchart of the playback mode subroutine. When the playback mode subroutine is started in S60, the process of S601 is repeated. In S601, the thumbnail image data in the image file stored in the memory card 77 is read out from the new data in the order of shooting date and time and reproduced and displayed on the left screen 21 as shown in FIG. 19, and the operation method is described on the right screen 22. indicate. The thumbnail image data displayed on the left screen 21 is scrolled according to the operation of the direction buttons 23 and 24. In the playback mode, one of a plurality of thumbnail image data displayed on the left screen 21 is selected by the user using the touch screen 66, and a transmission operation, a print operation, and a later-described operation are performed on the selected thumbnail image data. Download operation is performed.
[0049]
FIG. 20 is a detailed flowchart of the transmission interrupt processing subroutine. When the subroutine is started in S70, it is checked in S701 whether the playback mode is selected, and if not in the playback mode, the process returns in S707. In the reproduction mode, the wireless communication means 71 attempts to perform wireless communication at the signal transmission output level with respect to the electronic devices around the electronic camera 100 in S702. If the communication is not established in S703, the process returns in S707. When the communication is established, the electronic device with which the communication is established is displayed on the right screen 22 as the transmission destination of the image data in S704 as shown in FIG. 21 and the transmission destination is selected by the user of the electronic camera 100 on the touch screen 66. Let In step S705, the process waits for the transmission button 28 to be operated again. If the transmission button 28 is operated, the image data upload information is transmitted to the transmission destination selected in step S706 by short-range wireless communication, and the process returns in step S707. To do.
[0050]
FIG. 22 is a sequence diagram for explaining a wireless communication operation performed between the electronic camera and the electronic device (mobile phone) at the time of the transmission interruption process. First, image data to be transmitted on the electronic camera 100 side is shown. Selected. Next, when the transmission button 28 is operated, the wireless communication of (1) search communication is attempted from the electronic camera 100 side to the surrounding electronic devices. (1) In search communication, identification information of the electronic camera 100 indicating the transmission source is transmitted.
[0051]
In response to this (1) search communication, in response to this, the electronic device sends a response (2) to the electronic camera 100 to transmit the identification information of the transmission source electronic device and the transmission destination electronic camera identification information. To do.
[0052]
(2) Upon receiving the response, the electronic camera 100 confirms a communication partner based on the identification information of the electronic device and selects a transmission destination. Next, the upload information of the selected image data is read from the memory card 77. When the transmission button 28 is operated again, the electronic camera 100 executes (3) information transmission in order to identify the selected transmission destination electronic device and transmit the upload information. (3) In the information transmission, identification information of the selected transmission destination electronic device, identification information of the transmission source electronic camera 100, upload information, thumbnail image data, and the like are transmitted.
[0053]
When the selected transmission destination electronic device receives (3) information transmission, it connects to the image server on the Internet via the wireless telephone line based on the upload information, and downloads and displays the designated image data.
[0054]
FIG. 23 is a detailed flowchart of the print interrupt processing subroutine. When it is activated in S80, it is checked in S801 whether it is in the reproduction mode, and if it is not in the reproduction mode, the process returns in S807. In the reproduction mode, the wireless communication means 71 attempts short-range wireless communication at a signal transmission output level with the printer around the electronic camera 100 in S802. If the communication is not established in S803, the process returns in S807. When the communication is established, the printer with which the communication is established is displayed on the right screen 22 as shown in FIG. 24 in S804, and the user of the electronic camera 100 is made to select the printer on the touch screen 66. In step S805, the process waits for the transmission button 28 to be operated again. If the print button 27 is operated, image data upload information and a print instruction are transmitted to the printer selected in step S806 by short-range wireless communication. Return at.
[0055]
FIG. 25 is a sequence diagram for explaining a wireless communication operation performed between the electronic camera and the printer during the print interrupt process. First, image data to be transmitted is selected on the electronic camera 100 side. Next, when the print button 27 is operated, wireless communication for (1) printer search communication is attempted from the electronic camera 100 side to the surrounding printer. (1) In the printer search communication, the identification information of the electronic camera 100 indicating the transmission source and the function identification information (in this case, the printer) indicating the function of the electronic device making the communication request are transmitted.
[0056]
In response to this (1) printer search communication, in response to this, the printer responds to the electronic camera 100 with (2) response, the transmission source printer identification information, the transmission destination electronic camera identification information, the printer specification information, etc. Send.
[0057]
(2) Upon receiving the response, the electronic camera 100 confirms the communication partner based on the printer identification information and selects the printer. Next, the upload information of the selected image data is read from the memory card 77. When the printer button 27 is operated again, the electronic camera 100 executes (3) information transmission in order to identify the selected printer and transmit upload information. (3) In the information transmission, the identification information of the selected printer, the identification information of the transmission source electronic camera 100, the upload information, the print instruction information, and the like are transmitted.
[0058]
When the selected printer receives the information transmission (3), it connects to the image server on the Internet via the wireless telephone line based on the upload information, downloads the designated image data, and downloads the image data based on the print instruction information. The image data is converted into image data for printing and printing is executed.
[0059]
FIG. 26 is a conceptual diagram showing a form of information transmission performed between the electronic camera, the printer, and the image server during the print interrupt process. The electronic camera uses the radio telephone line to send the captured image data to an image on the Internet. Upload to the server. Next, the electronic camera uses the short-range wireless communication to the electronic device (printer) within the communication range of the short-range wireless communication, and uploads image data (image server Internet address = URL: Uniform Resource Locator and the image server). Folder name and image data file name) and control information (print instruction information). The electronic device (printer) connects to an image server on the Internet through a wireless telephone line based on information received by the short-range wireless communication from the electronic camera, and downloads and downloads the image data from a predetermined folder of the image server. An operation (printing process) based on the control information (print instruction information) is performed on the image data.
[0060]
FIG. 27 is a detailed flowchart of the download interrupt processing subroutine. When activated in S90, the playback mode is checked in S901, and if not in the playback mode, the process returns in S905. In the reproduction mode, the wireless telephone circuit 72 connects to the image server on the Internet based on the upload information data added to the thumbnail image data selected in S902, and corresponds to the selected thumbnail image data. Download image data. In S903, the downloaded image data is reproduced and displayed on the left screen 21 as shown in FIG. In step S904, the process waits for the download button 29 to be operated again. If the download button 29 is operated, the process returns in step S905.
[0061]
FIG. 29 is an explanatory diagram showing the configuration of the wireless communication circuit 71 in the electronic camera 100. The wireless communication circuit 71 is placed on the back of the camera (direction opposite to the photographing optical axis direction = direction of the photographer) by an electromagnetic shield film 79. The lower surface, the upper surface, and the left and right side surfaces are surrounded. Therefore, according to such a configuration, the wireless communication circuit 71 can easily establish communication with the mobile phone 160 possessed by the subject located in the photographing direction of the camera, and possesses other than the subject not in the photographing optical axis direction. Since it is difficult to establish communication with a mobile phone or an electronic device, it is possible to limit the image data transmission destination to a mobile phone possessed by the subject that has taken the image. FIG. 30 is a diagram showing the directivity of communication of the wireless communication circuit 71. The directivity of the electronic camera 100 is strong in the front direction (the direction of the optical axis 40), and the directivity in the back direction is weak.
[0062]
As described above, by providing the wireless communication circuit 71 with a strong directivity in the shooting direction of the camera with the configuration shown in FIG. 29, it is possible to increase the probability of communication with the electronic device held by the subject. The directivity can be adjusted by the antenna configuration in addition to the electromagnetic shield film. For example, an example of a small directional antenna is disclosed in Japanese Unexamined Patent Publication No. 2000-278037.
[0063]
Further, the directivity of the wireless communication circuit 71 may be changed according to the focal length of the photographing lens. For example, when the focal length is short, the shooting angle of view becomes wide, so that the directivity of communication is weakened. When the focal length is long, the shooting angle of view becomes narrow, so the directivity of communication is increased. Adjustment of the directivity of the wireless communication circuit 71 is achieved by mechanically moving the electromagnetic shield film or switching and using a plurality of directional antennas having different directivity characteristics. In this way, the electronic camera 100 can increase the possibility of establishing communication with the electronic device held by the photographed subject, and establish communication with the electronic device owned by a person other than the subject. Can be difficult.
[0064]
In the conceptual diagram of the embodiment of the present invention shown in FIG. 1, an electronic camera uploads captured image data to an image server on the Internet, and an electronic device (such as a mobile phone) possessed by a subject is closer to the electronic camera. Based on the related information received by the distance wireless communication, it connects to an image server on the Internet, downloads the image data from a predetermined folder of the image server, and displays it on the screen. In another embodiment, the electronic camera uses the upload information (image server, folder on the Internet, file name of image data) designated by the electronic device during short-range wireless communication with the electronic device held by the subject. Acquire and upload image data shot with the file name specified by the electronic device to the specified folder of the specified image server on the Internet based on the upload information, and the electronic device side specifies the image specified by itself You may make it download the image data of the designated file name from the designated folder of the server.
[0065]
In this way, the subject can save the trouble of downloading and saving the image data to the dedicated image server.
[0066]
Alternatively, the electronic device may specify the image storage destination (image server and folder), and the electronic camera may specify the file name of the image data, or the electronic camera may specify the image server and folder. The file name may be designated by the electronic device.
[0067]
Also, as shown in FIG. 31, the electronic camera uses upload information (image server on the Internet, folder, file name of image data) designated by the electronic device during short-range wireless communication with the electronic device held by the subject. ), The electronic camera transmits the image data taken to a specific image server on the Internet and the upload information acquired from the electronic device, and the image data received by the specific image server based on the upload information. Is delivered with the specified file name to the specified folder on the specified image server on the Internet, and the electronic device downloads the image data with the specified file name from the specified folder on the specified image server. You may make it do.
[0068]
In the above-described embodiment (FIGS. 1 and 16), short-distance communication is performed between the electronic camera and the portable device possessed by the subject at the time of capturing image data or immediately before and after the image data is captured. Upload information is automatically transferred, so there is no need to perform special operations such as manually writing the upload information, and it can be used for mobile devices that are likely to be subjects at the time the image data was taken. Image data upload information can be transmitted.
[0069]
In the above embodiment (FIGS. 1 and 16), the image data is not directly exchanged between the electronic camera that captured the image data and the mobile phone that receives the image data. Therefore, there is no need to adjust the image data according to the image display specifications of each mobile phone, or to communicate with each mobile phone individually for a long time to transfer image data. The burden can be reduced.
[0070]
In the above embodiment (FIGS. 1, 26, and 31), near-field wireless is used when image data upload information is exchanged between the electronic camera and the electronic device by wireless communication. It is possible to increase the probability of communication limited to a mobile phone or printer owned by a subject existing in the camera, and to eliminate communication with an irrelevant electronic device at a long distance from the electronic camera. In addition, since the signal transmission output level during wireless communication is adjusted according to the focal length of the photographic lens, wireless communication can be established reliably with the subject, and wireless communication can be established with other subjects. Can be reduced.
[0071]
In the above embodiment (FIGS. 1, 26, and 31), short-range radio is used when exchanging image data upload information between an electronic camera and an electronic device by wireless communication. Since a short-range wireless communication with a slower information transmission rate can be used, the configuration of the short-range wireless communication circuit can be simplified, and the cost and size of the electronic camera and the mobile phone can be reduced.
[0072]
In the above embodiment (FIGS. 1 and 31), the electronic camera only uploads the captured image data to an image server on the Internet, and there is no need to distribute the image data to each electronic device. The next shooting operation can be performed immediately afterward. In addition, since each mobile phone downloads image data using an image server with high transmission capability, each electronic device can download image data simultaneously and at high speed, and immediately view the downloaded image data. it can.
[0073]
In the above embodiment (FIGS. 1 and 31), when image data upload information is exchanged between the electronic camera and the electronic device by wireless communication, thumbnail image data corresponding to the image data is transferred from the electronic camera to the electronic device side. By viewing thumbnail image data, the electronic device can know the outline of the image data prior to downloading the image data, and if necessary, measures such as stopping downloading the image data Can be taken.
[0074]
In the above embodiment (FIGS. 15 and 16), the electronic camera generates thumbnail image data corresponding to the image data at the time of shooting the image data, uploads the image data to an image server on the Internet, and stores the upload information. Since it is added to the thumbnail image data and stored in the electronic camera, desired image data can be selected and downloaded from the image server immediately for use.
[0075]
In the above embodiment (FIGS. 29 and 30), the directivity of wireless communication of the wireless communication circuit 71 is limited to a direction in which there is a high probability that a subject exists with respect to the electronic camera body by an electromagnetic shield sheet or the like. When exchanging image data upload information between the electronic camera and the mobile phone held by the subject by wireless communication, wireless communication can be established with the mobile phone on the subject side, and wireless communication can be performed with the exception of the subject. It is possible to reduce the possibility that
[0076]
In the above embodiment (FIG. 31), since the image data is finally stored in the image server designated by the subject side, the trouble of saving the image data in the image server dedicated to the subject side can be saved and the electronic camera side can be saved. Since it is only necessary to upload the image data to one image server, the next photographing operation can be performed immediately after the image data is uploaded.
(Description of Modifications) The present invention is not limited to the embodiment described above, and various modifications and changes can be made.
[0077]
In the above embodiment (FIGS. 1, 2, 26, and 31), the electronic camera uploads image data to an image server on the Internet, and the mobile phone downloads image data from the image server. The image server does not necessarily have to be on the Internet, and may be an image server on a local communication network. For example, an image server is installed on an IEEE 802 standard wireless LAN (Local Area Network), and an electronic camera and a mobile phone (electronic device) access the image server via a wireless LAN to upload and download image data. Is also applicable.
[0078]
In the above embodiments (FIGS. 1, 26, and 31), an information transmission system and an information transmission method for transmitting image data captured by an electronic camera from the electronic camera to a mobile phone or printer possessed by the subject are described. However, the present invention is not limited to the transmission of image data, and can also be applied to general information transmission when the information transmission side and the information reception side are close to each other. For example, when the information transmitting side is a recording device and the information receiving side is a mobile phone, the audio data recorded by the recording device can be transmitted to the mobile phone side via a voice server on the Internet. it can.
[0079]
In the above embodiment (FIGS. 1 and 26), the electronic camera uploads image data to an image server on the Internet, and the mobile phone (electronic device) downloads image data from the image server. In order to limit the destinations from which image data can be downloaded from the server, the electronic camera sends the identification information of the electronic device obtained through communication with the electronic device to the image server together with the image data, and the image server corresponds to the identification information. Downloading of the image data may be permitted based on a request from only the device. In this way, it is possible to prevent the image data from being downloaded from the image server and to protect privacy.
[0080]
In the above embodiment (FIGS. 1 and 26), the electronic camera uploads image data to an image server on the Internet, and the mobile phone downloads image data from the image server. The upload information received from the electronic device may be transferred to another electronic device (for example, a personal computer held by the subject), and the image server may be accessed from the electronic device to download the image data. In this way, the image data can be viewed on a screen larger than the screen of the mobile phone, and a sufficient memory capacity for storing the image data can be secured.
[0081]
In the above embodiment (FIGS. 1 and 26), the electronic camera uploads image data to an image server on the Internet, and the mobile phone (electronic device) downloads image data from the image server. The camera sends the identification information of the electronic device obtained by communication with the electronic device to the image server together with the image data, and the image server sends a transmission request to the electronic device corresponding to the identification information according to the identification information. (Push type information transmission) may be used. In this case, there is no need to exchange image data upload information between the electronic camera and the electronic device. In this way, image data is transmitted (pushed) only to a specific electronic device, so that privacy can be protected and the side receiving the image data can save time and effort for reading the image data.
[0082]
In the above embodiment (FIGS. 1 and 26), image data upload information (image server destination information, image data identification information) is exchanged between the electronic camera and the mobile phone (electronic device). The image data is uploaded to an image server on the Internet, and the mobile phone (electronic device) downloads the image data from this image server. If the camera is installed and the customer has taken an image at the desired shooting point and provides an image service system that downloads the shot image data from the image server, the electronic camera is used by the customer. It is not necessary to have a built-in communication means to communicate with mobile phones owned by The communication means paired with the electronic camera stores image data photographed by the electronic camera with predetermined identification information in a predetermined image server, and stores destination information of the image server and identification information of the image data. You may make it transmit to a customer's mobile telephone by a communication means. Also, if the customer is limited to shooting at a predetermined position during shooting, a communication means separate from the electronic camera can be installed near the customer, and the communication output can be reduced. , Can prevent interference with the subject's mobile phone other than the mobile phone.
[0083]
Also, when the above image service is implemented at a theme park or the like as described above, interference with other electronic devices can be obtained by providing the customer with an electronic device dedicated to the image transmission system according to the present invention at the time of admission. Image data can be reliably transmitted to the customer who has become the subject. Thus, in the image transmission system in which the photographing side, the image receiving side, and the image server are fixed, it is not necessary to inform the image receiving side of the destination information of the image server, and only the identification information of the image data is notified to the image receiving side. It's okay. In this case, the destination information of the image server is fixedly stored inside the electronic camera, the communication means, and the dedicated electronic device.
[0084]
Conversely, by sending the identification information of the electronic device to the communication means from the dedicated electronic device possessed by the customer, adding the identification information of the electronic device to the image data and storing it in the image server, There is no need to transmit the identification information of the image data to a dedicated electronic device owned by the customer. That is, identification information of the electronic device is sent from the dedicated electronic device to the photographing side at the time of shooting, and the identification information is added to the image data and stored in the image server. When the image server is accessed from a dedicated electronic device owned by the customer, the image server may download image data corresponding to the identification information of the electronic device to the electronic device. Alternatively, the image data may be forcibly sent from the image server side to a dedicated electronic device corresponding to the identification information added to the image data. In this way, the amount of communication and the type of information between the image data capturing side and the image data receiving side can be reduced, and communication is performed using a dedicated electronic device. Interference with equipment can be prevented and communication reliability can be improved.
[0085]
In the above embodiment (FIGS. 1 and 26), image data upload information (image server destination information, image data identification information) is exchanged between the electronic camera and the mobile phone (electronic device). The image data is uploaded to the image server on the Internet based on the upload information, and the mobile phone (electronic device) downloads the image data from the image server based on the upload information. The upload information includes the identification information of the image data. The destination information of the image server may be used alone. In this case, the mobile phone connects to the image server to which the image data has been uploaded based on the destination information of the image server, and after connecting, searches the desired image data manually or automatically based on the shooting data etc. Download data from the image server. In this way, the mobile phone side does not need to store identification information for each image data, so that a storage unit with a small storage capacity can be used.
[0086]
In the above embodiment (FIG. 1), image data upload information (image server destination information, image data identification information) is exchanged between the electronic camera and the mobile phone (electronic device) at the time of shooting. The image data is uploaded to the image server above, and the mobile phone (electronic device) downloads the image data from this image server. At the time of shooting, the electronic camera sends the destination information of the image server to the mobile phone, Receives mobile phone identification information (telephone number, etc.) from the mobile phone, generates image data identification information based on the mobile phone identification information, adds the generated identification information to the image data, and uploads it to the image server When accessing the image server from the subject-side mobile phone, the mobile phone identification information is transmitted to the image server. A result, may be downloaded image data added identification information related to identification information of the mobile phone to the mobile phone side. When the electronic camera generates the identification information of the image data, the identification information of the image data (such as the file name of the image data) is combined with other shooting information (for example, shooting date / time information) in addition to the identification information of the mobile phone. May be generated.
[0087]
In this way, the mobile phone side does not need to store the identification information of the image data for each image data, and possesses the mobile phone only by transmitting its own phone number to the image server. All image data showing the subject can be downloaded.
[0088]
In addition, when the mobile phone designates the shooting date and time and accesses the image server, it is possible to select and download image data shot at the shooting date and time specified by the subject holding the mobile phone. Furthermore, by storing the download history (download destination mobile phone number and download date, etc.) for each image data on the image server side, the mobile phone designates the history and accesses the image server. It is possible to select and download image data or image data that has not been downloaded for a certain period of time.
[0089]
In this way, it is possible to download only specific image data without storing identification information for each image data on the mobile phone side.
[0090]
In the above-described embodiment (FIG. 1), the electronic camera and the electronic device held by the subject communicate with each other wirelessly (radio waves) to exchange image data upload information. Assuming that the electronic device has an average reception performance in order not to establish a communication with the electronic device that is inadvertently, it is possible to communicate within a predetermined range by limiting the output level of the wireless transmission signal to within the specified value. It is desirable to limit this. The distance range is determined in consideration of how the electronic camera is used, whether there is a radio wave shield between the electronic camera and the electronic device, and the performance of the receiver of the electronic device. Is preferably within 10 m.
[0091]
In the above embodiment (FIGS. 1, 26, and 31), the wireless communication circuit performs communication by short-range wireless communication such as Bluetooth. However, wireless LAN (IEEE 802.11) or infrared light is also used other than Bluetooth. Short-distance wireless communication may be performed by communication (IrDA), or communication may be performed using a plurality of short-range wireless methods at the same time. In this way, wireless communication with the electronic camera can be performed regardless of the short-range wireless function of the electronic device held by the subject.
[0092]
In the above embodiment (FIGS. 1, 26, and 31), the electronic camera and the electronic device possessed by the subject communicate with each other by radio (radio waves) to exchange image data upload information. The image data upload information may be exchanged by the non-contact method or the contact method.
[0093]
In the above embodiment (FIGS. 1, 26, and 31), the electronic camera attempts wireless communication with electronic devices around the electronic camera in order to exchange image data upload information by short-range wireless communication. It may be set in advance not to perform wireless communication with an electronic device possessed by a camera photographer.
[0094]
In the above embodiment (FIGS. 1 and 26), an electronic server that has obtained upload information from the electronic camera through communication between the electronic camera and the electronic device allows the image server to upload image data based on the upload information. To download desired image data from the image server. In the communication between the electronic camera and the electronic device, the electronic camera acquires the identification information of the electronic device, and the electronic device accesses the image server. Prior to this, identification information of the electronic device is transmitted from the electronic camera to the image server, and the image server accesses the image server under predetermined conditions limited to the electronic device corresponding to the identification information received from the electronic camera. May be permitted. As the predetermined condition, a time limit after receiving identification information of the electronic device from the electronic camera and a limit on the number of times of downloading the image data can be considered. In this way, it is possible to prevent image data from being downloaded from the image server by an electronic device that has not communicated with the electronic camera. Further, by performing the time restriction and the number of times restriction, it is possible to reduce a risk that an unrelated person later downloads image data from the image server using the electronic device.
[0095]
In the above embodiment (FIGS. 1, 26, and 31), information (image server destination information, image data identification information, electronic information) is obtained by communication between the electronic camera and the electronic device held by the subject by radio (radio waves). (Device identification information, etc.) is exchanged, but before exchanging information, a public key for encrypting information is transmitted from the information receiving side to the information transmitting side, and the information is transmitted. The side may encrypt and transmit the information to be transmitted with the public key, and the side receiving the information may decrypt the received information with the secret key paired with the public key. In this way, even if information exchanged between the electronic camera and the electronic device is listened to by other electronic devices, there is no fear of leaking information to others.
[0096]
In the above embodiment (FIG. 1), the electronic camera attempts to communicate wirelessly with electronic devices around the electronic camera in order to exchange image data upload information during shooting. At this time, wireless communication (radio wave, infrared) is performed. The transmission signal output level may be changed according to the subject distance (the output level increases as the subject distance increases). As the subject distance, a distance detected by a known distance detection device or a manually set photographing distance of the photographing lens can be used. In this way, it is possible to communicate with the electronic device held by the subject with a high probability, and to reduce the probability of establishing communication with the electronic device held by other than the subject.
[0097]
In the above embodiment (FIG. 2), the electronic camera uploads the captured image data to an image server on the Internet using a wireless telephone circuit that incorporates the captured image data. The image data may be temporarily transmitted to a mobile phone held by the camera photographer, and the photographer's mobile phone may upload the image data to an image server on the Internet via a wireless telephone line. In this way, the electronic camera does not need to incorporate a wireless telephone circuit, and the electronic camera can be miniaturized, and is advantageous in terms of power consumption and cost.
[0098]
In the above embodiment (FIG. 2), the electronic camera uploads the captured image data to the selected image server, but the image server may be fixed. For example, a fixed image server for uploading image data is prepared, and an image service using the image server and an electronic camera are sold as a set, and all images taken by the camera are uploaded to the image server. By doing so, the purchaser of the electronic camera does not need to prepare the image server by himself, and it becomes easy to handle even a user who is not familiar with the Internet. Note that the destination information of the fixed image server is stored in a nonvolatile memory such as an EEPROM in the electronic camera.
[0099]
In the above embodiment (FIG. 15), the electronic camera automatically downloads all the image data taken in the shooting mode to the image server (download recording mode), but the memory in which the taken image data is attached to the electronic camera. A shooting mode (memory card recording mode) for storing and recording on a card may be provided, and switching may be performed manually or automatically. For example, the memory card recording mode automatically switches to the download recording mode when the remaining capacity of the memory card is low in the memory card recording mode, or automatically goes out of the communication range of the wireless telephone line in the download recording mode. You may make it switch to. In this way, the photographer can take a picture with the electronic camera without worrying about the status of the memory card or the wireless telephone line.
[0100]
Also, both uploading of image data to image data and storage in a memory card may be performed at all times, and one may not be performed as necessary. In this way, it is not necessary to back up the image data later, and the reliability of image data storage can be increased.
[0101]
In the above embodiment (FIGS. 15 and 16), the electronic camera uploads image data to the image server after exchanging image data upload information by short-range wireless communication between the electronic camera and the electronic device. However, this order may be reversed. First, the electronic camera uploads image data to the image server, and then the image data upload information is exchanged between the electronic camera and the electronic device by short-range wireless communication. You may do it.
[0102]
In the above embodiment (FIGS. 15 and 16), the photographing operation is performed by operating the release button provided in the electronic camera. However, the cellular phone possessed by the person who is the subject using short-range wireless communication. The photographing operation of the electronic camera may be started from the remote controller. In this way, the short-range wireless circuit can be used effectively, and photographing can be performed at a timing desired by the person on the subject side.
[0103]
In the above embodiment (FIGS. 16 and 22), when short-range wireless communication between the electronic camera and the electronic device is performed, communication is started from the electronic camera side to perform communication with surrounding electronic devices, and image data Upload information is transmitted from the electronic camera to the electronic device. First, a request for communication is sent from the electronic device side of the subject to the electronic camera, and then image data upload information is transmitted from the electronic camera to the electronic device. You may do it. For example, when a specific operation is performed on the operation key 162 of the mobile phone 160 illustrated in FIG. 5, upload information of image data is requested from the mobile phone 160 to the surrounding electronic camera. In this way, the short distance wireless communication between the electronic camera and the mobile phone is started by activation from the subject side. Therefore, when communication is not necessary, the electronic camera needs to perform short distance wireless communication every time shooting is performed. Instead, the next shooting operation can be performed immediately after the shot image data is uploaded to the image server.
[0104]
In the above embodiment (FIGS. 16 and 22), the electronic camera and the electronic device held by the subject communicate with each other wirelessly (radio waves) to exchange image data upload information. When the search communication is received from the electronic device, the electronic device on the subject side may display on the screen that the communication has been received from the electronic camera, or may notify the person who is the subject using sound generation means.
[0105]
In this way, it can be recognized that the subject has received communication from the electronic camera. Even if the electronic device is not equipped with a display means by sound notification, it is possible to recognize that the communication has been received from the electronic camera, and even if the electronic device is placed in the subject's clothing pocket, etc. Can recognize that the user has received communication from the electronic camera. Further, based on the recognition by the subject, the subsequent communication can be canceled if necessary, and the download of the image data can be rejected.
[0106]
In the embodiment (FIGS. 16 and 22), wireless communication is performed between the electronic camera and the electronic device held by the subject, and image data upload information is automatically exchanged. However, when the electronic device receives the search communication from the electronic camera, the electronic device compares the identification number of the electronic camera that has performed the search communication with the identification number of the electronic camera registered in the electronic device in advance, In the case of an electronic camera that is not registered, subsequent communication may not be performed. In this way, it is possible to refuse to receive image data taken by a stranger.
[0107]
In the above-described embodiment (FIGS. 16, 22, and 25), upload information of image data is exchanged between the electronic camera and the electronic device by wireless communication. Transmits image data specifications (data amount, recording method, image aspect ratio, number of pixels, etc.), and the electronic device downloads the image data according to the use of the image data based on the received image data specifications. It may be determined whether or not. For example, if it is image data that can be displayed and browsed on the screen of a mobile phone, it is possible to select and download image data with a small amount of data or a small number of pixels.
[0108]
In the above embodiment (FIG. 16), wireless communication is performed between the electronic camera and the electronic device held by the subject at the time of shooting, and image data upload information is automatically exchanged. However, the captured image data is temporarily stored in a RAM, a memory card, etc., and after a series of shootings, a series of image data is uploaded to the image server, and the electronic camera and the electronic device that the subject holds Exchange of image data upload information may be performed by wireless communication between them. In this way, when shooting several images with the same composition (such as exposure bracket shooting), you do not need to upload image data and perform wireless communication each time you shoot, Upload information for a plurality of image data can be exchanged at a time by uploading a plurality of image data and by wireless communication automatically or manually after the end of shooting.
[0109]
In the above-described embodiment (FIG. 16), image data is always uploaded to the image server and wireless communication is performed between the electronic camera and the electronic device held by the subject for each shooting. However, if there is a delay in the shooting operation due to image data upload and wireless communication, the image data upload operation and wireless communication operation may be prohibited. For example, when continuous shooting (continuous shooting) is performed, if image data uploading and wireless communication operations are automatically prohibited, continuous shooting frames can be used for image data uploading and wireless communication operations. Can be prevented from becoming longer. In this case, continuously shot image data is temporarily stored in a RAM or a memory card, and after a series of shootings, a series of image data is uploaded to the image server, and the electronic camera and the subject hold the images. Exchange of image data upload information by wireless communication between electronic devices is performed automatically or manually.
[0110]
In the above embodiment (FIG. 25), upload information of image data to be printed and print instruction information are transmitted from the electronic camera to the printer when the print button is operated. Various setting information (print information) for the printer is included in the print instruction information. Size, print quality, print color, etc.).
[0111]
In the above embodiment (FIG. 25), upload information of image data to be printed and print instruction information are transmitted from the electronic camera to the printer when the print button is operated. Identification information (IP address) may be acquired, and the identification information may be transmitted to the image server, and image data to be printed from the image server may be transmitted to a printer corresponding to the identification information. In this way, it is not necessary to store image data on the electronic camera side, and image data to be printed can be quickly transmitted to the printer for printing.
[0112]
【The invention's effect】
As described above, in the information transmission system (image transmission system) and the information transmission method (image transmission method) according to the present invention, the Internet is used by short distance communication between the information (image) transmission side and the information (image) reception side. Information (destination information) related to uploading information (image) to the above information server (image server) is exchanged, and information (image) is temporarily uploaded from the information (image) transmission side to the information server on the Internet. Since the (image) receiving side downloads and uses information (image) from an information server (image server) on the Internet to which information (image) is uploaded, information (image) is transmitted at the time of information (image) transmission. ) Information transmission system (image transmission) where the burden on the transmission side is small and information (image) is transmitted to the information (image) reception side in a short time It is possible to provide a system) and information transmission method (image transmission method).
[0113]
Especially in an electronic camera system that handles image data with a large amount of data, a group photo is taken with an electronic camera, and the taken image data is distributed to mobile phones owned by a plurality of people who are subjects. However, since the electronic camera only has a process of transmitting upload information to each mobile phone by short-range communication with a mobile phone and a process of uploading image data to an image server on the Internet, the electronic camera has a short-range communication for each mobile phone. Thus, the burden of transmitting image data can be reduced, and desired image data can be obtained quickly even on the mobile phone side.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a concept of an embodiment of the present invention.
FIG. 2 is an explanatory diagram illustrating a system configuration according to the embodiment of this invention.
FIG. 3 is an external view (front view) of the electronic camera.
FIG. 4 is an external view (back view) of the electronic camera.
FIG. 5 is an external view (front view) of the mobile phone terminal;
FIG. 6 is a block diagram showing an electrical configuration of the electronic camera.
FIG. 7 is a block diagram showing an electrical configuration of a mobile phone terminal.
FIG. 8 is a correspondence diagram between an upload dial number and an image server.
FIG. 9 is a data configuration diagram of a memory card.
FIG. 10 is a configuration diagram of imaging information data.
FIG. 11 is an operation state transition diagram of the electronic camera.
FIG. 12 is a flowchart of a main program.
FIG. 13 is a flowchart of a subroutine.
FIG. 14 is a display example of a screen.
FIG. 15 is a flowchart of a subroutine.
FIG. 16 is an explanatory diagram of a communication sequence.
FIG. 17 is a flowchart of a subroutine.
FIG. 18 is a flowchart of a subroutine.
FIG. 19 is a display example of a screen.
FIG. 20 is a flowchart of a subroutine.
FIG. 21 is a display example of a screen.
FIG. 22 is an explanatory diagram of a communication sequence.
FIG. 23 is a flowchart of a subroutine.
FIG. 24 is a display example of a screen.
FIG. 25 is an explanatory diagram of a communication sequence.
FIG. 26 is an explanatory diagram showing a concept of an embodiment of the present invention.
FIG. 27 is a flowchart of a subroutine.
FIG. 28 is a display example of a screen.
FIG. 29 is an explanatory diagram of a configuration of a wireless circuit.
FIG. 30 is an explanatory diagram of communication directivity.
FIG. 31 is an explanatory diagram showing a concept of an embodiment of the present invention.
[Explanation of symbols]
10 Shooting lens
16 Release button
17 Power switch
19 Mode dial
21 Left LCD (left screen)
22 Right LCD (right screen)
23 Up button
24 Down button
25 Shooting mode button
26 Playback mode button
27 Print button
28 Send button
29 Download button
50 CPU
51 Data / Control Bus
55 CCD
60 Shooting control circuit
63 Power supply
65 Operation keys
66 touch screen
71 Wireless communication circuit
72 Radio telephone circuit
77 memory card
100 electronic camera
130 Internet
150 Image server
151 CPU
160 Mobile phone
170 UIM card

Claims (47)

  An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and performing communication between an imaging unit that generates image data and the electronic device on the subject side, First communication means for transmitting destination information on a communication network of an image server for uploading the image data and identification information of the image data to the electronic device; and the image data based on the destination information and the identification information And a second communication means for uploading the image to the image server on the communication network.   The electronic camera according to claim 1, wherein the first communication unit performs the communication with the electronic device on the subject side when the subject is photographed by the imaging unit.   3. The electronic camera according to claim 2, wherein the electronic camera includes a continuous shooting mode in which a subject is continuously shot by the imaging unit, and the subject communication side of the subject side by the first communication unit during continuous shooting in the continuous shooting mode. An electronic camera comprising prohibiting means for prohibiting communication with an electronic device.   Destination information on a communication network of an image server, which is an electronic device on the subject side where image data is captured by the electronic camera, and the electronic camera uploads the image data by communicating with the electronic camera And third communication means for transmitting the identification information of the image data to and from the electronic camera, and fourth communication means for downloading the image data from the image server on a communication network based on the destination information and the identification information An electronic device comprising:   An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and performing communication between an imaging unit that generates image data and the electronic device on the subject side, First communication means for transmitting destination information on a communication network of an image server for uploading the image data and identification information of the image data to the electronic device; and the image data based on the destination information and the identification information A second communication means for uploading the image data to the image server on a communication network, and an electronic device on the subject side where image data is captured by the electronic camera, and communicates with the electronic camera. By doing so, destination information on the communication network of the image server to which the electronic camera uploads the image data and the image Third communication means for transmitting data identification information to and from the electronic camera, and fourth communication means for downloading the image data from the image server on a communication network based on the destination information and the identification information. An electronic server and an image server installed on the communication network, wherein the image data uploaded from the electronic camera is stored in association with the identification information, and specified by the identification information by the electronic device An image transmission system comprising: an image server that downloads image data to the electronic device.   6. The image transmission system according to claim 5, wherein destination information on the communication network of the image server and the image are exchanged between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system, wherein identification information of data is transmitted from the electronic camera to the electronic device.   6. The image transmission system according to claim 5, wherein destination information on the communication network of the image server and the image are exchanged between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system, wherein identification information of data is transmitted from the electronic device to the electronic camera.   6. The image transmission system according to claim 5, wherein destination information on a communication network of the image server is the electronic information when communication is performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system, wherein the image data is transmitted from the device to the electronic camera, and the identification information of the image data is transmitted from the electronic camera to the electronic device.   6. The image transmission system according to claim 5, wherein destination information on a communication network of the image server is the electronic information when communication is performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system, wherein the image data is transmitted from the camera to the electronic device, and identification information of the image data is transmitted from the electronic device to the electronic camera.   An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and performing communication between an imaging unit that generates image data and the electronic device on the subject side, First communication means for transmitting destination information on the communication network of the image server for uploading the image data to and from the electronic device, and uploading the image data to the image server on the communication network based on the destination information. An electronic camera comprising: a second communication unit; and an electronic device on a subject side where image data is captured by the electronic camera, wherein the electronic camera communicates with the image data by performing communication with the electronic camera. Third communication means for transmitting destination information on the communication network of the image server for uploading to and from the electronic camera; An electronic device comprising: a fourth communication means for connecting to the image server on the communication network based on the destination information and downloading the image data from the image server; and an image server installed on the communication network. An image transmission system comprising: an image server that stores the image data uploaded from the electronic camera and that downloads the image data to the electronic device based on a request from the electronic device.   11. The image transmission system according to claim 10, wherein destination information on the communication network of the image server is the electronic information when communication is performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system which is transmitted from a camera to the electronic device.   11. The image transmission system according to claim 10, wherein destination information on the communication network of the image server is the electronic information when communication is performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system which is transmitted from a device to the electronic camera.   An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and performing communication between an imaging unit that generates image data and the electronic device on the subject side, First communication means for transmitting destination information on the communication network of the image server for uploading the image data and identification information of the electronic device to the electronic device, and the image data and the electronic device based on the destination information An electronic camera comprising: a second communication unit that uploads the identification information to the image server on a communication network; and an electronic device on a subject side in which image data is captured by the electronic camera, Destination information on the communication network of the image server to which the electronic camera uploads the image data. Third communication means for transmitting identification information of the electronic device to and from the electronic camera, and fourth image data is downloaded from the image server on a communication network based on the destination information and the identification information of the electronic device. An electronic device comprising a communication means, and an image server installed on the communication network, wherein the image data uploaded from the electronic camera is stored in association with identification information of the electronic device, and the image An image transmission system comprising: an image server that downloads image data corresponding to identification information of an electronic device that has accessed the server to the electronic device.   14. The image transmission system according to claim 13, wherein, in communication performed between the first communication unit of the electronic camera and the third communication unit of the electronic device, destination information on the communication network of the image server and the electronic An image transmission system, wherein device identification information is transmitted from the electronic device to the electronic camera.   14. The image transmission system according to claim 13, wherein destination information on the communication network of the image server is the electronic information when communication is performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system, wherein the information is transmitted from the camera to the electronic device, and the identification information of the electronic device is transmitted from the electronic device to the electronic camera. An electronic device on the subject side for which image data is captured by the electronic camera, and when the subject is captured by the electronic camera, by communicating with the electronic camera, identification information of the electronic device is transmitted to the electronic camera. An electronic apparatus comprising: third communication means for transmitting the image data; and fourth communication means for receiving the image data from the image server on a communication network. 17. The electronic device according to claim 4, further comprising a display unit that displays that communication with the electronic camera has been performed. An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and performing communication between an imaging unit that generates image data and the electronic device on the subject side, First communication means for receiving destination information of the electronic device on a communication network from the electronic device, and second communication means for uploading the image data and destination information of the electronic device to the image server on the communication network And an electronic device on the subject side where image data is captured by the electronic camera, and by communicating with the electronic camera, the electronic camera on the communication network Third communication means for transmitting destination information of the electronic device, and fourth communication means for receiving the image data from the image server on a communication network And an image server installed on the communication network, wherein the image data uploaded from the electronic camera is transmitted to the electronic device on the communication network corresponding to the destination information of the electronic device An image transmission system comprising a server. An electronic camera for photographing a subject, photographing an object in a photographing screen by a photographing optical system, generating image data, and destination information on a communication network of an image server for uploading the image data First communication means for transmitting identification information of the image data to and from the electronic device by performing communication between the first storage means for fixed storage and the electronic device on the subject side, and the first An electronic camera comprising: second communication means for uploading the image data to the image server on a communication network based on the destination information fixedly stored in a storage means and the identification information; and image data is captured by the electronic camera. A subject-side electronic device on the communication network of the image server to which the electronic camera uploads the image data Second communication means for fixedly storing prior information; third communication means for transmitting identification information of the image data to and from the electronic camera by communicating with the electronic camera; and An electronic device comprising: fourth communication means for downloading the image data from the image server on a communication network based on the destination information fixedly stored in a storage means and the identification information; and an image installed on the communication network A server that stores the image data uploaded from the electronic camera in association with the identification information and downloads image data specified by the identification information by the electronic device to the electronic device; An image transmission system characterized by comprising. 20. The image transmission system according to claim 19, wherein identification information of the image data is transmitted from the electronic camera to the electronic device during communication performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system which is transmitted to a device. 21. The image transmission system according to claim 20, wherein identification information of the image data is transmitted from the electronic device to the electronic device during communication performed between the first communication unit of the electronic camera and the third communication unit of the electronic device. An image transmission system transmitted to a camera. An electronic camera for photographing a subject, photographing an object in a photographing screen by a photographing optical system, generating image data, and destination information on a communication network of an image server for uploading the image data By communicating between the first storage means for fixed storage and the electronic device on the subject side, the first communication means for receiving the identification information of the electronic device from the electronic device, and the first storage means Based on the destination information fixedly stored, the image data and the identification information of the electronic device are transmitted to the image server on the communication network. An electronic camera comprising: a second communication means for uploading; and an electronic device on the subject side that captures image data by the electronic camera, the electronic camera uploading the image data on a communication network of the image server Second communication means for fixedly storing destination information and third communication means for transmitting identification information of the electronic device to the electronic camera by communicating with the electronic camera, and second storage means An electronic device comprising: fourth communication means for downloading the image data from the image server on a communication network based on the destination information fixedly stored and the identification information; and an image server installed on the communication network. The image data uploaded from the electronic camera is stored in association with the identification information of the electronic device. Rutotomoni, an image transmission system, characterized in that it is composed of image data corresponding to the identification information of the electronic device that has accessed the image server from the image server to be downloaded to the electronic device. Imaging means for photographing a subject with a photographing optical system to generate image data, second communication means for uploading the image data and identification information of the image data to an image server on a communication network, and uploading the image data Storage means for storing destination information on the communication network of the image server and the identification information of the image data, and communication between the image data and the electronic device after uploading the identification information of the image data to the image server An electronic camera comprising: a first communication unit that transmits destination information on the communication network of the image server that uploaded the image data stored in the storage unit and identification information of the image data to the electronic device And the electronic camera, the electronic camera A third communication means for receiving the destination information on the communication network of the image server and the identification information of the image data from the electronic camera, and the image data on the communication network based on the destination information and the identification information. An electronic device comprising a fourth communication means for downloading from the image server, and an image server installed on the communication network, wherein the image data uploaded from the electronic camera is stored in association with the identification information And an image server configured to download image data specified by the identification information by the electronic device to the electronic device. The electronic device on the communication network is communicated with an imaging device that shoots a subject with a photographing optical system to generate image data, a storage device that stores identification information of the image data, and an electronic device. First communication means for receiving destination information from the electronic device; uploading the image data and identification information of the image data to an image server on the communication network; and the destination from the electronic device by the first communication means. The electronic camera includes a second communication unit that transmits destination information of the electronic device and identification information of the image data to the image server after receiving the information. Third communication means for transmitting device identification information to the electronic camera; and receiving the image data from the image server on a communication network. And an image server installed on the communication network, wherein the image data uploaded from the electronic camera is stored in association with identification information of the image data. An image server configured to transmit image data corresponding to the identification information of the image data received from the electronic camera to an electronic device corresponding to the destination information received from the electronic camera. Transmission system. An electronic camera for photographing a subject, photographing a subject in a photographing screen by a photographing optical system, and generating image data; and second uploading the image data to the image server on a communication network An electronic camera comprising a communication means and the electronic camera are separate from the electronic camera, and the electronic device identification information is obtained by communicating with the electronic device on the subject side when the subject is photographed by the electronic camera. Image data is captured by the electronic camera, and a communication device comprising: a fifth communication means for receiving the information from the electronic device; a sixth communication means for uploading identification information of the electronic device to the image server on a communication network; An electronic device on the subject side that communicates with the communication device when photographing the subject, so that the electronic device is connected to the communication device. A third communication means for transmitting the identification information of the vessel An electronic device comprising: a fourth communication means for receiving the image data from the image server on a communication network; and an image server installed on the communication network, the image data uploaded from the electronic camera And an image server that transmits to the electronic device corresponding to the identification information of the electronic device uploaded from the communication device. An electronic camera for photographing a subject, photographing an object in a photographing screen by a photographing optical system, generating image data, and destination information on a communication network of an image server for uploading the image data An electronic camera comprising: first storage means for fixed storage; and second communication means for uploading the image data to the image server on a communication network based on the destination information fixedly stored in the first storage means; A third storage unit that is separate from the electronic camera and that fixedly stores destination information on a communication network of the image server that uploads the image data; and an electronic device on the subject side when the subject is captured by the electronic camera; A fifth communication means for receiving identification information of the electronic device from the electronic device by performing communication between the electronic device, A communication device comprising: a sixth communication unit that uploads identification information of the electronic device to the image server on a communication network based on the destination information fixedly stored in the storage unit; and image data is captured by the electronic camera. Between the second storage means for fixedly storing destination information on the communication network of the image server to which the electronic camera uploads the image data, and the communication device during photographing of the subject The image is based on the third communication means for transmitting the identification information of the electronic device to the communication device, and the destination information fixedly stored in the second storage means and the identification information of the electronic device. An electronic device comprising: fourth communication means for downloading data from the image server on a communication network; and the communication network. An image server installed on the network, storing the image data uploaded from the electronic camera in association with the identification information of the electronic device uploaded from the communication device, and accessing the image server. An image transmission system comprising: an image server that downloads image data corresponding to the identification information of the electronic device to the electronic device. The image transmission system according to any one of claims 5 to 15 or 20 to 6, wherein the electronic camera includes a reduction unit that generates reduced image data in which the data amount of the image data is reduced. The image transmission system, wherein the electronic camera transmits the reduced image data from the first communication unit to the third communication unit of the electronic device on the subject side. 25. The image transmission system according to claim 5, wherein communication between the first communication unit of the electronic camera and the third communication unit of the electronic device is performed by the communication unit. An image transmission system which is performed when image data is captured by an imaging unit of an electronic camera. 27. The image transmission system according to claim 5, wherein the first communication unit and the third communication unit perform wireless communication. system. 30. The image transmission system according to claim 29, wherein the first communication means and the third communication means wirelessly communicate using a radio wave signal, and the first communication means limits a transmission output level of the radio wave signal. Accordingly, the wireless communication range is limited to a predetermined distance range from the electronic camera. 31. The image transmission system according to claim 30, wherein the first communication unit and the third communication unit perform radio communication using a radio signal, and the first communication unit sets a transmission output level of the radio signal to the subject. The image transmission system is characterized by being changed according to the distance up to. 32. The image transmission system according to claim 31, wherein the first communication unit increases the transmission output level of the radio signal as the distance to the subject increases. 33. The image transmission system according to claim 32, wherein the first communication means and the third communication means wirelessly communicate using a radio wave signal, and the transmission output level of the first communication means is set to the photographing optical. An image transmission system that is changed according to the focal length of the system. 34. The image transmission system according to claim 33, wherein the first communication unit increases the transmission output level of the radio signal as the focal length of the photographing optical system increases. 32. The image transmission system according to claim 31, wherein the first communication unit has strong wireless communication directivity in a direction in which a subject is likely to exist. 36. The image transmission system according to claim 35, wherein said first communication means has a strong directivity of wireless communication in a photographing direction along an optical axis of said photographing optical system. The image transmission system according to any one of claims 5 to 15 or 20 to 36, wherein the communication network is the Internet. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, the imaging step of photographing the subject by the electronic camera and generating image data, the electronic camera, and the electronic device A first communication step for transmitting destination information on a communication network of an image server for uploading the image data and identification information of the image data to and from the electronic device; and A first transmission step of uploading the image data to the image server on a communication network based on the destination information and the identification information; and the image server uploads the image data uploaded from the electronic camera to the identification information. A saving step for saving, and the electronic device based on the destination information and the identification information. Image transmission method characterized by comprising a second transmission step of downloading data from the image server on the communication network. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, the imaging step of photographing the subject by the electronic camera and generating image data, the electronic camera, and the electronic device A first communication step of transmitting destination information on a communication network of an image server that uploads the image data to and from the electronic device, and the electronic camera based on the destination information A first transmission step of uploading data to the image server on a communication network; a storage step of storing the image data uploaded from the electronic camera by the image server; and the image data based on the destination information by the electronic device. Is downloaded from the image server on the communication network. Image transmission method characterized by comprising and. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, the imaging step of photographing the subject by the electronic camera and generating image data, the electronic camera, and the electronic device A first communication step of transmitting and receiving destination information on a communication network of an image server for uploading the image data and identification information of the electronic device to the electronic device; and A first transmission step of uploading the image data and the identification information of the electronic device to the image server on a communication network based on the destination information; and the image data uploaded from the electronic camera by the image server A storage step of storing the information in association with the identification information; and Image transmission method characterized by comprising a second transmission step of downloading the image data based on the identification information of the vessel from the image server on the communication network. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, wherein the subject is photographed by the electronic camera and image data is generated. An imaging step, a first communication step of performing communication between the electronic camera and the electronic device, and transmitting destination information on a communication network of the electronic device from the electronic device to the electronic camera; A first transmission step in which the camera uploads the image data and destination information of the electronic device to the image server on a communication network; and image data uploaded by the image server from the electronic camera as destination information of the electronic device. A second transmission step of transmitting to the electronic device on a corresponding communication network. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, the photographing step of photographing the subject by the electronic camera and generating image data; A first transmission step of uploading identification information of the image data to the image server on a communication network, and a storage step of storing the image data uploaded from the electronic camera in association with the identification information by the image server; Communicating between the electronic camera and the electronic device, and transmitting destination information on the communication network of the image server that uploaded the image data and identification information of the image data from the electronic camera to the electronic device. A communication step, wherein the electronic device is connected to the communication network based on the destination information. Connected to said image server on the click, the image transmission method, characterized in that it comprises a second transmission step of downloading the image data corresponding to the identification information from the image server. An image transmission method for transmitting image data of a subject photographed by an electronic camera to an electronic device on the subject side, the photographing step of photographing the subject by the electronic camera and generating image data; A first transmission step of uploading identification information of the image data to the image server on a communication network, and a storage step of storing the image data uploaded from the electronic camera in association with the identification information by the image server; A first communication step of communicating between the electronic camera and the electronic device and transmitting destination information of the electronic device on the communication network from the electronic device to the electronic camera; and a destination of the electronic device Information and identification information of the image data are transmitted from the electronic camera to the image server. A second transmission step in which the image server connects to the electronic device on the communication network based on the destination information, and transmits image data corresponding to the identification information from the image server to the electronic device; An image transmission method comprising: 45. The image transmission method according to claim 38, wherein the electronic camera communicates with a predetermined electronic device in the first communication step. 43. The image transmission method according to claim 38, wherein the first communication step performed between the electronic camera and the electronic device is performed substantially simultaneously with the imaging step. Image transmission method. 45. The image transmission method according to claim 38, wherein the first communication step performed between the electronic camera and the electronic device is started from the electronic device. Transmission method. 43. The image transmission method according to any one of claims 38 to 40 or claim 42, wherein in the first communication step performed between the electronic camera and the electronic device, the electronic device transfers the electronic device to the electronic camera. A third communication step in which the identification information of the device is transmitted and the electronic camera transmits the identification information of the electronic device to the image server; and an electronic device from which the image server downloads the image data And a control step of limiting based on the identification information.

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