JP3988075B2 - Image transmission equipment - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image transmission device, and more particularly to an image transmission device capable of transmitting an image in accordance with an image resolution permitted on the image reception device side.
[0002]
[Prior art]
When sending an image, the image is sent after the image is reduced and resized to the number of pixels that can be displayed at the destination, thereby saving communication traffic and ensuring that the sent image is displayed on the destination device. Such a printing apparatus is disclosed in Japanese Patent Laid-Open No. 10-108006.
[0003]
Japanese Patent Laid-Open No. 2001-197298 discloses an image data transmission method and a communication terminal device for resizing an image to a resolution (number of pixels) necessary for printing when transmitting the image to a printer. It is shown.
[0004]
[Problems to be solved by the invention]
However, in the printing apparatus disclosed in Japanese Patent Application Laid-Open No. 10-108006 and the image data transmission method and communication terminal device disclosed in Japanese Patent Application Laid-Open No. 2001-197298, the transmission source device is the transmission destination. When the image is resized and transmitted to the number of pixels supported by the image transmission device (image transmission source device), the number of pixels that can be resized is discrete (for example, 1280 × 969 and 640 × 480 only) If the number of pixels that can be displayed or printed on the image receiving device (image destination device) is discrete, the number of pixels to be transmitted cannot be uniquely selected. Occurs.
[0005]
The present invention has been made in view of such circumstances, and selects a priority pixel number convenient for an image receiving device as a transmission pixel number based on the transmission-side pixel number list and the reception-side pixel number list. An object of the present invention is to provide an image transmission device capable of performing efficient image transmission / reception in a short time by transmitting an image having the same number of pixels.
[0006]
Further, the present invention selects the closest number of pixels larger than the preferred number of pixels convenient for the image receiving device based on the transmission side pixel number list and the reception side pixel number list as the transmission pixel number, and selects the image of the selected pixel number. The purpose of the present invention is to provide an image transmission device that can efficiently transmit and receive images in a short time even if the number of priority pixels cannot be prepared on the image transmission device side by transmitting Yes.
[0007]
Further, the present invention selects the maximum common pixel number as the transmission pixel number from among the pixel numbers that can be handled by the image receiving device based on the transmission side pixel number list and the reception side pixel number list, and selects the selected pixel number. Therefore, an object of the present invention is to provide an image transmission device capable of transmitting and receiving the best image even when the number of priority pixels cannot be prepared on the image transmission device side.
[0008]
Further, the present invention selects a default pixel number that is convenient for the image transmission device based on the transmission side pixel number list and the reception side pixel number list as the transmission pixel number, and transmits an image having the selected pixel number. An object of the present invention is to provide an image transmission device capable of efficiently transmitting and receiving an image in a short time.
[0009]
Further, the present invention selects the closest number of pixels larger than the default number of pixels convenient for the image transmission device based on the transmission side pixel number list and the reception side pixel number list as the transmission pixel number, To provide an image transmitting device capable of efficiently transmitting and receiving an image in a short time even when the default number of pixels cannot be prepared on the image receiving device side by transmitting an image. It is aimed.
[0010]
Further, the present invention selects the largest common pixel number as the transmission pixel number from among the pixel numbers that can be handled by the image receiving device based on the transmission side pixel number list and the reception side pixel number list, and selects the selected pixel. An object of the present invention is to provide an image transmitting device capable of transmitting and receiving the best image even when the default number of pixels cannot be prepared on the image receiving device side by transmitting a number of images.
[0011]
Further, according to the present invention, when an image is resized and transmitted on the image transmitting device side, it is possible to automatically select the number of transmission pixels while minimizing the user's effort to specify the number of pixels after resizing. The object is to provide an image transmission device.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides an image transmitting device for transmitting an image having an appropriate number of pixels to an image receiving device, and an image recording means for recording an image and a default for transmitting the image. Recording means for recording a default transmission pixel number in which the number of transmission pixels is described and a transmission side pixel number list in which the number of transmission pixels of an image that can be provided is recorded, and an image receiving device that is an image transmission destination, A priority pixel that describes the number of pixels of the image that you want to send with priority to the image receiving device Number and Receiving means for receiving a list of pixels on the receiving side in which the number of pixels of an image that can be received is described, and a transmission pixel number of an image to be transmitted to an image receiving device based on the priority pixel number or the default transmission pixel number A transmission pixel number selecting means to be selected, and a transmission means for reading the image of the number of transmission pixels selected by the transmission pixel number selecting means from the image recording means and transmitting it to the image receiving device, or an image recorded in the image recording means. And a transmission means for resizing to the selected number of transmission pixels and transmitting to the image receiving device.
[0013]
Further, according to the first aspect of the present invention, in the transmission pixel number selection means, priority pixel number determination means for determining whether or not a priority pixel number is included in the information received from the image receiving device, and the priority pixel The default transmission pixel that selects the number of pixels based on the default transmission pixel number as the transmission pixel number when it is determined that the number of priority pixels is not included in the information received from the image receiving device as a result of the determination by the number determination means If it is determined that the information received from the image receiving device includes the number of priority pixels as a result of the determination by the number selection means and the priority pixel number determination means, the priority pixel number is recorded in the recording means. Priority pixel number transmission availability determination means for determining whether or not the transmission side pixel number list is present, and the result of determination in the priority pixel number transmission availability determination means indicates that the priority pixel number is the transmission side If it is determined that the priority pixel number is present in the prime number list, the priority pixel number selection unit that selects the priority pixel number as the transmission pixel number and the result of determination in the priority pixel number transmission availability determination unit indicate that the priority pixel number is in the transmission side pixel number list. If it is determined that it does not exist, a common pixel number list is generated by extracting the number of pixels that are commonly described in the transmission side image list recorded in the recording unit and the reception side pixel number list received from the image receiving device. Maximum number of common pixels which is the maximum number of pixels in the common pixel number list, and maximum common pixel number determination means for determining whether the priority pixel number is larger than the acquired maximum common pixel number; When the maximum common pixel number determination means determines that the priority pixel number is larger than the maximum common pixel number, the maximum common pixel number is selected as the transmission pixel number. When it is determined that the priority pixel number is not larger than the maximum common pixel number as a result of the determination by the total pixel number transmission unit and the maximum common pixel number determination unit, the number of pixels exceeding the priority pixel number in the common pixel number list And a minimum common pixel number transmission unit that selects the number of pixels in the minimum common pixel number list as the number of transmission pixels.
[0014]
According to the present invention, by selecting a priority pixel number convenient for the image receiving device as a transmission pixel number based on the transmission side pixel number list and the reception side pixel number list, and transmitting an image of the selected pixel number. Thus, efficient image transmission / reception can be performed in a short time.
[0015]
Further, according to the present invention, based on the transmission side pixel number list and the reception side pixel number list, the closest pixel number larger than the preferred pixel number convenient for the image receiving device is selected as the transmission pixel number, and the selected pixel number By transmitting this image, it is possible to provide an image transmission device capable of efficiently transmitting and receiving an image in a short time even when the number of priority pixels cannot be prepared on the image transmission device side. It becomes possible.
[0016]
According to the present invention, the maximum common pixel number is selected as the transmission pixel number from among the pixel numbers that can be handled by the image receiving device based on the transmission-side pixel number list and the reception-side pixel number list. By transmitting an image having the number of pixels, the best image can be transmitted and received even when the priority pixel number cannot be prepared on the image transmission device side.
[0017]
Also, Claim 2 In order to achieve the above object, the present invention provides an image transmitting device for transmitting an image having an appropriate number of pixels to an image receiving device, and an image recording means for recording an image, and a default transmission for transmitting the image. Recording means for recording a default transmission pixel number in which the number of pixels is described and a transmission-side pixel number list in which the number of transmission pixels of an image that can be provided is recorded; A priority pixel that describes the number of pixels of the image that you want to send to the receiving device with priority. Number and Receiving means for receiving a list of pixels on the receiving side in which the number of pixels of an image that can be received is described, and a transmission pixel number of an image to be transmitted to an image receiving device based on the priority pixel number or the default transmission pixel number A transmission pixel number selecting means to be selected, and a transmission means for reading the image of the number of transmission pixels selected by the transmission pixel number selecting means from the image recording means and transmitting it to the image receiving device, or an image recorded in the image recording means. And a transmission means for resizing to the selected number of transmission pixels and transmitting to the image receiving device.
[0018]
Further, the invention according to claim 2 is characterized in that, in the transmission pixel number selection means, priority pixel number determination means for determining whether or not a priority pixel number is included in information received from an image receiving device; and the priority pixel Priority pixel number selection that selects the number of pixels based on the number of priority pixels as the number of transmission pixels when it is determined that the number of priority pixels is included in the information received from the image receiving device as a result of the determination by the number determination means And the default transmission pixel number recorded in the recording means is received when it is determined that the information received from the image receiving device does not include the priority pixel number as a result of the determination in the priority pixel number determination means. A default transmission pixel number transmission availability determination means for determining whether or not the pixel is present in the side pixel number list, and a result of determination by the default transmission pixel number transmission availability determination means as a default transmission pixel. And the default transmission pixel number selection means for selecting the default transmission pixel number as the transmission pixel number, and the default transmission pixel number transmission enable / disable determination means as a result of the determination. If it is determined that the number does not exist in the reception side pixel number list, the number of pixels described in common in the transmission side image list recorded in the recording unit and the reception side pixel number list received from the image receiving device is extracted. Generating the common pixel number list, obtaining the maximum common pixel number that is the maximum pixel number in the common pixel number list, and determining whether or not the default transmission pixel number is larger than the obtained maximum common pixel number. The maximum number of common pixels is determined to be larger than the maximum number of common pixels as a result of the determination by the maximum common pixel number determination unit and the determination by the maximum common pixel number determination unit The maximum number of common pixels is selected as the transmission pixel number, and the result of determination by the maximum common pixel number determination means is that the default transmission pixel number is not larger than the maximum common pixel number. And a minimum common pixel number transmitting means for selecting, as a transmission pixel number, a pixel number in the minimum common pixel number list with a pixel number exceeding the default transmission pixel number in the common pixel number list. It is said.
[0019]
According to the present invention, a default pixel number convenient for an image transmission device is selected as a transmission pixel number based on the transmission side pixel number list and the reception side pixel number list, and an image having the selected pixel number is transmitted. Thus, it is possible to provide an image transmission device capable of performing efficient image transmission / reception in a short time.
[0020]
Further, according to the present invention, based on the transmission side pixel number list and the reception side pixel number list, the closest pixel number larger than the default pixel number convenient for the image transmission device is selected as the transmission pixel number, and the selected pixel is selected. Provided is an image transmission device capable of efficiently transmitting and receiving an image in a short time even when the default number of pixels cannot be prepared on the image receiving device side by transmitting a number of images It becomes possible.
[0021]
According to the present invention, the maximum common pixel number among the pixel numbers that can be handled by the image receiving device is selected as the transmission pixel number based on the transmission-side pixel number list and the reception-side pixel number list. By transmitting an image with the same number of pixels, it is possible to provide an image transmission device capable of transmitting and receiving the best image even when the default number of pixels cannot be prepared on the image reception device side. .
[0026]
DETAILED DESCRIPTION OF THE INVENTION
The preferred embodiments of the image transmitting apparatus according to the present invention will be described below in detail with reference to the accompanying drawings. In the embodiment described below, an image is transmitted in a push model from an image transmission device such as a camera to an image reception device such as a printer, PDA, mobile phone, personal computer, or display device.
[0027]
FIG. 1 is an external perspective view of an electronic camera which is an embodiment of an image transmission device according to the present invention.
[0028]
As shown in the figure, an electronic camera 10 that is one form of an image transmission device includes a lens barrel 100 that houses a photographing lens that forms an image of a subject on an imaging unit, and activation of the functions of the electronic camera 10. And a power switch 105 for instructing to stop, a release button 106 for instructing a user to record images and recording audio, and a mode switching dial 107 for setting various modes provided in the electronic camera 10. .
[0029]
The electronic camera 10 also has a cancel button 109 operated when canceling a desired item or image from the items displayed on the display means 168, and an instruction to move the cursor to the desired item and select and execute that item. The execution button 110 for inputting the menu item, the menu button 111 for instructing the display unit 168 to display the menu of the setting item, and the cross button 113 used for moving the cursor displayed on the display unit 168 are provided. Yes.
[0030]
In addition, the electronic camera 10 performs a wired communication with an antenna 156 that transmits and receives a carrier wave and data when transmitting and receiving images and other information to and from an external communication device (an image receiving device such as a portable terminal) by wireless communication. A communication connector 162 serving as a communication port, display means 168 for displaying captured images and information relating to processing and operation of the electronic camera 10, and an image signal connector serving as an output port for outputting a display image signal to an external device. 173 and a removable recording medium 177 for recording information such as images and sounds (which may be provided with an image recording means or a recording means function).
[0031]
In the example shown in the figure, the image captured by the user is reproduced and displayed on the display unit 168, and information on the processing mode currently set in the electronic camera 10 and compression of the image at the time of imaging are also displayed. The rate information and the frame number display 104 of the image are displayed.
[0032]
FIG. 2 is a block diagram of a signal processing system of an electronic camera which is an embodiment of an image transmission device according to the present invention.
[0033]
An image processing unit of an electronic camera 10 that is one form of an image transmission device including an imaging unit includes an imaging unit 150 that forms an image of a subject on a light receiving surface, performs photoelectric conversion, and outputs the image signal, and an image size. Change processing, sharpness correction, contour processing, contrast correction, and the like are performed on the analog signal, and an A / D converter 154 that converts the analog image signal into digital image data is provided. Yes.
[0034]
The communication means of the electronic camera 10 that transmits and receives information to and from other communication devices includes an antenna 156 that transmits and receives information such as image data on a carrier wave such as radio waves, and image data acquired from information processing means and memory. Transmission / reception means 157 (transmission means, reception means) for transmitting / receiving other information to / from other communication devices, and transmitting / receiving information such as image data to / from other communication apparatuses via a communication cable. The communication connector 162 is configured.
[0035]
The communication means may be a wireless communication means based on a communication standard such as Bluetooth, wireless LAN, or IrDA, or a communication means based on a serial, parallel, LAN, or other wired communication standard. Also good.
[0036]
Further, the electronic camera 10 includes a compression / expansion unit 167 for compressing or decompressing information such as image data by a method shown in JPEG-2000 or the like, and decompressing / decompressing the compressed image data. OSD 169 for on-screen display of various characters and message data to be displayed together with images, frame memory 171 for temporarily storing image data for display, composite signal for display of digital image data, etc. A D / A converter 172 for converting the image signal to the image signal and an image signal connector 173 (not shown in FIG. 2) for outputting a display signal to an external display device are provided.
[0037]
In addition, the electronic camera 10 includes an input unit 174 and an input unit 174 including a power switch 105, a release button 106, a mode switching dial 107, a cancel button 109, an execution button 110, a menu button 111, a cross button 113, and the like. I / O 175 that inputs and outputs input information and display information such as LEDs, a recording medium mounting unit 178 that detachably mounts the recording medium 177, and image data and the like on the recording medium 177 A recording medium interface 179 for recording and reading information is provided. The recording medium 177 is a detachable recording medium typified by a semiconductor such as a memory card, a magnetic recording type typified by MO, etc., an optical recording type, or the like.
[0038]
The electronic camera 10 controls the entire electronic camera 10 and controls image data sampling timing, image data recording control, communication control, image and audio recording, display control, image processing control, and transmission pixel. Information processing means 180 (transmission pixel number selection means, etc.) that performs control or processing such as determining the number, various constants for adjustment that can be rewritten and stored, model name, serial number, etc. of the electronic camera 10 Non-volatile memory 182 (with image recording means or recording means function) that can continue to store various kinds of information such as unique identification information, operation programs, constants, display information, images, etc. And a RAM 184 (image recording unit or recording unit) which is a high-speed readable / writable recording unit serving as a work area during program execution. It features and may also be) comprise a are provided.
[0039]
Further, the electronic camera 10 includes a calendar clock 190 that keeps time, a timer 190A that counts time based on an instruction from the information processing unit 180, and a light emitting unit 193 that emits light to the subject to compensate for the shortage of light amount during imaging. A light emission control means 194 for adjusting the light emission timing of the light emission means 193 and the amount of light emitted is provided.
[0040]
As shown in the figure, the information processing means 180 of the electronic camera 10 and its peripheral circuits are connected by a bus 199, and can transmit information to each other at high speed, and the information processing means 180 executes the information. It is possible to control each peripheral circuit based on the processing program.
[0041]
In the recording means (image recording means) such as the recording medium 177, the nonvolatile memory, or the RAM 184, an image, a default transmission pixel number that describes the default transmission pixel number when transmitting the image, and an image that can be provided It is possible to record a transmission side pixel number list in which the number of transmission pixels is described.
[0042]
The transmission / reception means 157 (reception means) is a priority pixel number in which the number of pixels of an image desired to be preferentially transmitted to the image reception device from the image reception device that is an image transmission destination, and the like. It is possible to receive a receiving side pixel number list in which the number of pixels of a receivable image is described.
[0043]
The information processing unit 180 (transmission pixel number selection unit) can select the transmission pixel number of the image to be transmitted to the image receiving device based on the priority pixel number or the default transmission pixel number.
[0044]
Further, the transmission / reception means 157 (transmission means) can read an image of the number of transmission pixels selected by the transmission pixel number selection means (information processing means 180) from the image recording means and transmit it to the image reception device. . Also, the transmission / reception unit 157 (transmission unit) resizes the image recorded in the image recording unit (recording unit such as the recording medium 177, the nonvolatile memory, or the RAM 184) to the selected number of transmission pixels, and transmits it to the image receiving device. It is possible to send. Note that the image resizing process may be performed by the information processing unit 180 or a dedicated resizing processing unit may be provided to perform the resizing process.
[0045]
FIG. 3 is a diagram showing a display of various setting modes provided on the mode switching dial 107.
[0046]
According to the figure, the mode switching dial 107 is recorded with a communication mode (indicated as “Wireless” in FIG. 3) in which wireless communication is performed with other communication devices such as a personal computer and a mobile terminal existing in the vicinity. A playback mode (represented as Play in FIG. 3), a still image capture mode (represented as Cam in FIG. 3) for capturing a still image, and a moving image capture for capturing a movie A mode (denoted as Mov in FIG. 3), a setup mode (denoted as Setup in FIG. 3) for setting the date, photographing mode, number of photographing pixels, auto power-off time setting, alarm sound volume, etc. Is described. When the user operates the mode switching dial 107, the processing mode of the electronic camera 10 can be set to a predetermined mode.
[0047]
An imaging process of the electronic camera 10 configured as described above will be described.
[0048]
The subject image to be imaged is formed on the light receiving surface of the imaging unit 150 by the imaging lens, and the formed subject image is photoelectrically converted and output to the image processing unit 153. The image processing means 153 performs image processing such as correlated double sampling, amplification, and noise reduction processing on the image signal, and outputs it to the A / D converter 154 to convert it into digital data.
[0049]
The image data converted into the digital data is subjected to image processing such as image white balance, gamma correction, YC conversion, zoom processing, pixel number conversion processing and the like according to an instruction from the information processing means 180, and is then temporarily stored in the RAM 184. The
[0050]
The information processing means 180 transfers the display image data to the frame memory 171. The image data stored in the frame memory 171 is sequentially transmitted to the D / A converter 172 and displayed on the display unit 168 together with information such as characters generated from the OSD 169.
[0051]
When the user presses the release button 106 for imaging instruction provided on the input unit 174, the information processing unit 180 enters a mode for imaging a subject. When capturing a still image, generally, a two-stage release button 106 is used, the first stage is used for imaging preparation such as AE and AF adjustment, and the second stage is used as an actual imaging instruction. use. When capturing a moving image, the moving image may be captured only while the release button 106 is being pressed, or each time the release button 106 is pressed while the release button 106 is set to a double action. May be instructed to start / stop imaging.
[0052]
When generating an image for recording, the information processing means 180 sequentially reads out the image stored in the RAM 184 and performs image processing such as image white balance, gamma correction, YC conversion, zoom processing, and pixel number conversion processing. Then, the image data is transferred to the compression / expansion unit 167 to perform image compression processing. The information processing means 180 associates the compressed image data with the attached information such as the imaging conditions when the image is captured, generates one image file, and once again enters the FILE work area in the RAM 184 again. Memorize temporarily. Thereafter, the image file is converted into image data for recording.
[0053]
When an image file is recorded on the recording medium 177, the image file is output to the recording medium interface 179. The recording medium interface 179 performs processing for sequentially recording the acquired image files on the recording medium 177 via the recording medium mounting unit 178. At this time, the information processing means 180 may generate a still image thumbnail and a moving image thumbnail, and perform processing of associating with the main image and recording it on the recording medium 177.
[0054]
When outputting the image file to another communication device via the transmission / reception unit 157, the information processing unit 180 performs a process of outputting the generated image file to the transmission / reception unit 157. The transmission / reception unit 157 that has acquired the image file starts communication connection with another communication device such as a personal computer or a portable terminal via the communication connector 162, and performs processing for transmitting the image file.
[0055]
In the above description, the image transmission device according to the present invention is described as an electronic camera including an imaging unit. However, the present invention is not limited to this, and the image is transmitted to another communication device. The object of the present invention can be achieved even with a personal computer, PDA (Personal Data Assistance), mobile phone, or other image transmission device.
[0056]
FIG. 4 shows a flowchart when an image is transmitted from the image transmission device (electronic camera) to the image reception device.
[0057]
When a user transmits an image from an electronic camera (image transmitting device) to an image receiving device such as a PDA, the user operates the mode switching dial 107 of the electronic camera 10 to set the communication mode. Then, the processing performed by the information processing means 180 of the electronic camera 10 branches to step S100 “image transmission” (hereinafter abbreviated as S100), and the processing mode is set to “communication mode”. The processing mode of one image receiving device (PDA, personal computer, etc.) is also set to “communication mode” in S200 “image reception”.
[0058]
When the processing mode of the electronic camera 10 is set to “communication mode” in S100, the information processing means 180 reads the “setup menu” in the “communication mode” from the recording means such as the nonvolatile memory 182 and displays it. Processing to be displayed on the means 168 is performed.
[0059]
FIG. 5 shows a setup menu in the communication mode.
[0060]
When the processing mode of the electronic camera 10 is set to “communication mode”, the display unit 168 displays a “setup menu” for setting the communication partner device and the number of pixels or gradation of the image to be transmitted and received.
[0061]
As shown in the figure, the “setup menu” includes an item for setting the basic pixel number (default transmission pixel number) of an image to be transmitted and a plurality of items for specifying a communication device (image receiving device) that transmits the image. , An item for instructing to newly search for a connection destination, a device name “Digi-Cam OO” of the electronic camera 10 and a device address “0xNNNNNN” are displayed. Of the items of the basic pixel number, “Original” is the maximum number of pixels that can be transmitted by the electronic camera 10 or the number of pixels that can be freely determined by the user.
[0062]
While viewing the menu screen shown in the figure, the user can select a default basic pixel from among, for example, 1280 × 960, 640 × 480, 320 × 240, and 160 × 120 pixels according to the image to be transmitted and the use of the image. The number can be selected. In the example shown in the figure, an example in which the number of pixels of 640 × 480 is selected as the number of basic pixels is shown.
[0063]
In addition, the user can select a connection destination communication device that transmits an image while viewing the menu screen shown in FIG. In the example shown in the figure, the name of the communication device of the connection destination is “□ PDA” and the information terminal having the device address “0xCCCCCC” is selected. When the connection destination communication device that desires to transmit an image is not described in the “setup menu”, the “new search” item is selected to search for a connectable device that can communicate.
[0064]
6 and 7 show a list of the number of pixels on the transmission side of the electronic camera 10.
[0065]
Since the maximum number of pixels described in the transmission side pixel number list is the number of recorded pixels of the image to be transmitted, it depends on the number of captured pixels of each image. In the example shown in FIG. 6, since the number of pixels of the photographed image is 2560 × 1920 pixels, the maximum number of transmission pixels photographed with that number of pixels is also 2560 × 1920 pixels. In the example shown in FIG. 7, since the number of pixels of the photographed image is 1280 × 960 pixels, the maximum number of transmission pixels of the image photographed with the number of pixels is 1280 × 960 pixels.
[0066]
For example, an image resizing function in an image transmission side device such as an electronic camera is 1/2 of the number of pixels of the original image (for example, 2560 × 1920 or 1280 × 960). ⁿ (Where n is an integer) steps, which can be transmitted after being resized to an image of up to 160 × 120 pixels. The transmission side pixel number list is recorded in a recording unit such as the RAM 184 and the nonvolatile memory 182 of the electronic camera 10. Since the transmission-side pixel number list is used in the internal processing of the camera, it can be stored in the memory in a free format, but the format or the same as the reception-side pixel number list transmitted from the image reception device or By using the format, it is possible to share the handling of both pixel number lists.
[0067]
When the setting of each item is completed in the “setup menu” shown in FIG. 5, the user inputs the end of setup via the input unit 174 such as the execution button 110. The information indicating that the setup has been completed is read by the information processing means 180 via the I / O 175, and a connection request is sent via the transmission / reception means 157 to the connection destination image receiving device set in the “setup menu”. To do. The connection request at this time is transmitted to the device name or device address of the image receiving device set in the “setup menu”.
[0068]
At this time, “inquiry processing” and “device access code (ID packet)” to the image receiving device in the initial state of communication, transmission and reception of “control packet” necessary for communication, transmission and reception of “host connection request”, “ Transmission / reception of “support function confirmation” information, transmission / reception of “authentication” information, transmission / reception of information on “link key setting”, transmission / reception of “encryption” information, and other communication processes may be performed. When the communication connection process is completed in the image receiving device, a notification of “connection completion” is output from the image receiving device, and the information processing unit 180 of the electronic camera 10 notifies the “connection completion” via the transmission / reception unit 157. To get.
[0069]
When the communication connection between the electronic camera 10 and the image receiving device is completed, the information processing unit 180 obtains the number of pixels that can be reproduced and displayed by the image receiving device and the reproduction capability relating to the gradation, “the number of pixels on the receiving side”. Information for requesting the “list” is transmitted to the image receiving device via the transmission / reception means 157.
[0070]
Then, from the image receiving device, a “received pixel number list” in which information relating to reproduction capability such as the number and gradation of pixels that can be reproduced and displayed by the image receiving device and the compression format of the image is described is transmitted. The information processing means 180 obtains via
[0071]
When the information processing unit 180 of the electronic camera 10 acquires the “reception pixel number list”, the processing performed by the information processing unit 180 proceeds to “Transmission image selection” in S102, and the image recorded in the recording unit such as the recording medium 177 or the like. The list of reduced images (thumbnail images) is displayed on the display means 168. The user selects an image to be transmitted to the image receiving device from the list of images displayed on the display unit 168 and inputs the selection information via the input unit 174.
[0072]
When the user selects an image to be transmitted to the image receiving device, the image displayed on the list is selected by operating the △ button or the ▽ button provided on the cross button 113, and the execution button. It is determined by operating 110. Alternatively, the frame displayed on the full screen may be determined by operating the △ button, the ▽ button, or the like to select an image to be transmitted by incrementing or decrementing, and operating the execution button 110. The information processing means 180 reads an image file including information such as the pixel number data of the image selected at this time from the recording medium 177 and develops it on the recording means such as the RAM 184, and from the developed pixel number data, FIG. The transmission side pixel number list shown in FIG. 7 is generated. When the transmission pixel number is determined by the transmission pixel number selection process described later, the image developed on the recording unit such as the RAM 184 is resized and compressed, and the image is transmitted via the transmission / reception unit 157. Sent to the receiving device.
[0073]
When the selection of the image to be transmitted is completed in S102, the process performed by the information processing unit 180 proceeds to the process of S104 “select transmission pixel number”.
[0074]
In S104, information such as the received pixel number list or priority pixel number received from the image receiving device in S102, and the number of pixels, gradation, or compression described in the transmitted image list in the electronic camera 10 (image transmitting device). Based on the format or the default number of transmission pixels, processing for selecting the optimum number of pixels or gradation of the image to be transmitted and the compression format is performed. The processing content of S104 will be described in detail after S300 shown in FIG.
[0075]
When the selection of the number of pixels of the image to be transmitted in S104 is completed, the processing performed by the information processing unit 180 proceeds to S106 “Resize transmission image”, and the main image of the image selected in S102 is recorded on the recording medium 177 or the like. The data is read from the means and temporarily recorded in the recording means such as the RAM 184. Next, the information processing means 180 performs processing for converting the main image temporarily recorded in the recording means such as the RAM 184 into the number of pixels, gradation, or image compression format selected in S104. When the image resizing process ends in S106, the information processing unit 180 performs a process (image PUT process) of transmitting the image file including the resized image to the image receiving device via the transmission / reception unit 157. The image file to be transmitted may be divided into a plurality of packets and transmitted as shown in FIG.
[0076]
When the transmission of all the data of the image file is completed, “OK” information is transmitted from the image receiving device to the electronic camera 10. When the “OK” is received, the processing performed by the information processing means 180 of the electronic camera 10 proceeds to the determination of “other image transmission? (Mode change)” in S108, and the user wishes to transmit another image. Judge whether or not. In S108, for example, the information processing unit 180 inquires the display unit 168 about whether or not there is an image to be further transmitted, or information about whether or not to change the processing mode of the electronic camera 10. The information is output and displayed on the display means 168. While viewing the display, the user determines whether or not to transmit another image, and inputs information to that effect via the input means 174.
[0077]
For example, when the information processing unit 180 acquires information indicating that “another image to be transmitted exists” from the user via the input unit 174, the processing performed by the information processing unit 180 returns to S102, and again A process of selecting an image is performed. In S108, when the information processing unit 180 obtains information indicating that “another image to be transmitted does not exist” via the input unit 174, the information processing unit 180 disconnects communication with the image receiving device. Therefore, processing for transmitting a “disconnect request” to the image receiving device via the transmission / reception unit 157 is performed.
[0078]
On the other hand, the image receiving device that has received the “disconnection request” performs a process of disconnecting communication with the electronic camera 10, and transmits “disconnection complete” information to the electronic camera 10 when the preparation is completed. Then, the processing performed by the information processing means of the image receiving device proceeds to the next S110 “End of image reception”.
[0079]
When the information processing unit 180 of the electronic camera 10 receives the “cutting completion” information from the image receiving device, the processing performed by the information processing unit 180 proceeds to S110 “End image transmission” and ends the image transmission processing routine. .
[0080]
FIG. 8 is a diagram illustrating a description example of a receiving-side pixel number list received from a printer that prints images and characters.
[0081]
As shown in the figure, an image reception list received from a printer (image receiving device) includes a manufacturer name (Maker), a device name (Device) of the image receiving device, and a compression format (Supported-Format) of a reproducible image. ), The number of priority pixels desired to be used preferentially (Priority-Pixel), and the range of the number of reproducible pixels (Supported-Pixel). Note that the number of priority pixels in the printer requires a number of pixels of 1280 × 960 (see FIG. 6 or FIG. 7) that is also supported by the electronic camera 10. The received pixel number list shown in the figure may be described in a text format such as xml, or binary data in a predetermined format.
[0082]
FIG. 9 is a diagram illustrating a description example of the reception side pixel number list received from the PDA.
[0083]
As shown in the figure, an image reception list received from a PDA (image receiving device) includes a manufacturer name (Maker), a device name of the image receiving device (Device), and a reproducible image compression format (Supported-Format). ), The number of priority pixels (Priority-Pixel) desired to be used preferentially, and the number of reproducible pixels (Supported-Pixel). The number of priority pixels in the PDA is the number of 240 × 180 pixels that are not supported by the electronic camera 10 (see FIG. 6 or FIG. 7).
[0084]
In the received pixel number list shown in the drawing, 240 × 180 pixels are redundantly described in the item of priority pixel number (Priority-Pixel) and the number of reproducible pixels (Supported-Pixel). This is a light processing program in which the communication device on the image transmission side ignores reading of the item of the reproducible pixel number (Supported-Pixel) and checks only the item of the priority pixel number (Priority-Pixel). Is allowed to be implemented.
[0085]
FIG. 10 is a diagram showing a description example of the receiving side pixel number list received from the notebook computer.
[0086]
As shown in the figure, an image reception list received from a notebook personal computer (image receiving device) includes a manufacturer name (Maker), a device name (Device) of the image receiving device, and a reproducible image compression format (Supported- (Format), the number of priority pixels desired to be used preferentially (Priority-Pixel), and the range of the number of reproducible pixels (Supported-Pixel). Note that since the notebook personal computer can perform processing on a wide range of image pixels, the number of priority pixels is not set.
[0087]
FIG. 11 shows a flowchart of the transmission pixel number selection process in the image transmission apparatus according to the present invention.
[0088]
When the processing executed by the information processing means 180 proceeds to S104 shown in FIG. 4, the processing executed by the information processing means 180 jumps to the subroutine of S300 “Select transmission pixel number” shown in FIG. Then, the process proceeds to the next step S302 “Reception side pixel number list acquisition”.
[0089]
In S <b> 302, processing is performed to acquire the contents of the information such as the reception side pixel number list or the priority pixel number acquired from the image receiving device and recorded in the nonvolatile memory 182 or the RAM 184. In the next S304 “acquisition of transmission side pixel number list”, a process of acquiring the contents of information such as the transmission side pixel number list or the priority pixel number recorded in the recording means such as the nonvolatile memory 182 is performed.
[0090]
The information processing means 180 (priority pixel number judgment means) receives from the reception side pixel number list or the image receiving device read out in S302 in the next determination of S308 “Is priority pixel number set in the reception side pixel number list?” It is determined whether or not there is a priority pixel number setting (Priority-Pixel setting) in the information.
[0091]
If it is determined in S308 that the setting of the priority pixel number is included, the process proceeds to the process after S310 “Is the priority pixel number in the transmission pixel number list?” The priority pixel number selection unit) performs a process of selecting a pixel number based on the priority pixel number as the transmission pixel number.
[0092]
In S310, the information processing unit 180 (priority pixel number transmission availability determination unit) determines whether the priority pixel number described in the reception side pixel number list exists in the transmission side pixel number list. If it is determined in S310 that the priority pixel number described in the reception side pixel number list is included, the process proceeds to S312 "Determine the priority pixel number as the transmission pixel number", and the information processing means 180 (priority pixel number selection means) determines the number of transmission pixels, ends the transmission image selection processing subroutine in S314 “transmission pixel number selection end”, and proceeds to the transmission image resizing processing shown in FIG. .
[0093]
FIG. 12 shows a description of the transmission side pixel number list and a description of the reception side pixel number list that satisfy the condition that the process proceeds to S312.
[0094]
In the same figure, a transmission side pixel number list recorded in recording means such as the nonvolatile memory 182 of the electronic camera 10 and a reception side pixel number list received from a printer (image receiving device) are shown. Since a priority pixel number of 1280 × 960 pixels is set in the reception side pixel number list, the process branches from the determination in S308 to the determination in S310. Further, since the priority pixel number of 1280 × 960 pixels described in the reception side pixel number list is described in the transmission side pixel number list, the priority pixel number is present in the transmission side pixel number list in the determination of S310. Branching to S312. In step S312, the number of priority pixels having a resolution of 1280 × 960 is determined as the number of transmission pixels. In this way, since the number of priority pixels convenient for the image receiving device is selected as the number of transmission pixels, it is possible to efficiently transmit and receive images in a short time.
[0095]
If it is determined in S310 that the priority pixel number does not exist in the transmission-side pixel number list or the like, the processing performed by the information processing unit 180 (maximum common pixel number determination unit) is S316 “common pixel number list (transmission). The common pixel set list and reception pixel number list), and the compression format of the number of pixels, gradation, or image that is described in common in the transmission pixel number list and the reception pixel number list To generate a common pixel count pixel count list. When the generation process of the common pixel number list is completed, the process performed by the information processing unit 180 (maximum common pixel number determination unit) is the process of S318 “acquire maximum common pixel number (maximum number of pixels in the common pixel number list)”. move on.
[0096]
In S318, the information processing unit 180 (maximum common pixel number determination unit) can reproduce the number of pixels, gradation, or the most detailed image of the images described in the common pixel number list generated in S316. Selects and acquires the compression format of the image.
[0097]
In the next determination of S320 “priority pixel number> maximum common pixel number?”, The information processing unit 180 (maximum common pixel number determination unit) determines the priority pixel determined in S308 rather than the maximum common pixel number extracted in S318. It is determined whether or not the number of pixels set for the number is large. If it is determined that the priority pixel number setting pixel number is not larger than the maximum common pixel number, the process proceeds to S322 “The number of pixels exceeding the priority pixel number in the common image list is set as the minimum number of transmission pixels. In the “determination”, the information processing means 180 (minimum common pixel number transmission means) selects the smallest pixel number exceeding the priority pixel number from among the number of pixels existing in the common image list and determines it as the transmission pixel number. Perform the process. When the number of transmission pixels is determined in S322, the processing performed by the information processing means 180 proceeds to S324 "End transmission pixel number selection", the transmission image selection processing subroutine is terminated, and the transmission image resizing process shown in FIG. Proceed to processing.
[0098]
FIG. 13 shows a description of the transmission-side pixel number list and a description of the reception-side pixel number list that satisfy the condition that the process proceeds to S322.
[0099]
In the figure, a transmission side pixel number list recorded in a recording unit such as the nonvolatile memory 182 of the electronic camera 10 and a reception side pixel number list received from a PDA (image receiving device) are shown. Since the priority pixel number of 240 × 180 pixels is set in the reception side pixel number list, the process branches from the determination in S308 to the determination in S310. However, since the priority pixel number of 240 × 180 pixels described in the reception side pixel number list is not described in the transmission side pixel number list, the priority pixel number exists in the transmission side pixel number list in the determination of S310. If not, the process proceeds to S316. In S316, the common pixel number list shown in FIG.
[0100]
The maximum number of pixels described in the common pixel number list is 640 × 480 pixels. On the other hand, since the priority pixel number is 240 × 180 pixels, the determination in S320 branches to S322, and the resolution of 320 × 240 is determined as the transmission pixel number. In this manner, the closest number of pixels larger than the preferred number of pixels convenient for the image receiving device is selected as the number of transmitted pixels, so even if the number of preferred pixels cannot be prepared on the image transmitting device side, Thus, efficient image transmission / reception can be performed.
[0101]
If it is determined in S320 that the number of pixels set with the priority pixel number is larger than the maximum common pixel number, the processing performed by the information processing unit 180 (maximum common pixel number transmission unit) is S326 “maximum common pixel number”. Branching to “determining the number of transmission pixels”, and selecting the maximum number of pixels from among the number of pixels existing in the common image list and determining (or selecting) the number as the number of transmission pixels. When the number of transmission pixels is determined in S326, the processing performed by the information processing means 180 proceeds to S328 "End transmission pixel number selection", ends the subroutine of the transmission image selection process, and resizes the transmission image shown in FIG. Proceed to the process.
[0102]
FIG. 14 shows a description of the transmission side pixel number list and a description of the reception side pixel number list that satisfy the condition that the process proceeds to S326.
[0103]
In the figure, a transmission side pixel number list recorded in a recording unit such as the nonvolatile memory 182 of the electronic camera 10 and a reception side pixel number list received from a mobile phone (image receiving device) are shown. Since the priority pixel number of 240 × 180 pixels is set in the reception side pixel number list, the process branches from the determination in S308 to the determination in S310. However, since the priority pixel number of 240 × 180 pixels described in the reception side pixel number list is not described in the transmission side pixel number list, the priority pixel number exists in the transmission side pixel number list in the determination of S310. If not, the process proceeds to S316. In S316, the common pixel number list shown in FIG.
[0104]
The maximum number of pixels described in the common pixel number list is 160 × 120 pixels. On the other hand, since the priority pixel number is 240 × 180 pixels, the determination in S320 branches to S326, and the maximum common pixel number of 160 × 120 is determined as the transmission pixel number in S326. Thus, since the maximum number of common pixels among the number of pixels that can be handled for the image reception device is selected as the number of transmission pixels, even when the priority pixel number cannot be prepared on the image transmission device side, It is possible to transmit and receive the best image.
[0105]
If it is determined in S308 that the priority pixel number setting is not included in the information received from the receiving image list or the image receiving device, the process proceeds to S330 and the subsequent processes. A means 180 (default transmission pixel number transmission enable / disable determination means, default information determination means) performs a process of selecting the number of pixels based on the default transmission pixel number as the transmission pixel number.
[0106]
The information processing means 180 (default transmission pixel number transmission availability determination means, default information determination means) in the determination of S330 “Is there a default transmission pixel number in the reception side pixel number list?” It is determined whether or not there is a default number of transmission pixels set in the electronic camera 10 (image transmission device) in the information received from.
[0107]
If it is determined in S330 that the default number of pixels set in the electronic camera 10 is present in the reception side pixel number list or the information received from the image receiving device, the information processing means 180 (default transmission pixel) The processing performed by the number selection unit) proceeds to S332 “determine the default pixel number as the transmission pixel number”, determines (or selects) the transmission pixel number, and performs the transmission image selection process at S334 “end transmission pixel number selection”. Is completed, and the process proceeds to the transmission image resizing process shown in FIG.
[0108]
FIG. 15 shows a description of the transmission side pixel number list and a description of the reception side pixel number list that satisfy the condition that the process proceeds to S332.
[0109]
This figure shows a list of pixel numbers on the transmission side recorded in the recording means such as the non-volatile memory 182 of the electronic camera 10 and a list of pixel numbers on the reception side received from the personal computer (image receiving device). In the transmission side pixel number list, various types of transmittable pixel numbers are described, and a 640 × 480 pixel number is set as the default transmission pixel number. Therefore, in response to the presence of the default number of transmission pixels, the processing performed by the information processing unit 180 branches from the determination in S330 to the processing in S332. In this way, since the default number of pixels convenient for the image transmission device is selected as the number of transmission pixels, it is possible to efficiently transmit and receive images in a short time.
[0110]
In S330, when it is determined that the default pixel number does not exist in the reception side pixel number list, the processing performed by the information processing unit 180 (maximum common pixel number determination unit) is S336 “Common Pixel Number List (Transmission Side)”. The information processing unit 180 (quasi-default transmission pixel number selection unit) determines other pixel numbers based on the default transmission pixel number as the number of transmission pixels. The process to select as is performed.
[0111]
In step S336, the information processing unit 180 (quasi-default transmission pixel number selection unit, common maximum pixel number determination unit) determines the number of pixels, gradations, or common information described in the transmission side pixel number list and the reception side pixel number list. A process of extracting the compression format of the image and generating a common pixel count pixel count list is performed. When the generation process of the common pixel number list ends, the process performed by the information processing unit 180 (maximum common pixel number determination unit) proceeds to S338 “Acquire the maximum common pixel number (maximum number of pixels in the common pixel number list)”.
[0112]
In S338, the information processing unit 180 (maximum common pixel number determination unit) can reproduce the number of pixels, the gradation, or the finest image of the image described in the common pixel number list generated in S336. Selects and acquires the compression format of the image.
[0113]
In the next determination of S340 “default transmission pixel number> maximum common pixel number?”, The information processing means 180 (maximum common pixel number determination means) is added to the transmission side pixel number list rather than the maximum common pixel number extracted in S338. It is determined whether the number of default transmission pixels described is large. If it is determined that the default transmission pixel number is not larger than the maximum common pixel number, the process proceeds to S342 “determining the minimum number of pixels exceeding the default transmission pixel number in the common image list as the transmission pixel number”. move on.
[0114]
In S342, the information processing unit 180 (minimum common pixel number transmission unit) selects the smallest pixel number exceeding the default transmission pixel number from the number of pixels existing in the common image list and determines it as the transmission pixel number. Perform the process. When the number of transmission pixels is determined in S342, the processing performed by the information processing means 180 proceeds to S344 "End of transmission pixel number selection", the transmission image selection processing subroutine is terminated, and the transmission image resizing shown in FIG. Proceed to processing.
[0115]
FIG. 16 shows a description of the transmission-side pixel number list and a description of the reception-side pixel number list that satisfy the condition that the process proceeds to S342.
[0116]
In the figure, a transmission side pixel number list recorded in a recording unit such as the nonvolatile memory 182 of the electronic camera 10 and a reception side pixel number list received from a monitor device (image receiving device such as a display) are shown. ing. Since the priority pixel number is not set in the reception side pixel number list, the process proceeds from the determination in S308 to the determination in S330. Although a default transmission pixel number of 640 × 480 pixels is set in the transmission-side pixel number list, the reception-side pixel number list does not include a pixel number of 640 × 480 pixels. It is determined that the number of pixels does not exist in the receiving side pixel number list, and the process proceeds to S336. In S336, the common pixel number list shown in FIG.
[0117]
The maximum number of pixels described in the common pixel number list is 1280 × 960 pixels. On the other hand, since the default transmission pixel number is 640 × 480 pixels, the determination in S340 proceeds to S342, and the resolution of 1280 × 960 is determined as the transmission pixel number. In this way, since the closest number of pixels larger than the default number of pixels convenient for the image transmission device is selected as the number of transmission pixels, even if the default number of pixels cannot be prepared on the image receiving device side, Thus, efficient image transmission / reception can be performed.
[0118]
If it is determined in S340 that the default pixel number is larger than the maximum common pixel number, the information processing unit 180 (maximum common pixel number transmission unit) determines that the maximum common pixel number is determined as the transmission pixel number in S346. Branching is performed to select the maximum number of pixels from the number of pixels existing in the common image list and determine the number of transmission pixels. When the number of transmission pixels is determined in S346, the processing performed by the information processing means 180 proceeds to S348 “End transmission pixel number selection”, the transmission image selection processing subroutine is terminated, and the transmission image resizing shown in FIG. Proceed to processing.
[0119]
FIG. 17 shows the description of the transmission-side pixel number list and the description of the reception-side pixel number list that satisfy the condition that the process proceeds to S346.
[0120]
In the figure, a transmission-side pixel number list recorded in a recording unit such as the nonvolatile memory 182 of the electronic camera 10 and a reception-side pixel number list received from a small monitor device (image receiving device such as a display) are shown. It is shown. Since the priority pixel number is not set in the reception side pixel number list, the process proceeds from the determination in S308 to the determination in S330. In addition, since the default transmission pixel number of 640 × 680 pixels described in the transmission side pixel number list is not described in the reception side pixel number list, the default transmission pixel number exists in the reception side pixel number list in the determination of S330. If it is not determined, the process proceeds to S336. In S336, the common pixel number list shown in FIG.
[0121]
The maximum number of pixels described in the common pixel number list is 320 × 240 pixels. On the other hand, since the default pixel number is 640 × 680 pixels, the determination in S340 branches to S346, and the maximum common pixel number of 320 × 240 is determined as the transmission pixel number in S346. In this way, since the largest common pixel number is selected as the transmission pixel number among the pixel numbers that can be handled by the image receiving device, even if the default pixel number cannot be prepared on the image receiving device side. It is possible to transmit and receive the best image.
[0122]
In the above description, an example of a printer, a PDA, a mobile phone, a personal computer, and a monitor device has been described as an image receiving device. However, the image receiving device is not limited to the above device, and a receiving unit that receives an image, a receiving side Any image receiving device may be used as long as it has means for providing a pixel number list and means for setting the number of pixels as a priority pixel number when there is a pixel number to be transmitted with priority.
[0123]
In the above embodiment, the number of pixels of the image to be transmitted is obtained by the image transmission device side acquiring the reception pixel number list from the image reception device side and comparing it with the transmission pixel number list stored in the image transmission device itself. Although described in the embodiment of the “Push model” for determining the number of transmission pixels such as the gradation or the compression format of the image, the present invention is not limited to this, and is the “Pull model” shown below. However, the object can be achieved by performing the same processing.
[0124]
In the case of the “Pull model”, the image receiving device receives from the electronic camera (image transmitting device) an image list (a list of thumbnail images, etc.) and a transmission side pixel number list attached to each image. As a result, the reception pixel number selection process similar to the process shown in FIG. 11 can be performed on the image reception device side.
[0125]
As another method, the image receiving device receives a list of images from the electronic camera (image transmitting device), displays a list of images on the display means of the image receiving device, and the user desires from the list. 11 is transmitted to the image receiving device side again for the image acquired by the image transmitting device from the image receiving device side, and the processing shown in FIG. 11 is performed on the image receiving device side. It is also possible to perform the received pixel number selection process similar to the above.
[0126]
In the flowchart shown in FIG. 11, after determining whether or not the priority pixel number is set in the reception side pixel number list in S308, there is a default transmission pixel number in the reception side pixel number list in S330. However, the present invention is not limited to this order. Even if the determination in S330 is performed first, the determination in S308 may be performed. Can be achieved. Further, the object of the present invention can be achieved by performing the process of S310 after performing the process of S320, or performing the process of S330 after performing the process of S340.
[0127]
【The invention's effect】
As described above, according to the image transmission device according to the present invention, a preferred pixel number that is convenient for the image reception device is selected as the transmission pixel number based on the transmission-side pixel number list and the reception-side pixel number list. By transmitting an image of the selected number of pixels, it is possible to perform efficient image transmission / reception in a short time.
[0128]
Further, according to the present invention, based on the transmission side pixel number list and the reception side pixel number list, the closest pixel number larger than the preferred pixel number convenient for the image receiving device is selected as the transmission pixel number, and the selected pixel number is selected. By transmitting an image of the number of pixels, it is possible to efficiently transmit and receive an image in a short time even when the priority pixel number cannot be prepared on the image transmission device side.
[0129]
Further, according to the present invention, based on the transmission side pixel number list and the reception side pixel number list, the maximum common pixel number among the pixel numbers that can be handled by the image reception device is selected as the transmission pixel number. By transmitting an image having the selected number of pixels, the best image can be transmitted and received even when the priority pixel number cannot be prepared on the image transmission device side.
[0130]
Further, according to the present invention, a default pixel number that is convenient for the image transmission device is selected as a transmission pixel number based on the transmission side pixel number list and the reception side pixel number list, and an image having the selected pixel number is selected. By transmitting, it is possible to provide an image transmission device capable of efficiently transmitting and receiving images in a short time.
[0131]
Further, according to the present invention, based on the transmission side pixel number list and the reception side pixel number list, the closest pixel number larger than the default pixel number convenient for the image transmission device is selected as the transmission pixel number, and the selection is made By transmitting an image having the number of pixels, it is possible to efficiently transmit and receive an image in a short time even when the default number of pixels cannot be prepared on the image receiving device side.
[0132]
Further, according to the present invention, the maximum common pixel number among the pixel numbers that can be handled by the image receiving device based on the transmission side pixel number list and the reception side pixel number list is selected as the transmission pixel number, By transmitting an image of the selected number of pixels, it is possible to provide an image transmission device capable of transmitting and receiving the best image even when the default number of pixels cannot be prepared on the image receiving device side. It becomes.
[0133]
Further, according to the present invention, when resizing and transmitting an image on the image transmitting device side, it is possible to automatically select the number of transmission pixels while minimizing the user's effort to specify the number of pixels after resizing. It is possible to provide a possible image transmission device.
[0134]
In addition, according to the present invention, an image transmission system in which the number of pixels to be transmitted first can be realized even when the number of pixels supported on the transmission side or the reception side is discrete. In addition, it is possible to save the user from setting the number of pixels to be transmitted.
[Brief description of the drawings]
FIG. 1 is an external perspective view of an electronic camera which is an embodiment of an image transmission device according to the present invention.
FIG. 2 is a block diagram of a signal processing system of an electronic camera.
FIG. 3 is a diagram showing a display of various setting modes provided on the mode switching dial.
FIG. 4 is a flowchart for transmitting an image from an image transmission device (electronic camera) to an image reception device.
FIG. 5 shows a setup menu in the communication mode.
FIG. 6 is a diagram showing a transmission side pixel number list of the electronic camera.
FIG. 7 is a diagram showing another embodiment of the transmission-side pixel number list of the electronic camera.
FIG. 8 is a description example of a receiving side pixel number list received from a printer that prints images and characters.
FIG. 9 is a diagram showing a description example of a receiving side pixel number list received from a PDA;
FIG. 10 is a diagram showing a description example of a receiving side pixel number list received from a notebook computer;
FIG. 11 is a flowchart of transmission pixel number selection processing in the image transmission device according to the present invention.
12 is a diagram illustrating a description example of a transmission-side pixel number list and a description example of a reception-side pixel list that satisfy the condition that the process proceeds to step S312 of FIG.
13 is a diagram illustrating a description example of a transmission-side pixel number list and a description example of a reception-side pixel number list that satisfy the condition that the process proceeds to step S322 in FIG.
14 is a diagram showing a description example of a transmission-side pixel number list and a description example of a reception-side pixel number list that satisfy the condition that the process proceeds to step S326 in FIG.
15 is a diagram showing a description example of a transmission-side pixel number list and a description example of a reception-side pixel number list that satisfy the condition that the process proceeds to step S332 of FIG.
16 is a diagram illustrating a description example of a transmission-side pixel number list and a description example of a reception-side pixel number list that satisfy the condition that the process proceeds to step S342 in FIG.
17 is a diagram showing a description example of a transmission-side pixel number list and a description example of a reception-side pixel number list that satisfy the condition that the process proceeds to step S346 of FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Electronic camera, 100 ... Lens barrel, 104 ... Frame number display, 105 ... Power switch, 106 ... Release button, 107 ... Mode switching dial, 109 ... Cancel button, 110 ... Execution button, 111 ... Menu button, 113 ... Cross button 150 ... Imaging means 153 ... Image processing means 154 ... A / D converter 156 ... Antenna 157 ... Transmission / reception means 162 ... Communication connector 167 ... Compression / decompression means 168 ... Display means 169 ... OSD , 170 signal processing means, 171 frame memory, 172 D / A converter, 174 input means, 175 I / O, 177 recording medium, 178 recording medium mounting unit, 179 recording medium interface, 180 ... Information processing means 182 ... Non-volatile memory, 184 ... RAM, 190 ... Calendar clock, 191 ... Source, 193 ... light-emitting unit, 194 ... light emission control means, 199 ... bus

Claims (2)

An image transmitting device that transmits an image having an appropriate number of pixels to an image receiving device,
Image recording means for recording an image;
A recording unit that records a default transmission pixel number in which a default transmission pixel number when transmitting an image is described, and a transmission side pixel number list in which the transmission pixel number of an image that can be provided is described;
From the image receiving apparatus which is the destination of the image, a priority number of pixels that have been described number of pixels of the image desired to be transmitted with priority on the image receiving device, the number of pixels of the receivable image is described Receiving means for receiving the received pixel number list;
A transmission pixel number selection means for selecting a transmission pixel number of an image to be transmitted to the image receiving device based on the priority pixel number or the default transmission pixel number;
An image of the number of transmission pixels selected by the transmission pixel number selection means is read from the image recording means and transmitted to the image receiving device, or the image recorded in the image recording means is resized to the selected number of transmission pixels. Transmitting means for transmitting to the image receiving device;
An image transmission device comprising:
The transmission pixel number selection means includes:
Priority pixel number judging means for judging whether or not the priority pixel number is included in the information received from the image receiving device;
As a result of the determination by the priority pixel number determination means, when it is determined that the priority pixel number is not included in the information received from the image receiving device, the pixel number based on the default transmission pixel number is set as the transmission pixel number. A default transmission pixel number selection means to select;
As a result of the determination by the priority pixel number determination means, if it is determined that the priority pixel number is included in the information received from the image receiving device, the priority pixel number is recorded in the recording means. Priority pixel number transmission availability determination means for determining whether or not the pixel number is present in the side pixel number list;
As a result of the determination in the priority pixel number transmission enable / disable determination unit, when it is determined that the priority pixel number exists in the transmission side pixel number list, the priority pixel number selection unit that selects the priority pixel number as the transmission pixel number;
As a result of the determination in the priority pixel number transmission availability determination means, if it is determined that the priority pixel number does not exist in the transmission side pixel number list, it is received from the transmission side image list recorded in the recording means and the image receiving device. Generate a common pixel number list obtained by extracting the number of pixels commonly described in the reception side pixel number list, obtain a maximum common pixel number that is the maximum number of pixels in the common pixel number list, and obtain the obtained A maximum common pixel number judging means for judging whether or not the priority pixel number is larger than the maximum common pixel number;
As a result of the determination in the maximum common pixel number determination means, when it is determined that the priority pixel number is larger than the maximum common pixel number, the maximum common pixel number transmission means for selecting the maximum common pixel number as the transmission pixel number;
As a result of the determination in the maximum common pixel number determination means, when it is determined that the priority pixel number is not larger than the maximum common pixel number, the minimum common pixel number in the common pixel number list that exceeds the priority pixel number A minimum common pixel number transmission means for selecting the number of pixels in the list as the transmission pixel number;
An image transmission device comprising: An image transmitting device that transmits an image having an appropriate number of pixels to an image receiving device,
Image recording means for recording an image;
A recording unit that records a default transmission pixel number in which a default transmission pixel number when transmitting an image is described, and a transmission side pixel number list in which the transmission pixel number of an image that can be provided is described;
From the image receiving apparatus which is the destination of the image, a priority number of pixels that have been described number of pixels of the image desired to be transmitted with priority on the image receiving device, the number of pixels of the receivable image is described Receiving means for receiving the received pixel number list;
A transmission pixel number selection means for selecting a transmission pixel number of an image to be transmitted to the image receiving device based on the priority pixel number or the default transmission pixel number;
An image of the number of transmission pixels selected by the transmission pixel number selection means is read from the image recording means and transmitted to the image receiving device, or the image recorded in the image recording means is resized to the selected number of transmission pixels. Transmitting means for transmitting to the image receiving device;
An image transmission device comprising:
The transmission pixel number selection means includes:
Priority pixel number judging means for judging whether or not the priority pixel number is included in the information received from the image receiving device;
As a result of determination by the priority pixel number determination means, if it is determined that the number of priority pixels is included in the information received from the image receiving device, the number of pixels based on the priority pixel number is selected as the number of transmission pixels. Priority pixel number selection means to
As a result of the determination in the priority pixel number determination means, if it is determined that the information received from the image receiving device does not include the priority pixel number, the default transmission pixel number recorded in the recording means is the receiving side. A default transmission pixel number transmission availability determination means for determining whether or not the pixel number list exists;
As a result of the determination in the default transmission pixel number transmission enable / disable determination means, when it is determined that the default transmission pixel number exists in the reception side pixel number list, the default transmission pixel number is selected as the transmission pixel number. Means,
If it is determined that the default transmission pixel number does not exist in the reception side pixel number list as a result of the determination in the default transmission pixel number transmission enable / disable determination unit, from the transmission side image list and the image reception device recorded in the recording unit Generating a common pixel number list obtained by extracting the number of pixels described in common in the received reception side pixel number list, obtaining a maximum common pixel number that is the maximum pixel number in the common pixel number list, and Maximum common pixel number determination means for determining whether or not the default transmission pixel number is larger than the acquired maximum common pixel number;
As a result of the determination in the maximum common pixel number determination means, if it is determined that the default transmission pixel number is larger than the maximum common pixel number, a maximum common pixel number transmission means for selecting the maximum common pixel number as the transmission pixel number; ,
As a result of the determination in the maximum common pixel number determination means, if it is determined that the default transmission pixel number is not larger than the maximum common pixel number, the minimum common pixel number exceeding the default transmission pixel number in the common pixel number list Minimum common pixel number transmission means for selecting the number of pixels in the pixel number list as the number of transmission pixels;
An image transmission device comprising:

Images