JP4623024B2 - Electronic camera - Google Patents

Description

  The present invention relates to an electronic camera, and more particularly to an electronic camera that performs image processing based on image output characteristics on an image output device side for an image captured by an imaging unit.

  Patent Document 1 discloses an imaging apparatus that can easily adjust the gradation characteristics of an imaging apparatus without requiring a special measuring instrument or expensive expense. In the imaging device, the test image displayed on the display device is imaged, and the input of the input / output characteristic variable signal processing circuit is such that the electrical signal of the image obtained by the imaging becomes an assumed predetermined signal. It controls the characteristics.

  Patent Document 2 discloses a video camera that enables recording with an image quality corresponding to an output application by making the γ characteristic of a video signal processing unit variable. The video camera has a plurality of γ correction characteristics, and one of the γ correction characteristics is selected when an image is captured.

  Patent Document 3 discloses the following electronic camera.

  First, the image to be printed and the profile for correcting the color deviation of the image are read from the memory card, and read by referring to the data relating to the visual environment output from the photometric element and the colorimetric element. Correction processing is performed on the image.

  Then, the obtained image data is displayed on the LCD. Next, the CPU reads a profile for correcting the color deviation of the image due to the printing characteristics and recording characteristics of the printer from the memory card, and corrects the captured image read again from the memory card according to this profile. Apply processing.

Subsequently, the CPU of the electronic camera reads information about the captured image when the image is captured from the memory card, performs correction processing corresponding to the read information, and then outputs the obtained image data to the printer. By doing so, it is possible to prevent the color of the image from being different for each display device.
JP 7-298097 A JP 11-1112836 A Japanese Patent Laid-Open No. 11-127415

  In general, printers and display devices have different gradation characteristic colors and color reproduction characteristics for each model. Similarly, cameras have different gradation characteristics and color reproduction characteristics depending on the model, but they do not reflect the characteristics of each print or the characteristics of the image display device. The actual situation is that the displayed final image is not appropriate.

  The present invention has been made in view of such circumstances, and obtains image gradation characteristics, color reproducibility, and other image output characteristics in an image output device such as a printer or a display device, so that the electronic camera side An object of the present invention is to provide an electronic camera that performs in advance image processing corresponding to the output characteristics of the image.

  In order to achieve the above object, an electronic device that performs image processing based on image output characteristics on an image output device side such as a printer that prints an image or a display device that displays an image on an image captured by an imaging unit A camera for reading out image output characteristics on the image output device side from a recording medium, or receiving means for receiving image output characteristics on the image output device side from another communication device; Imaging means for acquiring an image, image processing means for performing image processing based on image output characteristics on the acquired image to generate an image having new characteristics, and writing for recording the generated image on a recording medium Means or a transmission means for transmitting the generated image to another communication device.

  According to the present invention, the reading means for reading the image output characteristics on the image output device side from the recording medium or the receiving means for receiving the image output characteristics on the image output device side from another communication device and the subject image are captured. Imaging means for acquiring an image, image processing means for generating an image having new characteristics by performing image processing on the acquired image based on image output characteristics, and recording the generated image on a recording medium Since it is equipped with writing means or transmission means for transmitting the generated image to other communication devices, it acquires image gradation characteristics, color reproducibility and other image output characteristics in image output devices such as printers and display devices. As a result, image processing corresponding to the output characteristics of the image can be performed in advance on the electronic camera side.

  As described above, according to the electronic camera of the present invention, the reading means for reading the image output characteristic on the image output device side from the recording medium, or the image output characteristic on the image output device side is received from another communication device. A receiving unit; an imaging unit that captures an image of a subject to acquire an image; an image processing unit that performs image processing based on image output characteristics on the acquired image to generate an image having new characteristics; Since it has a writing means for recording the generated image on a recording medium or a transmission means for transmitting the generated image to another communication device, the gradation characteristics and color reproduction of the image in an image output device such as a printer or a display device It is possible to acquire the output characteristics of the image and other images and to perform in advance image processing according to the output characteristics of the image on the electronic camera side.

  Also, by knowing the characteristics of the image output device by an image input device such as an electronic camera, it is possible to create a beautiful image (without changing it later) while making the most of the image material (image data) as much as possible. It becomes possible.

  It is also possible to generate optimum image data for each input image (captured image) assuming a plurality of image output devices (not previously recorded in a memory card).

  Hereinafter, preferred embodiments of an electronic camera according to the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 shows an imaging output system using an electronic camera according to the present invention.

  The imaging output system shown in FIG. 1 includes an electronic camera 10 that captures a subject image, a recording medium 177 that can be inserted into and removed from the electronic camera 10, and a display that displays an image recorded on the recording medium 177. And a printer 70 capable of printing an image recorded on a recording medium 177 on a sheet 72.

  In addition, the image output system includes a personal computer 80 provided with a transmission / reception unit capable of transmitting / receiving information to / from other communication devices such as a server via a communication unit such as the display device 50, the printer 70, or the Internet. Is provided. Note that a recording medium 177 can be attached to the personal computer 80.

  An image captured by the electronic camera 10 can be recorded on the recording medium 177. The recording medium 177 is detachably attached to a display device 50 such as a display for displaying an image or a printer 70 (one form of an image output device) for printing an image. An image output device such as the printer 70 can read an image recorded on the recording medium 177.

  The recording medium 177 can record image output characteristics for setting image processing contents in an image output apparatus such as the printer 70 and a display.

  The image output device such as the printer 70 is used for setting an image and processing contents of the image via a wired or wireless communication unit from a communication device including a transmission / reception unit such as the electronic camera 10 or the personal computer 80. It is possible to receive image output characteristics.

  FIG. 2 shows a block diagram of a signal processing system of the electronic camera according to the present invention.

  As shown in the figure, the optical section of the electronic camera 10 includes an imaging lens 102 for forming a subject image on the light receiving surface of the imaging means 150, and a diaphragm for adjusting the amount of light of the subject image formed on the light receiving surface. 133 and an optical filter 132 such as an Ir filter or an optical low pass filter (OLPF) for attenuating the infrared rays of the subject image formed on the light receiving surface are provided.

  Note that a driver is connected to the imaging lens 102 and the aperture 133, and focus, zoom, and aperture control can be performed based on instructions from the information processing means.

  The image processing unit of the electronic camera 10 forms an image of a subject on a light receiving surface, performs photoelectric conversion, outputs the image signal as an image signal, correlated double sampling processing and gain adjustment for the image signal, A CDS circuit 153 for performing color separation and other analog signal processing; an analog gain amplifier 152 for performing an image conversion process such as white balance while performing a process of amplifying an analog image signal based on an instruction from the information processing means; An A / D converter 154 that converts an analog image signal into digital image data is provided.

  When the imaging unit 150 is an imaging unit such as a CCD, a driver connected to the imaging unit 150 outputs a vertical synchronization signal or a horizontal synchronization signal to the imaging unit 150.

  In addition, the electronic camera 10 is provided with a transmission / reception unit 157 (transmission unit, reception unit) that transmits / receives information such as image data to / from other communication devices using a wired or wireless communication unit.

  In addition, the electronic camera 10 is provided with an image processing unit 167 that performs various image processing on the image acquired by the imaging unit 150. For example, the image processing unit 167 can change the gain of the gradation of each of the R, G, and B colors and can adjust the white balance and the gamma characteristic. A gamma adjustment unit, a synchronization processing unit that converts dot-sequential R, G, and B signals read from a memory in which an image is recorded, and a noise reduction that reduces noise included in the image signal Hue / saturation correction that adjusts the rotation angle between saturation and hue by mutually adjusting the gain of each color, the sharpness processing unit that performs processing to enhance the contour of the image, and the gain of each color R, G, B, etc. And a compression processing unit that performs compression processing on an image by a technique typified by JPEG or the like.

  The image processing unit 167 may be provided with an MTF conversion unit (Modulation Transfer Function) that converts the relationship between the spatial frequency and contrast of the obtained image.

  The electronic camera 10 is provided with display means 168 for displaying various characters, message data, and the like together with images.

  In addition, the electronic camera 10 is detachably mounted with an input unit 174 including a power switch, a release button, a communication button, a transmission button, a function switch, a cross button, a confirmation switch, a mode switch, and a recording medium 177. A recording medium interface 179 (reading means, writing means) for recording and reading information such as image data is provided.

  The recording medium 177 is a detachable recording medium represented by a semiconductor such as a memory card, a magnetic recording type represented by a CD-ROM, a floppy (registered trademark) disk, an MO, an optical recording type, or the like. .

  Further, the electronic camera 10 controls the entire electronic camera 10, controls the sampling timing of image data, reads out image output characteristics for setting the processing content of an image recorded on the recording medium 177, and imaging means. The process of associating the image acquired by 150 with the image output characteristic read from the recording medium 177 and outputting it to the recording medium, or the communication acquired by associating the image acquired by the imaging unit 150 with the image output characteristic read from the recording medium 177 Is provided with information processing means 180 (including file name generation means and directory name generation means functions) for performing various controls such as processing for outputting instructions to other communication devices to transmission / reception means 157.

  In addition, the electronic camera 10 has a nonvolatile memory 182 that can rewrite information and can store stored information such as various adjustment constants even after the power is turned off, and an operation program for the electronic camera 10. Further, there are provided a ROM 183 that stores constants, display-related information, and the like, and a RAM 184 that is a high-speed readable / writable storage means serving as a work area during program execution.

  The information processing means 180 of the electronic camera 10 and each of its peripheral circuits are connected by a bus 199 so that information can be transmitted to each other at high speed.

  Note that the recording medium interface 179 can read out the image output characteristics on the side of the printer, display device, or other image output apparatus from the recording medium 177. The transmission / reception unit 157 can receive image output characteristics on the printer 70 or the display device 50 or other image output device side from the server, the printer 70, the display device 50, or other communication devices.

  Further, the image processing unit 167 can perform image processing based on the image output characteristics of the image output device on the image acquired by the imaging unit 150 to generate an image having new characteristics. ing.

  Further, the recording medium interface 179 can record an image newly generated by the image processing unit 167 on the recording medium. The transmission / reception unit 157 can transmit an image newly generated by the image processing unit 167 to another communication device such as the printer 70 or the display device 50.

  The image output characteristics include the gradation characteristics of the image, the number of pixels of the image, the sharpness information of the image, the hue information of the image, the saturation information of the image, the white balance information of the image, the color reproduction characteristic information, and the MTF of the image. It includes at least one of conversion information or image noise reduction amount information.

  FIG. 3 shows a block diagram of a signal processing system of a printer which is an embodiment of the image output apparatus.

  As shown in the figure, the printer 70 is provided with transmission / reception means 765 for receiving information such as image data from other communication devices by wired or wireless communication means.

  The printer 70 is provided with an image processing unit 767 that performs image processing based on the image output characteristics of the printer 70 with respect to an image received via the transmission / reception unit 765 or the like. The image processing unit 767 includes a decompression processing unit that performs decompression processing on a compressed image using a technique typified by JPEG, and the saturation of each color by adjusting the gains of R, G, and B colors. Hue / saturation correction unit that adjusts the rotation angle between color and hue, and gradation / brightness that can adjust white balance etc. independently of the gradation gain of each of R, G, and B gradations A correction unit, a noise reduction processing unit that reduces noise included in the image signal, and a sharpness processing unit that performs processing for enhancing the contour of the image are provided.

  Note that the image processing unit 767 may be provided with an MTF conversion unit that converts the relationship between the spatial frequency and contrast of the obtained image.

  In addition, the printer 70 is provided with a display unit 768 that displays an image, various characters, and the like and notifies the user.

  In addition, the printer 70 is detachably mounted with an input unit 774 including a power switch, a print execution button, an online button, an offline button, a function switch, a cross button, a confirmation switch, a mode switch, and the like, and a recording medium 777. Then, a recording medium interface 779 for recording and reading image data, image output characteristics, and other information is provided.

  The recording medium 777 is detachable as represented by a semiconductor such as a memory card, a magnetic recording type typified by MO, and an optical recording type, similar to the recording medium 177 mounted on the electronic camera 10. It is a recording medium.

  The printer 70 is provided with information processing means 780 that controls the entire printer 70 and performs various controls such as image data read control, image output characteristic read processing, communication control, and display control.

  In addition, the printer 70 can rewrite information and can store information such as various adjustment constants stored after the power is turned off, an operation program for the printer 70, and each constant. A memory 781 is provided that includes a ROM that stores information related to display and the like, and a RAM that is a high-speed readable / writable storage means that serves as a work area during program execution.

  The printer 70 is provided with a print engine 789 that prints an image on the paper 72 based on an instruction from the information processing unit 780. The information processing means 780 of the printer 70 and each peripheral circuit are connected by a bus 799 so that information can be transmitted to each other at high speed.

  FIG. 4 shows gradation image output characteristics in a printer (which may be a display device or other image output device).

  If the input / output characteristics of the gradation of a certain printer 70 have a “P” characteristic as shown in the figure, the image after printing is a portion of a gradation lower than the input image data. The gain is played back low. For this reason, there has been a problem that an image different from the color desired by the user is output. In general, image output characteristics differ depending on the type of printer.

  FIG. 5 shows gradation image output characteristics in the electronic camera 10.

When the target device for outputting an image is the printer 70, the electronic camera 10 performs image processing with gradation characteristics based on the characteristics of “P ⁻¹ ”. The characteristic “P ⁻¹ ” is an inverse conversion characteristic in which the image output characteristic “P” of the target printer 70 is line-symmetric with respect to the straight line y = x.

  Therefore, as described above, the electronic camera 10 performs image processing with characteristics opposite to the image output characteristics on the printer 70 (image output apparatus) side to generate an image having new characteristics, and By printing with the printer 70 (image output device), it is possible to reproduce the gradation characteristics when the image is taken, or to output an image having desirable gradation characteristics.

Note that the image output characteristic required when performing image processing on the electronic camera 10 side is a characteristic of “P ⁻¹ ” shown in FIG. Accordingly, the characteristic “P ⁻¹ ” is recorded in advance on the recording medium 177, the recording medium interface 179 reads the image output characteristic of “P ⁻¹ ”, and the image acquired by the imaging unit 150 is “ The image processing of “P ⁻¹ ” may be performed.

Further, the “P” characteristic is recorded in advance on the recording medium 177, the recording medium interface 179 reads the “P” image output characteristic to calculate the “P ⁻¹ ” characteristic, and the imaging unit 150 acquires the characteristic. The image processing of “P ⁻¹ ” may be performed on the processed image.

  Instead of reading out and using the image output characteristics on the image output apparatus side from the recording medium 177, the image output characteristics are received from the display device 50, the printer 70, the personal computer 80, and other communication devices via the transmission / reception means 157 for use. It may be.

  Further, the newly generated image may be output to the display device 50, the printer 70, the personal computer 80, or other communication devices via the transmission / reception means 157 instead of being recorded on the recording medium 177. The output image may be output in the form of an image file.

  FIG. 6 shows image output characteristics of color reproducibility in the printer 70.

  This figure shows the input phase (hue) of each color of Y (yellow), R (red), M (red purple), B (blue), C (blue green), and G (green), and is printed by the printer 70. The input / output characteristics of the hues with the phases Y1, R1, M1, B1, C1, and G1 of the respective colors after being performed are shown.

  If the input / output characteristics of the color reproducibility of a printer 70 have the characteristics shown in the figure, an image having a different hue from the actually captured image data is output as the image after printing. There was a problem that it would end up. In general, the image output characteristics of color reproducibility differ depending on the type of printer and the type of paper.

  FIG. 7 shows characteristics of image processing performed by the electronic camera 10 according to the present invention.

  When the target device for outputting an image is the printer 70, the phase of the image obtained by the electronic camera 10 is Y → Y2, R → R2, M → M2, B → B2, and C → C2. , G → G2 is converted. Note that the image conversion process is an inverse conversion process in which Y1 and Y2 exist at positions that are point-symmetric with respect to Y.

  Therefore, as described above, the electronic camera 10 performs image processing with characteristics opposite to the image output characteristics on the printer 70 (image output apparatus) side to generate an image having new characteristics, and By printing with the printer 70 (image output device), it is possible to faithfully reproduce the saturation at the time of imaging, or to set a preferable saturation.

  Further, instead of performing the inverse conversion process independently for each color as in the above embodiment, the conversion angle of each color is designated and the image conversion process is performed to generate a new image. Good.

  FIG. 8 shows image output characteristics by contour correction in the printer 70.

  Also in the electronic camera 10, it is assumed that an edge enhancement process based on the MTF characteristic as shown in the figure, for example, is performed on the captured image, and an image file is created and recorded on the recording medium 177.

  Then, when the printer 70 reads out the image recorded on the recording medium 177, and further executes the contour enhancement processing based on the MTF characteristic having a peak at “f1” as shown in FIG. The image is excessively emphasized in the vicinity of “f <b> 1”, resulting in a tight and unnatural image.

  In general, the image output characteristics for contour correction differ depending on the type of printer and the type of paper.

  FIG. 9 shows characteristics of image processing for contour correction performed by the electronic camera 10 according to the present invention.

  When the target device for outputting an image is the printer 70, the image obtained by the electronic camera 10 is subjected to flat contour correction image processing having no peak at “f1” shown in FIG. The image subjected to the image processing is recorded on the recording medium 177.

  On the other hand, if the printer 70 has an image output characteristic as shown in FIG. 9, the electronic camera 10 performs image processing as shown in FIG. 8 and records the image on the recording medium 177. To do.

  In this way, by performing image processing based on image output characteristics on the image output device side such as a printer on the electronic camera 10 side, a final image printed (or an image displayed on the display device 50) is obtained. It can be appropriate.

  FIG. 10 shows a memory map of a recording medium on which image output characteristic information is recorded.

  As shown in the figure, a recording medium 177 includes a “recording medium management area” for managing various files and information recorded on the recording medium 177 and “image processing contents of an image output apparatus”. An output characteristic area ”is provided.

  In the “image output characteristic region”, the type “FF printer 300” of the printer 70 or the display device 50 or other image output device is described. The image output characteristics of the “FF printer 300” include “sharpness information” of the image, “hue information” of the image, “saturation information” of the image, “main gradation information” of the image, and “ “Highlight gradation information”, “noise reduction amount information” of the image, “MTF” and other information related to the contour correction of the image are recorded.

  In the “image recording area”, various image files such as the image file 1, the image file 2,..., And other information can be recorded.

  Below, the imaging process of the electronic camera 10 is demonstrated.

  The recording medium interface 179 of the electronic camera 10 performs a process of reading image output characteristics on the image output apparatus side recorded on the recording medium 177. The information is recorded in a recording means such as the RAM 184. Further, the image output characteristics may be received from the display device 50, the printer 70, the Pacoson 80, and other communication devices via the transmission / reception unit 157.

  The image to be picked up is formed on the light receiving surface of the image pickup means 150 by the image pickup lens 102, and the formed subject image is photoelectrically converted and output to the CDS circuit 153. The CDS circuit 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.

  The image data converted into the digital data is transferred to the image processing unit 167 in response to an instruction from the information processing unit 180, and the image white balance, gamma correction, gradation characteristic conversion processing, YC conversion, zoom processing, and pixel number conversion processing are performed. After image processing such as color reproduction characteristic conversion processing and image MTF conversion processing is performed, it is temporarily stored in the RAM 184. The information processing unit 180 performs a process of sequentially outputting the image data stored in the RAM 184 to the display unit 168, and display data such as an image is displayed on the display unit 168.

  When the user presses a release button for an imaging instruction provided in the input unit 174, the information processing unit 180 enters a mode for imaging a subject. Then, the information processing means 180 records the image data converted into digital data by the A / D converter 154 in the RAM 184.

  When recording the acquired image on the recording medium 177, first, the image output characteristics recorded in the RAM 184 are read out and transferred to the image processing means 167. Next, the images stored in the RAM 184 are sequentially read out and transferred to the image processing means 167, and image processing based on the image output characteristics is performed to generate a new image.

  The image processing includes image white balance, gamma correction, synchronization, noise reduction processing, sharpness processing, hue / saturation correction processing, YC conversion, zoom processing, pixel number conversion processing, gradation characteristic conversion processing, compression processing Image processing such as various image processing, color reproduction characteristic conversion processing, image MTF conversion processing, and the like. The generated new image is sequentially recorded on the recording medium 177 in association with image output characteristic information as necessary.

  When the generated new image is output to another communication device, the image is output to the transmission / reception unit 157 in association with image output characteristic information as necessary, so that it can be output to another communication device such as the printer 70. Is output.

  In the above description, the embodiment is described in which the image processing based on the image output characteristics on the image output device side is performed by the electronic camera provided with the imaging unit. However, the present invention is not limited to this. Instead, the object of the present invention can be achieved even with an image processing apparatus that acquires an image from an external device via a communication means and performs image processing and image recording.

  FIG. 11 shows a file structure of an image generated by the electronic camera 10.

  As shown in the figure, the image file 12 includes a portion in which the auxiliary information 13 of the image is described, a portion in which the main image 14 having the number of pixels of 1280 × 960 is described, and an index. A reduced image 15 (thumbnail image) portion of the main image 14 used for display or the like is provided.

  You may affix the imaging | photography information 20 when the original image was imaged or produced | generated to the part in which the attached information 13 is described. In the example illustrated in FIG. 11, the image is a shooting date information 21 indicating the date and time when the main image 14 was captured, and an image captured by setting the imaging mode (quality) of the electronic camera 10 to the “NOMAL” mode at the time of imaging. And various types of information including the shooting mode information 22 indicating the title information 23 to which the title of the main image 14 designated by the user is attached.

  Also, in the portion where the attached information 13 is described, the white balance information 24 describing a mode for adjusting the white balance set by the electronic camera 10 at the time of imaging, and the electronic camera 10 being set at the time of imaging. Focus information 25 describing information related to the focusing mode such as “AUTO” or “MANUAL”, shooting position information 26 describing the position where the electronic camera 10 captured the subject image, and imaging using the electronic camera 10 Strobe information 27 describing the light emission mode of the auxiliary light set at the time of performing is attached.

  Further, an image output characteristic 30 for performing image processing based on the image output characteristic on the image output device side is attached to the portion where the attached information 13 is described. The image output characteristics 30 include image sharpness information 31, image hue information 32, image saturation information 33, image main gradation information 34, image highlight gradation information 35, and image noise reduction amount. Information 36, characteristic content identification display 37, image MTF conversion information 38, image output device type information 39 for identifying the image output device, and the like are attached in association with the main image 14.

  By attaching the image output device type information 39 to the image file, it is possible to easily know the image output device that is supposed to output the recorded image. Further, by attaching the image output characteristic itself referred to on the electronic camera 10 side as the attached information as described above, even if there is no image output apparatus referred to temporarily, the characteristics of another image output apparatus can be attached. By tuning to the image output characteristic, the characteristic of the final image can be brought close to the target characteristic.

  In addition to the various types of information described above, the number of pixels of the image, the white balance information of the image, the AE information of the image, the tone characteristic conversion processing of the image, the color reproduction characteristic information, the number of printed sheets of the image, and other information, You may make it attach to the image output characteristic 30. FIG.

  The image file 12 may be recorded on the recording medium 177, or the image file 12 may be output to another communication device such as the printer 70 via the transmission / reception unit 157.

  The identification display 37 is a type of image to be captured, such as “real”, “berbiya”, “landscape”, “portrait”, “night view”, “underwater”, “ski”, “text”, etc. Describes the optimal image processing classification according to.

  For example, when the identification display 37 is “real”, it indicates that the image output characteristic for the purpose of faithfully reproducing the color at the time of actual printing is printed or displayed, and the sharpness feeling is recorded. Is set to be weak, the main gradation is set to be soft, and the subject is reproduced smoothly, and the highlight gradation of the bright part is set to be hard.

  Hereinafter, the printing process in the printer 70 will be described.

  When the image to be printed is recorded on the recording medium 777, the information processing means 780 records the file name of the image file recorded on the recording medium 777 and the image file via the recording medium interface 779. The process of reading out the thumbnail image is performed. Then, a process of displaying a list of the read image file names and thumbnail images on the display means 768 is performed.

  The user browses the image displayed on the display unit 768 and inputs information for selecting an image to be printed via the input unit 774.

  The information processing unit 780 that has acquired the selection information via the input unit 774 reads out the selected main image and the image output characteristics attached to the image file, and performs processing for recording in the memory 781.

  The information processing unit 780 reads out the image output characteristics recorded in the memory 781 and outputs the image output characteristics to the image processing unit 767 to set the processing content of the image. When the image processing setting based on the image output characteristics is completed, the information processing unit 780 reads out the main image recorded in the memory 781 and outputs the main image to the image processing unit 767. Based on the predetermined image output characteristics Instructs image processing.

  In the decompression processing unit of the image processing unit 767, decompression processing is performed on the acquired compressed image by a technique typified by JPEG or the like. Next, the hue / saturation compensation correction unit adjusts the rotation angle between saturation and hue, and the tone / brightness correction unit adjusts the gradation gain of each of the R, G, and B colors. Adjust the white balance etc. independently.

  Next, the noise reduction processing unit performs processing for reducing noise included in the image signal, and the sharpness processing unit performs processing for enhancing the contour of the image.

  When the image processing unit 767 completes the image processing based on the acquired image output characteristics, the information processing unit 780 prints an image newly generated by the image processing unit 767 with respect to the number of printed sheets and the type or size of the printing paper. The information is output to the print engine 789 together with the information.

  The print engine 789 that has acquired the information such as the image performs printing based on the information acquired from the information processing unit 780. Then, an image designated by the user is printed and output on the paper 72.

  Further, the image output characteristics of the image processing performed by the printer 70 and the identification information regarding the contents of the image output characteristics may be printed on the back surface of the paper 72 on which the image is printed.

  When the image processing unit 767 displays a newly generated image on a display, a projector, or the like, the information processing unit 780 outputs the newly generated image to the display unit 768. Note that the display means such as a display or a projector may be a display means provided outside the printer 70.

  In the above-described embodiment, the image output characteristic for setting the processing content of the image is recorded in the recording medium 177. However, the present invention is not limited to this. Only the image output device type information 39 such as “FF printer 300” is recorded on the recording medium 177, and the image sharpness information and other image output characteristics are stored in the table format in the recording means of the electronic camera 10 or the image output device. Thus, even if the image output device type information 39 is recorded in association with the image output device type information 39, the object of the present invention can be achieved.

  The final target image output from the printer 70 may be freely changed by the user.

  In that case, a plurality of image output devices are assumed for one input image, and the image processing means 167 creates an image corresponding to each image output device. For example, the following menu screen shown in FIG. 12 is displayed on the display means 168 of the electronic camera 10 and changed.

  FIG. 12 shows a menu screen displayed on the display means 168 of the electronic camera 10.

  As shown in the figure, the display unit 167 of the electronic camera 10 displays a list of image output devices and a check box for determining whether or not to perform image processing corresponding to the image output device. In the example shown in the figure, as the types of images to be created, a plurality of printers, a plurality of external monitors (display devices), and other image output devices are listed as candidates.

  The image processing means 167 of the electronic camera 10 generates output images for the types of image search output devices set by the user.

  As shown in the figure, the user may be allowed to set the first candidate. For example, in this case, image conversion is performed by changing the analog characteristics of the first candidate image with an analog gain amplifier 152 or the like based on the CCD RAW data after A / D conversion, and digital data is obtained for other items. The image may be corrected by a unit (image processing unit 167 or the like).

  FIG. 13 shows a flowchart of image processing in the electronic camera according to the present invention.

  As shown in the figure, when the user sets the mode change switch provided in the electronic camera 10 to the “imaging” mode, the processing performed by the information processing means 180 of the electronic camera 10 branches to S100 “Start”. The process then proceeds to the next step S102 “Reading image output characteristics of image output apparatus”.

  In S102, the information processing means 180 performs processing for reading image output characteristics (tone, color, contour correction, etc.) on the image output apparatus side. At this time, the information processing means 180 may read image output characteristics from the recording medium 177 via the recording medium interface 179, read from the personal computer 80 via the transmission / reception means 157, or via the transmission / reception means 157. The data may be read from a machine communication device such as the printer 70, or may be read from another communication device such as a server via a communication network such as the Internet.

  The personal computer 80 may read the image output characteristics from the recording medium (memory card) in S104 “PC is loaded” and output the information on the image output characteristics to the electronic camera 10 via the communication unit. Good.

  Note that the image output characteristics may be such that the image output device records the final target image quality characteristics (image output characteristics, etc.) on the memory card in S106 “Write to memory card”. Furthermore, when the recording medium is initialized (formatted) by the image output apparatus, the image output characteristics may be recorded together. Further, instead of the image output device recording the final target image quality characteristic on the memory card, it may be transmitted directly to the personal computer 80 via the communication means.

  In S108 “Camera Load”, the read (or acquired) image output characteristics are recorded in a memory (such as RAM 184) (S110), and S112 “Electronic Camera Input / Output from Image Output Device Information and Final Target Image Quality Characteristics” Proceed to “Calculate characteristics”.

  In S112, the information processing unit 180 calculates input / output characteristics (such as an inverse function) of image processing performed by the image processing unit 167 based on the read (or acquired) image output characteristics (final target image quality characteristics). Perform the process.

  In the next step S114 “Is the image output device the first candidate?”, The information processing means 180 determines whether or not the image output device corresponding to the image processing to be performed is the first candidate image output device. . If it is the first candidate, the process branches to S116 “Calculate analog and digital roles and analog characteristics and digital characteristics”, and if it is not the first candidate, S118 “Digital input characteristics” Proceed to “Calculate amount when correcting”.

  In S116, the information processing means 180 calculates analog characteristics and digital characteristics related to image processing, outputs the calculated analog characteristics to the D / A converter, and outputs the calculated digital characteristics to the image processing means 167. .

  In S120 “D / A”, the D / A converter converts the analog characteristics into analog data, and outputs the converted analog data to the analog gain amplifier 152.

  In step S122 “analog signal processing unit”, preparation for conversion processing of an image signal is performed based on the analog characteristics input by the analog gain amplifier 152.

  In S <b> 126 “digital signal processing unit”, the image processing unit 167 prepares for image processing based on the digital characteristics input from the information processing unit 180.

  On the other hand, in S118, the information processing means 180 performs processing such as calculating an inverse function of the image output characteristics on the image output device side, and outputs the correction value to the image processing means 167.

  In S128 “digital signal processing unit”, the image processing unit 167 prepares for image processing based on the digital characteristics input from the information processing unit 180.

  When all of the above image processing preparations are completed in S <b> 130 “Completion of signal processing” and the user presses the release button provided on the electronic camera 10 to instruct imaging of the subject, information on the electronic camera 10 is obtained. The processing performed by the processing unit 180 proceeds to the next S132 “shooting”.

  When the imaging of the subject image is finished in S132 and the image processing based on the characteristic information on the image output device side is finished in the analog gain amplifier 152 or the image processing means 167, the processing executed by the information processing means 180 is as follows. The process proceeds to S134 “Record”.

  In step S134, the information processing unit 180 reads out the image output characteristics recorded in the RAM 184 and the like, generates the image file shown in FIG. 11, and records the image file on the recording medium 177 together with the image subjected to the image conversion.

  In S134, the information processing unit 180 may output the image file to another communication device such as a printer via the transmission / reception unit 157.

  When the recording of the image file or the output process of the image file ends, the process proceeds to S135 “END”, and the imaging process ends.

  Further, as the file name of the image file 12 shown in FIG. 11, the file name including the image output device type information 39 (information for identifying the image output device having the image output characteristics used for the image processing) is processed. The means 180 may generate and add to the image file.

  Further, as the directory name of the directory in which the image file 12 is stored, the image output device identification information 39 for identifying the image output device having the image output characteristics used for the image processing is attached to the information processing means 180, and The image file 12 may be stored.

The figure which shows the imaging output system using the electronic camera which concerns on this invention Block diagram of signal processing system of electronic camera according to the present invention Block diagram of signal processing system of printer as one form of image output device The figure which shows the image output characteristic of the gradation in a printer, a display apparatus, and other image output devices The figure which shows the image output characteristic of the gradation which is executed with the electronic camera Diagram showing image output characteristics of color reproducibility in printer The figure which shows the characteristic of the image processing which is executed with the electronic camera The figure which shows the image output characteristic by the outline correction in a printer The figure which shows the image processing characteristic of the outline correction implemented with an electronic camera The figure which shows the memory map of the recording medium with which the information of the image output characteristic is recorded The figure which shows the file structure of the image which is generated with the electronic camera Menu screen displayed on the display means of the electronic camera Flow chart of image processing in electronic camera

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Electronic camera, 12 ... Image file, 13 ... Attached information, 14 ... Main image, 15 ... Reduced image, 20 ... Shooting information, 21 ... Shooting date information, 22 ... Shooting mode information, 23 ... Title information, 24 White balance information 25 Focus information 26 Shooting position information 27 Strobe information 30 Image output characteristics 31 Sharpness information 32 Hue information 33 Saturation information 34 Main gradation information 35 ... Highlight gradation information, 36 ... Noise reduction amount information, 37 ... Identification display, 38 ... MTF conversion information, 39 ... Image output device type information, 50 ... Display device, 70 ... Printer, 72 ... Paper, 102 ... Imaging Lens, 132 ... Optical filter, 133 ... Aperture, 150 ... Imaging means, 152 ... Analog gain amplifier, 153 ... CDS circuit, 154 ... A / D converter, 157 ... Transmission / reception Means, 167 ... Image processing means, 168 ... Display means, 174 ... Input means, 177 ... Recording medium, 179 ... Recording medium interface, 180 ... Information processing means, 182 ... Non-volatile memory, 183 ... ROM, 184 ... RAM, 199 ... bus, 765 ... transmission / reception means, 767 ... image processing means, 768 ... display means, 774 ... input means, 777 ... recording medium, 779 ... recording medium interface, 780 ... information processing means, 781 ... memory, 789 ... print engine, 799 ... Bus

Claims (16)

Imaging means for capturing an image of a subject;
A plurality of candidates as the image output device of the image output destination, output destination setting means capable of setting one or more image output devices of the image output destination from the plurality of candidates;
Obtaining means for obtaining image output characteristics on the image output device side of the output destination set by the output destination setting means from a recording medium or other communication device;
By carrying out image processing based on the image output characteristic of the output destination of the image output device with respect to the captured image, an image having a new characteristic corresponding to each image output device is set to the output destination Image processing means for generating the number of image output devices set as the output destination;
Recording means for recording the generated image on a recording medium or another communication device;
First candidate setting means for setting a first candidate of the image output device to which the image is output from the plurality of candidates,
The image processing means includes a first digital for image processing based on an analog characteristic for image processing based on an image output characteristic of the first candidate image output device and an image output characteristic for the first candidate image output device. And a second digital characteristic related to image processing based on an image output characteristic of an image output device other than the first candidate, and the analog characteristic, the first digital characteristic, and the second digital characteristic are calculated. prepare image processing based, carried out before the imaging of the image by the imaging unit, when the imaging of the by that image on the imaging device, implementing the image processing based on the image output characteristics of the image output device of the first candidate In the case of performing the image processing based on the analog characteristics and the first digital characteristics, the image output of the first candidate among the image output devices set as the output destination When performing image processing based on image output characteristics of an image output device other than a device, the image processing is performed based on the analog characteristics and the second digital characteristics corresponding to each image processing device. A featured electronic camera.   The electronic camera according to claim 1, further comprising an analog gain amplifier that performs image processing based on an analog characteristic calculated by the image processing unit.   3. The electronic camera according to claim 1, wherein the image output characteristic is an image output characteristic of an image gradation.   The electronic camera according to claim 1, wherein the image output characteristic is the number of pixels of an image.   5. The electronic camera according to claim 1, wherein the image output characteristic is image sharpness information.   6. The electronic camera according to claim 1, wherein the image output characteristic is hue information of an image.   The electronic camera according to claim 1, wherein the image output characteristic is saturation information of an image.   The electronic camera according to claim 1, wherein the image output characteristic is image white balance information.   The electronic camera according to claim 1, wherein the image output characteristic is image output characteristic information of color reproducibility.   The electronic camera according to claim 1, wherein the image output characteristic is MTF conversion information.   The electronic camera according to claim 1, wherein the image output characteristic is image noise reduction amount information.   12. The image acquisition device according to claim 1, wherein the acquisition unit acquires a gradation image output characteristic related to image processing performed on the electronic camera side in correspondence with a gradation image output characteristic on the image output apparatus side. The electronic camera according to any one of the above. The acquisition unit acquires a reverse conversion characteristic of a gradation image output characteristic on the image output device side,
13. The electronic camera according to claim 12, wherein the image processing means performs image conversion processing using the characteristics of the inverse conversion.   14. The electronic camera according to claim 1, wherein the image processing unit performs image processing having a characteristic opposite to an image output characteristic of color reproducibility on the image output apparatus side. Images of the recording has taken the form of an image file, as the file name of the image file, identifies the image output apparatus having an image output characteristics used in image processing, the file name generation subjecting the image output device identification information 15. The electronic camera according to claim 1, further comprising means. Images of the recording has taken the form of an image file, as the directory name of the directory that stores the image file, identifies the image output apparatus having an image output characteristics used in image processing, an image output device identification information 16. The electronic camera according to claim 1, further comprising directory name generation means for attaching.

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