JP3766308B2 - Camera and image forming system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera and an image forming system that perform image processing of a photographed image by the camera using related information for image processing recorded by the camera at the time of photographing or the like to form a high-quality image.
[0002]
[Prior art]
Conventionally, an image taken on a photographic film (hereinafter simply referred to as a film) such as a negative film or a reversal film is printed on a photosensitive material (photographic paper) by projecting the image of the film onto the photosensitive material. The so-called direct exposure (analog exposure) for exposure is the mainstream.
On the other hand, in recent years, a printing apparatus using digital exposure, that is, an image recorded on a film is photoelectrically read, and the read image is converted into a digital signal, and then subjected to various image processing to record an image. 2. Description of the Related Art Digital photo printers that are used as data, record an image (latent image) by scanning and exposing a photosensitive material with recording light modulated in accordance with the image data, and make (finished) print have been put into practical use.
[0003]
In digital photo printers, images can be converted into digital image data, and the exposure conditions during printing can be determined by image data processing. Therefore, correction of image skipping and squeezing caused by backlighting, flash photography, etc., and sharpness (sharpening) ) Processing, correction of color or density feria etc. can be suitably performed to obtain a high-quality print that could not be obtained by conventional direct exposure. In addition, it is possible to combine a plurality of images, divide an image, further combine characters, and the like by image data processing, and output a print that is freely edited / processed according to the application. Moreover, according to the digital photo printer, not only the image can be output as a print (photograph) but also the image data can be directly output to a recording medium and used for various purposes other than the photo.
[0004]
Such a digital photo printer basically has a scanner (image reading device) that photoelectrically reads an image recorded on a film, and performs image processing on the read image to obtain output image data (exposure conditions). An image input device having an image processing device, a printer (image recording device) that scans and exposes a photosensitive material in accordance with image data output from the image input device and records a latent image, and develops the exposed photosensitive material And an image output device having a processor (developing device) for printing.
[0005]
By the way, a so-called aberration caused by the lens performance of a camera can be cited as a cause of image quality degradation when an image photographed on a film is reproduced as a print.
For example, even with a single lens, the refractive index is different for R (red) light, G (green) light, and B (blue) light. Therefore, R light, G light, and B light are the same position in the scene. A so-called chromatic aberration of magnification occurs in which the imaging position on the film shifts, and when an image shot on the film is reproduced, a color shift occurs in the obtained image. In addition, in order to obtain an appropriate photographed image, a plane perpendicular to the optical axis needs to be imaged correspondingly on the imaging plane, but in a normal lens, the imaging plane is the optical axis. When the image captured on the film is reproduced, the obtained image is distorted.
Furthermore, the image quality deteriorates due to the decrease in the amount of peripheral light that causes the image to be darker in the periphery than the optical axis, and the out-of-focus caused by the focus position being different in the surface direction of the film. Cause.
[0006]
As described above, various methods for obtaining a high-quality image (print) by correcting the image quality degradation of the photographed image due to the performance of the lens and the like have been proposed.
For example, Japanese Patent Laid-Open No. 6-237376 discloses image quality degradation information, which is inherent to a camera body and a lens, which causes degradation of a photograph, on a photographic film, reads this information at the time of printing, and based on this information, a degraded image A degraded image restoration system that performs the restoration process is disclosed.
In Japanese Patent Laid-Open No. 4-342241, the peripheral distortion state of the photographing screen is determined from the photographing field angle information and the subject distance information, the peripheral distortion information is recorded on the photographic film, and the peripheral distortion information is used at the time of printing. A camera that corrects peripheral distortion is disclosed.
[0007]
Japanese Laid-Open Patent Publication No. 9-281613 discloses a photographic processing apparatus and a photographic processing method for recording information on a camera, a lens, and the like on a photographic film, and correcting deterioration of the image quality of the image using this information at the time of printing. ing.
Furthermore, in Japanese Patent Laid-Open No. 11-231465, a new barcode is provided in addition to a DX barcode and an extended DX barcode that have been conventionally recorded on a film, and new information such as a film with a lens is provided. A printing system is disclosed in which lens characteristic data and the like are recorded on a photographic film, and the chromatic aberration of magnification and distortion are corrected using the data to output a high-quality image free from color shift and distortion. .
[0008]
[Problems to be solved by the invention]
However, all of the conventional methods for correcting image quality deterioration read information (mainly lens information) indicating the cause of image deterioration recorded on the film at the time of shooting on the camera side, and read this information. Therefore, every time a new product comes out, information about the product must be accumulated because the image quality degradation is corrected using correction information corresponding to the information stored in the database etc. on the system side. There is a problem that the amount of information to be stored becomes enormous.
[0009]
The present invention has been made in view of the above-described conventional problems, and a large amount of information on image quality degradation caused by a lens when the image is taken with a single-lens reflex camera, a digital camera, a compact camera, a film with a lens, or the like. It is an object of the present invention to provide a camera and an image forming system that can easily perform correction without forming image and can form a high-quality image.
[0010]
[Means for Solving the Problems]
  In order to solve the above-described problems, a first aspect of the present invention is a camera that records information related to image quality degradation used in image processing of a captured image on at least one of a photographic film, a film cartridge, and a recording medium. ,At least one of a plurality of image quality deterioration information related to image deterioration of the captured image caused by the camera lens of the camera and a plurality of image quality deterioration correction information for correcting the image quality deterioration information, the image quality deterioration information, and the image quality deterioration correction Storage means storing a plurality of pattern numbers for specifying a pattern representing at least one correction content of the information;Image quality degradation information andSaidInformation designating means for designating at least one of the image quality deterioration correction information according to the shooting conditions, and at least one of the image quality degradation information and the image quality degradation correction information designated by the information designating meansThe pattern number for specifying the pattern representing the correction content of the pattern, or the pattern number and the photographing conditionAnd information recording means for recording as the related information,The storage means includes at least one of a plurality of the image quality deterioration information and the image quality deterioration correction information set in advance for the plurality of cameras in the image forming system, the image quality deterioration information, and the image quality deterioration correction information. A plurality selected from the pattern number for specifying the pattern, which is a set of at least one of all correction contents, or separately represented according to the correction contents, based on the characteristics of the photographing lens and photographing conditions At least one of the image quality deterioration information and the image quality deterioration correction information, and the pattern number for specifying the pattern representing the information is stored.A camera characterized by the above is provided.
  here,The photographing lens can select at least one of the image quality degradation information and the image quality degradation correction information for each photographing condition from at least one of the image quality degradation information and the image quality degradation correction information held in advance in the image forming system. Thus, it is preferable that the image forming system is designed based on at least one of the image quality deterioration information and the image quality deterioration correction information set in advance in the image forming system.
  Further, it is preferable that the storage unit stores only the image quality deterioration correction information and a pattern number for specifying a pattern representing the image quality deterioration correction information.
  Furthermore, it is preferable that the information recording unit records only the pattern number as the related information.
[0011]
Here, it is preferable that the image quality deterioration information is at least one of magnification chromatic aberration information, distortion aberration information, peripheral dimming information, blur information, and wide-angle distortion information.
The image quality deterioration correction information is preferably at least one of magnification chromatic aberration correction information, distortion aberration correction information, peripheral attenuation correction information, blur correction information, and wide-angle distortion correction information.
[0012]
  Also, the shootingconditionsIs focal length information, aperture informationandStrobeInformativeIt is preferable that the information is at least one of them.
[0013]
  The information recording means includesThe pattern numberIt is preferable to record the photographic film, the film cartridge, or the recording medium at the time of manufacturing, loading into the camera, taking out from the camera, or photographing an image, before and after photographing.
[0016]
  Also, the aboveMemoryMeans for at least one of the image quality degradation information and the image quality degradation correction information in the vertical and horizontal directions of the captured image;Correction contentsOne setPattern number that identifies the pattern to be representedOr vertically and horizontallyIndicates the correction contents ofPatternPattern number specified separatelyAsMemoryPreferred to be able toYes.
  In addition, a plurality of patterns representing a plurality of deteriorations and / or correction contents of the image quality deterioration information and the image quality deterioration correction information to be selected by the information specifying unitnumberThe options are recorded on the photographic film, the film cartridge, or the recording medium at the time of manufacturing the camera, and the plurality of patterns at the time of shooting.numberPreferably, at least one of the options is selected and recorded.
[0017]
  Similarly, in order to solve the above-mentioned problem, the second aspect of the present invention is used in image processing of a photographed image of the camera recorded on at least one of a photographic film, a film cartridge, and a recording medium by the camera. An image forming system that reads related information of image quality degradation that is performed, performs image processing using the read related information, and forms a reproduced image of the captured image,At least of a plurality of image quality deterioration information related to image deterioration of the captured image caused by the taking lens of the camera and a plurality of image quality deterioration correction information for correcting the image quality deterioration information set in common for the plurality of cameras. A memory that stores a plurality of pattern numbers for specifying a pattern that represents all of the correction contents of one and at least one of the image quality deterioration information and the image quality deterioration correction information as a set, or separately expressed according to the correction contents And at least one of the image quality deterioration information and the image quality deterioration correction information for each photographing condition can be selected from at least one of the image quality deterioration information and the image quality deterioration correction information stored in the storage unit. Designed and related by the camera with the pattern number set for each shooting condition, depending on the shooting condition As broadcastRecordedThe aboveturnNumber, or pattern number and shooting conditionsRead from at least one of the photographic film, the film cartridge, and the recording medium, and the read patternnumberUsingMultiple pattern numbersApplicable fromOf the pattern numberSelect the pattern and the selected patternInAccordingly, the present invention provides an image forming system that corrects the image quality deterioration and forms the reproduced image.
Here, the camera can select at least one of the image quality deterioration information and the image quality deterioration correction information for each shooting condition from at least one of the image quality deterioration information and the image quality deterioration correction information stored in the storage unit. It is preferable that the photographing lens is designed as described above.
Preferably, only the pattern number is read from at least one of the photographic film, the film cartridge, and the recording medium.
In addition, it is preferable that the storage unit stores only the image quality deterioration correction information and a pattern number for specifying the image quality deterioration correction information.
[0018]
Here, it is preferable that the image quality deterioration information is at least one of magnification chromatic aberration information, distortion aberration information, peripheral dimming information, blur information, and wide-angle distortion information.
[0019]
  The image quality deterioration correction information is preferably information for performing at least one of magnification chromatic aberration correction, distortion aberration correction, peripheral light reduction correction, blur correction, and wide-angle distortion correction.
  Also, the shootingconditionsIs focal length information, aperture informationandStrobeInformativeOf these, at least one piece of information is preferred.
[0020]
  In addition, at least one of the image quality deterioration information and the image quality deterioration correction information is set for each shooting condition.In advanceAre preferably prepared.
[0023]
  When correcting the image quality deterioration,,in frontIt is preferable that the image quality deterioration correction information can be finely adjusted.
  Also,As for the image quality degradation information, one set including all of a plurality of correction contents.SaidpatternnumberAs or individually separateSaidpatternnumberThe correction of the image quality degradation of the captured image caused by the photographing lens is read as the one patternnumberOne that falls underSaidBased on the pattern, each correction content is all set or read individuallynumberApplicable to each individualSaidIt is preferable to carry out each separately based on the pattern.
[0024]
  For the image quality deterioration correction information, one pattern including a plurality of correction contents as a set.numberAs or individually separateSaidpatternnumberThe correction of the image quality degradation of the captured image caused by the photographing lens is read as the one patternnumberOne that falls underSaidBased on the pattern, each correction content is all set or read out individuallySaidpatternnumberApplicable to each individualSaidIt is preferable to carry out each separately based on the pattern.
[0025]
  Further, for at least one of the image quality deterioration information and the image quality deterioration correction information, one set in which the vertical and horizontal directions of the captured image are set as one setSaidpatternnumberAs separate or vertical and horizontal directionSaidpatternnumberThe correction of the image quality degradation of the photographed image caused by the photographing lens is read as one pattern in the vertical and horizontal directions.numberOne that falls underSaidBased on the pattern, the vertical and horizontal directions of the captured image are taken as one set, or the vertical and horizontal directions read out are set as separate sets.SaidpatternnumberFall under separateSaidThe vertical and horizontal directions are preferably performed separately based on the pattern.
[0028]
In addition, it is preferable to perform at least one of print output and image data output after correcting the image quality deterioration caused by the photographing lens.
[0029]
The camera is preferably the camera according to the first aspect.
[0030]
DETAILED DESCRIPTION OF THE INVENTION
A camera and an image forming system according to the present invention will be described below in detail based on preferred embodiments shown in the accompanying drawings.
[0031]
  FIG. 1 is an external perspective view showing an outline of a camera according to an embodiment of the present invention.
  Here, a compact camera will be described as a representative example. However, the format of the camera of the present invention is particularly a compact camera.InFor example, a single-lens reflex camera or any type of camera may be used. Further, for example, a film camera (optical camera) may be used, or a digital camera or a hybrid camera may be used. Further, for example, an APS camera or a film with a lens may be used.
[0032]
As shown in FIG. 1, a zoom lens barrel 2 having an optical zoom lens therein is provided at the center of the front of the camera 1. In addition, a finder objective window 3, an AF light projection window 4, an AF light reception window 5, and an AE light reception window 6 are disposed in the upper front portion of the camera 1. Further, the camera 1 main body is provided with an image quality deterioration related information designation button 8 for designating related information of the image quality deterioration for correcting the image quality deterioration caused by the shutter button 7 and the camera lens.
[0033]
By the way, in the present invention, the information related to image quality degradation is correction of image quality degradation caused by the photographing lens (camera lens) of the camera 1 in image processing for correcting the image quality degradation of the photographed image taken by the camera 1. In a narrow sense, it is information used for the purpose of image quality degradation related to the image quality degradation due to the camera lens itself, or the image quality degradation correction information for correcting the image quality degradation, or both. The image quality deterioration information itself and the image quality deterioration correction information information further include photographing information. In the following, image quality degradation related information in a narrow sense or in a broad sense including shooting information will be described using image quality degradation correction information as a representative example, but it is needless to say that the present invention is not limited to this.
[0034]
Although illustration is omitted, the camera 1 is provided with buttons and levers for performing various operations in addition to these. Further, although not shown, the camera 1 has a memory for storing contents selected by the image quality deterioration related information designation button 8 as image quality deterioration related information such as image quality deterioration information and image quality deterioration correction information, and is selected when selecting. A display device such as a liquid crystal display device (LCD) for displaying the contents to be displayed may be installed.
[0035]
FIG. 2A is a schematic diagram showing a film F1 loaded in the camera 1. FIG. The film F1 has a long roll shape, and a perforation P for feeding in the camera 1 is provided outside the image region G. On the film F1, a bar code C representing image quality deterioration correction information and photographing information is optically recorded between the outer ends of both perforations P and both outer ends of the film. FIG. 2B shows a part of a cross section along the photographing optical axis inside the camera 1. As described above, the barcode writer K for optically recording image quality deterioration correction information and the like is provided inside the camera 1 at both ends in the width direction of the film F1.
[0036]
In this embodiment, the image quality deterioration correction information and the like are optically recorded on the film F1 with a barcode. However, the information recording on the film F1 is not limited to the optical recording as described above. For example, as shown in FIG. 3A, a magnetic recording portion M is provided on the film F2, and as shown in FIG. 3B, image quality deterioration correction information and the like are magnetically applied to the magnetic recording portion M by the magnetic recording means J. You may make it record automatically.
In addition to recording on film, it is also electrically recorded on the IC of the film cartridge, or in the case of digital image data such as a digital camera, attached to the data, recorded in the data header, You may make it embed in. As will be described in detail later, it is preferable to select and specify the image quality deterioration correction information from among a plurality prepared in advance on the image forming system side.
[0037]
Next, an image that forms an image by performing image processing such as image quality deterioration correction using image quality deterioration correction information recorded on a film or the like on an image shot by a camera having such an information recording function A digital photo printer constituting the forming system will be described.
FIG. 4 is a block diagram showing an outline of a digital photo printer constituting the image forming system according to the present embodiment.
[0038]
In FIG. 4, a digital photo printer (hereinafter simply referred to as a photo printer) 10 basically includes a scanner (image reading device) 12 that photoelectrically reads an image taken on a film F, and read image data (image information). The image processing device 14 that performs image processing of the above) and the operation and control of the entire photo printer 10, and the photosensitive material (printing paper) is image-exposed with a light beam modulated according to the image data output from the image processing device 14. And a printer 16 that performs development processing and outputs it as a finished print.
Further, the image processing apparatus 14 includes an operation system 18 having a keyboard 18a and a mouse 18b for inputting various conditions input and settings, process selection and instructions, instructions for color / density correction, and the like, and image quality degradation. Stores data and processing programs necessary for carrying out various image processing including correction processing, and also outputs an external memory 19 that outputs image data, an image read by the scanner 12, various operation instructions, various A display 20 for displaying a condition setting / registration screen is connected. Further, not only the image data read from the film by the scanner 12 but also, for example, digital image data D taken by a digital camera or the like is input to the image processing device 14.
[0039]
The scanner 12 is a device that photoelectrically reads an image shot on a film F or the like one frame at a time. The light source 22, a variable aperture 24, and three primary colors of R (red), G (green), and B (blue). A color filter plate 26 that has three color filters R, G, and B to be decomposed and rotates to act on the optical path of the arbitrary color filter, and the reading light incident on the film F is the surface of the film F A diffusion box 28 that is uniform in direction, an imaging lens unit 32, a CCD sensor (here, an area sensor) 34 that is an image reading sensor that reads an image of one frame of film, and an amplifier 36 Have. Further, when the image quality deterioration correction information is optically recorded by a barcode or the like between both edges of the film F or between frames, a barcode reader 38 for optically reading this is provided. Yes. Further, when the image quality deterioration correction information is magnetically recorded on the film F, a magnetic head for reading the information is provided. When the image quality deterioration correction information is electrically recorded on the IC of the cartridge, this is electrically A terminal for reading is provided.
[0040]
As described above, in the illustrated photo printer 10, the type and size of the film F such as APS 240-size negative film and 135-size negative (or reversal) film, and the form of the film F such as strips and slides are provided. Depending on the type of processing such as trimming, a dedicated carrier that can be mounted on the main body of the scanner 12 is prepared. By exchanging the carrier, various types of films and processing can be handled. A photographed image (frame) photographed on the film F and used for print creation is transported to a predetermined reading position by this carrier and held. The barcode reader 38 is disposed on the carrier on the upstream side of the predetermined reading position, and reads the image quality deterioration correction information when the film F is conveyed to the predetermined reading position. In addition, as described above, a magnetic track is provided on the edge of the film F and information is magnetically recorded, such as an APS 240 size film, or information is recorded on the IC of the film cartridge. In some cases, means for reading the magnetic information and the like are arranged, and the image quality deterioration correction information and the like are read when the film F is conveyed to the reading position. When digital image data is directly input to the image processing device 14, for example, image quality deterioration correction information recorded in the header of the digital image data or the like is used as it is in the image processing device 14.
[0041]
An output signal (image data) from the scanner 12 is output to the image processing device 14.
FIG. 5 shows a block diagram of the image processing apparatus 14. The image processing apparatus 14 includes a CPU 54 that performs and controls image processing including image quality deterioration correction processing, and controls the entire photo printer 10, and an internal memory 56 that stores information necessary for the CPU 54. The internal memory 56 stores several representative patterns of image quality deterioration correction information for correcting image quality deterioration caused by the camera lens. Although details will be described later, at this time, the image forming system side performs magnification chromatic aberration correction, distortion aberration correction, peripheral light reduction correction, sharpness correction, blur correction, wide-angle according to the specification method of image quality deterioration correction information on the camera side. All sets of parameters such as distortion correction may be held, or some parameters may be held for each.
The image processing apparatus 14 includes a data processing unit 58, a prescan memory 60, a main scan memory 62, a prescan image processing unit 64, a main scan image processing unit 66, and a condition setting unit 68. In addition to the above, the image processing device 14 is provided with means for determining the aperture value of the variable aperture 24 and the accumulation time of the CCD sensor 34 during the main scan. The operation system 18, the external memory 19, and the display 20 are connected to each part by the CPU 54 via the CPU bus 80.
[0042]
  By the way, in the image processing system, R, G and B output signals output from the scanner 12 are:dataThe image data is processed by the processing unit 58 into digital image data. The pre-scan data is stored in the pre-scan memory 60 and the main scan data is stored in the main scan memory 62. The pre-scan data and the main scan data are basically the same data except that the resolution (pixel density) and the signal level are different. The prescan data stored in the prescan memory 60 is processed in the prescan image processing unit 64, and the main scan data stored in the main scan memory 62 is processed in the main scan image processing unit 66.
[0043]
The prescan image processing unit 64 includes an image processing unit 70 and an image data conversion unit 72. On the other hand, the main scan image processing unit 66 includes an image processing unit 70 (hereinafter referred to as a processing unit 70) and an image processing unit 74 (hereinafter referred to as a processing unit 74) of the main scan image processing unit 66. This is a part that performs predetermined image processing on the image (image data) read by the scanner 12 according to the image processing conditions set by the condition setting unit 68. Both processing units 70 and 74 perform basically the same processing except that the pixel density of the image data to be processed is different. As image processing in the processing unit 70 and processing 74, color balance adjustment, contrast correction (gradation processing), brightness correction, dodging processing (density dynamic range compression / expansion), saturation correction, sharpness are generally performed. (Sharpening) processing or the like, or in addition to these processing, at least one of magnification chromatic aberration, distortion aberration correction, peripheral light amount correction, blur correction, wide-angle distortion correction, etc. is exemplified.
[0044]
These operations are performed by a known method appropriately combining calculation, LUT (lookup table) processing, matrix (MTX) calculation, filter processing, and the like. In the illustrated example, color balance adjustment and brightness correction are performed. The contrast correction is performed by the LUT, and the saturation correction is performed by the MTX. Other sharpness processing, dodging processing, and the like are performed in block 71 and block 75 in accordance with an instruction from the operator, image data, and the like.
Here, between the MTX of the processing unit 74 that processes the main scan data and the block 75, as an image quality deterioration correction process, an aberration correction of at least one of the lateral chromatic aberration and the distortion aberration and an electronic scaling process are performed. An aberration correction unit 76 is disposed.
[0045]
Image quality deterioration correction information corresponding to the image quality deterioration correction information read from the film by the barcode reader 38 is read out by the CPU 54 from among a plurality of image quality deterioration correction information stored in advance in the internal memory 56, and aberrations are corrected. It is supplied to the correction unit 76. The aberration correcting unit 76 and the image quality deterioration correction information supplied from the CPU 54 and the position information of the image data (pixels) read from the main scan memory 62 and subjected to various image processing, for example, from the center of the image. Correction of chromatic aberration of magnification and distortion, and electronic scaling are performed using the coordinate position (the number from the center pixel). The electronic scaling process performs image enlargement or reduction by image data processing, and outputs the image data in a size corresponding to the output image. The electronic scaling process is usually performed by interpolating image data, and the method is not particularly limited, and various known methods can be used. For example, a method using bilinear interpolation, a method using spline interpolation, and the like. Is exemplified.
[0046]
The image data processed by the processing units 70 and 74 is sent to the image data conversion units 72 and 78. The image data conversion unit 72 of the pre-scan image processing unit 64 converts the image data processed by the processing unit 70 using a three-dimensional LUT or the like to obtain image data corresponding to display on the display 20. On the other hand, the image data conversion unit 78 of the main scan image processing unit 66 similarly converts the image data processed by the processing unit 74 using a three-dimensional LUT, and outputs it as output image data corresponding to image recording by the printer 16. This is a part to be supplied to the printer 16.
[0047]
Various processing conditions by the prescan image processing unit 64 and the main scan image processing unit 66 are set by a condition setting unit 68. The condition setting unit 68 includes an image processing condition setting unit 82, a key correction unit 84, and a parameter integration unit 86.
An image processing condition setting unit (hereinafter, referred to as a setting unit) 82 selects image processing to be performed, sets image processing conditions in the processing units 70 and 74 using prescan data, and supplies the image processing conditions to the parameter integration unit 86. To do. Specifically, the setting unit 82 creates density histograms from pre-scan data, and calculates image feature values such as average density, LATD (large area transmission density), highlight (lowest density), and shadow (highest density). Matrix calculation for performing calculation and the like, and in addition, creating a LUT for gray balance adjustment, brightness correction, and contrast correction, and saturation correction according to an instruction from the operator using the operation system 18 that is performed as necessary In addition to pre-filter processing, dodging processing, sharpness processing, electronic magnification processing, aberration correction processing such as chromatic aberration of magnification and distortion, peripheral light reduction correction, blur correction such as out-of-focus blur, and wide-angle distortion using a wide-angle lens Image processing conditions such as correction parameters are determined or set.
[0048]
The key correction unit 84 adjusts the image processing conditions according to the keys set on the keyboard 18a for adjusting the brightness, color, saturation, contrast, sharpness, etc., and various instructions input with the mouse 18b. For example, an LUT correction amount) is calculated and supplied to the parameter integration unit 86. The parameter integration unit 86 receives the image processing conditions set by the setting unit 82, sets the supplied image processing conditions in the processing unit 70 of the pre-scan image processing unit 64 and the processing unit 74 of the main scan image processing unit 66, Further, the image processing conditions set for each part are corrected (adjusted) or the image processing conditions are reset according to the adjustment amount calculated by the key correction unit 84.
[0049]
Hereinafter, the operation of the present embodiment will be described.
In the present embodiment, image quality deterioration caused by a camera lens when a camera (for example, a compact camera or the like) is photographed is corrected, and a high-quality print is output. At this time, some image quality deterioration correction information is held in advance on the image forming system side, and image quality deterioration correction processing is performed using information corresponding to the image quality deterioration correction information specified on the camera side. Thus, the information held on the image forming system side in advance is limited, and the memory burden on the system side is reduced.
[0050]
When a photographer performs shooting using the camera 1, the photographer designates image quality deterioration correction information (lens correction information) that is information for correcting image quality deterioration caused by the camera lens. That is, the image quality deterioration related information designation button 8 provided on the camera 1 is operated to select and designate a correction pattern. According to the focal length, this designation method can be selected and designated by a pattern in which magnification chromatic aberration correction, distortion aberration correction, peripheral light reduction correction, and sharpness correction (blur correction) are all set. According to each correction, there is a method of selecting and specifying a correction pattern separately, and either method may be used. In addition, wide angle distortion correction may be designated. Here, the wide-angle distortion is a distortion that occurs at the time of photographing with a wide-angle lens, and can be corrected by applying a strong distortion aberration correction (overcorrection). For this reason, for example, a wide-angle distortion correction button or the like is prepared, and when this button is pressed, a correction pattern may be set so that distortion correction is strengthened. May also be incorporated.
[0051]
Aberrations include chromatic aberration (axial chromatic aberration, lateral chromatic aberration), Seidel 5 aberration (spherical aberration, coma aberration, astigmatism, curvature of field, distortion), wide-angle distortion, and the like. In addition to aberrations, image quality degradation includes peripheral dimming, vignetting, two-line blur, flare, ghost, and the like. All such image quality degradation caused by the taking lens can be the subject of the present invention.
[0052]
In the camera of the present invention, selection contents (options) such as a pattern of image quality deterioration related information (degradation pattern of image quality deterioration information and correction pattern of image quality deterioration correction information) are stored in a memory (not shown). These are read out and displayed on a display device (not shown) such as a liquid crystal display device (LCD), and the image quality deterioration related information designation button 8 is selected from the displayed image quality deterioration related information options (selected contents). And can be recorded on a photographic film, a film cartridge, or a recording medium. However, in the case of a camera in which a photographing lens such as a compact camera, an APS camera, a film with a lens, or a digital still camera is not replaced, image quality deterioration information of a predetermined deterioration pattern or image quality deterioration correction information of a predetermined correction pattern Thus, since it is possible to prepare only the image quality deterioration related information of a predetermined pattern, it can be specified and recorded by the image quality deterioration related information specifying button 8 at a predetermined timing.
Here, a plurality of patterns representing a plurality of deteriorations and / or correction contents of image quality deterioration related information such as image quality deterioration information and image quality deterioration correction information to be selected by the image quality deterioration related information designation button 8 are displayed at the time of manufacturing the camera. Alternatively, it may be recorded in advance on a photographic film, a film cartridge, or a recording medium.
[0053]
When selecting and designating the above-described various corrections in a set pattern, as shown in FIG. 6A, the lateral chromatic aberration correction and distortion are made according to the focal lengths of wide angle W, standard N, and telephoto T. Select and specify from correction patterns (pattern 1, pattern 2, pattern 3,...) In which aberration correction, peripheral light reduction correction, and sharpness correction (blur correction) are all set. Here, each correction pattern (pattern 1, pattern 2, pattern 3,...) Is a pattern in which all corrections are set on the image forming system side (internal memory 56) as shown in FIG. It is set and stored in advance.
6A, for example, in the camera 1-1, for the five types of focal lengths of two types of wide angle (W1, W2), standard (N), and two types of telephoto (T1, T2), the vertical and horizontal directions of the screen, respectively. As a common correction pattern, patterns 1 to 5 are respectively set, and are selected and designated from these patterns. The camera 1-2 is also common to the vertical and horizontal directions. Further, a common correction pattern (pattern 1) is set for two types of wide angles, and a common correction pattern (pattern 4) is set for the two types of telephoto. . In the camera 1-3, patterns are set separately for each of the three types of focal lengths of wide angle W, standard N, and telephoto T.
[0054]
Further, when selecting and specifying a correction pattern separately according to the focal length and the correction content, as shown in FIG. 7A, a correction pattern is set for each focal length and correction content. Select and specify a pattern from the list. For example, in the camera 2-1, for the wide angle W, the magnification chromatic aberration correction and distortion correction are set as a pattern b1, the peripheral light amount correction is set as a pattern k2, and the sharpness correction is set as a pattern s3. For telephoto T, pattern b1 is set for magnification chromatic aberration correction and distortion correction, pattern k2 is set for peripheral light amount correction, and pattern s3 is set for sharpness correction. These patterns are previously set for each correction on the image forming system side as shown in FIG.
It is preferable to design the lens in consideration of the image quality deterioration correction information of the image forming system at the time of camera development. Thereby, it is possible to select and record from the image quality deterioration correction information prepared in advance in the image forming system.
[0055]
In any case, on the image forming system side, typical correction information is stored in advance as described above in several patterns, and correction information of a pattern selected and designated on the camera side and light at the time of shooting are stored. Correction processing is performed according to the distance from the center of the axis, and output as print or image data. On the image forming system side, it is preferable to prepare image deterioration correction information for every photographing condition. Here, examples of photographing conditions include aperture information, focal length information, and strobe information.
The image quality deterioration correction information (lens correction information) refers to image quality deterioration correction processing such as magnification chromatic aberration correction, distortion aberration correction, peripheral light reduction correction, blur correction (sharpness correction), or wide-angle distortion correction. It is correction information for deterioration, and may be a correction formula itself for performing the correction processing for image quality deterioration, a correction coefficient, a temporary correction coefficient, or the like. In particular, in the case of a temporary correction coefficient, recalculation is performed according to image processing conditions such as shooting conditions and print sizes, and correction processing is performed using the results.
[0056]
In addition, in the case of the correction formula, it is further preferable that the order of the correction formula can be increased for each camera according to photographing conditions such as a focal length (wide angle W, standard N, telephoto T). This is because, generally, a complicated aberration requires a higher order. For example, the order of the compact camera may be larger than that of the lens-attached film. This is because the lens of the lens-equipped film basically has a single focal point and thus has a good feature and can be corrected with a small order of about the third order. In the case of the wide angle W and the telephoto T, it is preferable that the order is higher than the standard N. This is because aberrations are larger at wide angle and telephoto than at standard.
[0057]
In the correction of chromatic aberration of magnification, the reference colors of the three primary colors R, G, and B, usually the image magnification of R and B are converted with G as a reference, and the R and B images are converted into G images. By combining them, the chromatic aberration of magnification is corrected. As described above, one parameter for R and B may be prepared separately for two colors other than G, which are reference colors, R and B, or one for two colors R and B other than the reference color G. One parameter may be substituted. However, when a single parameter is substituted, the signs are reversed.
[0058]
The blur correction is basically a sharpness correction, and it is preferable that the R, G, and B gains in the sharpness processing can be independently controlled and changed. It is further preferable that the gain can be changed depending on the location in the image. For example, the image is blocked and the gain is changed for each block. Alternatively, the sharpness intensity may be changed according to the distance from the center of the image so that the standard intensity is obtained at the center and the gain is increased toward the edge.
[0059]
In the above-described example, the chromatic aberration magnification correction information, the distortion aberration correction information, the peripheral attenuation correction information, and the blur correction (sharpness correction) represented by the correction formula and correction coefficient for performing the image quality deterioration correction processing as the image quality deterioration related information. Correction) information or wide-angle distortion correction information or other image quality deterioration correction information (lens correction information) is used. However, the present invention is not limited to this, and separately from or in addition to the image quality deterioration correction information, Information of image quality degradation itself, that is, chromatic aberration information of magnification, distortion aberration information, peripheral dimming information and blur (focus blur) information, image quality degradation information (lens information) such as wide-angle distortion information itself, for example, the intensity of these various image quality degradations (And pixel position) and patterns may be used. In order to correct the image quality degradation using the image quality degradation information (lens information) on the image forming system side, the image quality degradation correction according to the above-mentioned various image quality degradation strengths (and pixel positions), patterns, etc. It is preferable to store the correction formula and correction coefficient for processing on the image forming system side.
[0060]
When the photographer specifies image quality degradation related information (including image quality degradation information) represented by the image quality degradation correction information at the time of shooting with the camera 1, the image forming system side outputs an image (print or image data). It may be possible to set whether or not to perform image quality deterioration correction processing. The setting may be linked to the shooting mode.
In the case of a film camera, this information is recorded, for example, optically as a bar code on the end of the film, magnetically recorded on the magnetic recording portion of the film, or a film with an IC. In the case of a cartridge, it is performed by a method such as electrically recording on this IC. In the case of a digital camera, it is recorded by being attached to the image data, recorded in the header of the image data, or embedded in the image data by a method such as a digital watermark. Information is recorded in the case of film cameras, such as film, cartridges, film cartridges, film cartridges with ICs, etc., in the case of digital cameras, smart media, compact flash, PC cards, memory sticks, Various (image data) recording media such as a media card, an internal memory, and a hard disk are applicable.
[0061]
Further, the timing of recording such information on a film or recording medium by the camera is most commonly at the time of shooting or before and after shooting, but is not limited to this, and when the film or recording medium is loaded into the camera. Or when taken out from the camera. In the case of a film with a lens, image quality deterioration correction information (lens correction information) may be optically recorded in advance on the film with a barcode when the film is manufactured. You may optically record on the rod code which the film maker can use freely at the head and the end of a film. Alternatively, it may be recorded magnetically in advance on the magnetic layer of the APS film, and if it is a film with a lens that uses a film cartridge with an IC, image quality deterioration correction information is preliminarily electrically stored in this cartridge at the time of film production. It can also be recorded.
[0062]
In the case of a digital camera, it is possible to specify a correction pattern including not performing image quality deterioration correction while reproducing a captured image after shooting and checking the image for each frame. Further, when ordering from the laboratory, the order may be recorded on an order form (customer card) or the like. Alternatively, the image quality deterioration correction information may be designated and ordered via a communication network such as the Internet.
In addition, although all the frames of APS film are usually shot with a single camera, some APS cameras have an intermediate replacement (MRC) function, so the APS film uses the intermediate replacement function of the APS camera. When the APS film is shot with a different camera, the above information is recorded before and after the replacement.
In addition, in the case of cameras that cannot exchange lenses, such as compact cameras, film with lenses, twin-lens reflex cameras and digital still cameras, etc., the film or recording medium can be used according to the camera when it is loaded or removed from the camera. It is preferable that the image quality deterioration related information such as the specified image quality deterioration information and the image quality deterioration correction information is automatically recorded.
[0063]
On the camera side, in addition to the above-described image quality deterioration correction information, at least one of focal length information, aperture information, lens type identification information, manufacturer identification information, camera type identification information, strobe information, image quality deterioration identification information, and the like. Information should be recorded as well. For example, if strobe information such as strobe on / off information and strobe light distribution characteristics is recorded, the strobe light distribution correction can be corrected by the same method as the peripheral light reduction correction. The image quality deterioration identification information is identification information representing various predetermined image quality deterioration levels.
When manufacturer identification information (manufacturer code, URL, etc.) is recorded, the image processing apparatus 14 on the image forming system side obtains this information as shown in FIG. The access is made to the manufacturer's server 90 and the like, and the image quality deterioration correction information is referred to or downloaded, and correction processing is performed using this information. Specifically, when correction is made with reference to image quality deterioration correction information, the referenced image quality deterioration correction information is not stored on the image forming apparatus side, but the image quality deterioration correction information is accessed by accessing the manufacturer's server 90 each time. Need to refer to. Also, when downloading and correcting image quality degradation correction information, the downloaded image quality degradation correction information can be stored on the image forming apparatus side, and the next time image data captured by the same camera is processed. The image quality deterioration correction information stored can be used for correction, and the manufacturer does not need to be accessed each time. Of course, even when image quality deterioration correction information is downloaded, the manufacturer's server 90 may be accessed each time without saving the information.
In addition to the manufacturer identification information, the manufacturer server 90 may be accessed using at least one of camera identification information and lens identification information. This makes it possible to obtain lens correction information that is exactly the same, and to perform higher-quality correction processing. In this way, if there is manufacturer identification information, or camera identification information and lens identification information, image quality deterioration correction information can be obtained from the manufacturer without any image quality deterioration correction information, and correction can be performed.
[0064]
As a result, each camera manufacturer only needs to support the camera lens correction information of its own manufacturer, which reduces the burden and contributes to the manufacturer's own services (contents, templates, advertisements, quality information). Etc.) can be added. In the case of a factor that can be corrected by image processing by adding quality information, a higher quality image can be obtained by performing image processing and correction.
Here, the content is a bonus print, a movie, or the like, and the template is a service such as a template composition of characters or characters suitable for a shooting frame. In addition, for advertising purposes, new products and services can be printed on the front and back of prints or the margins of index prints in the case of print output, and these contents can be filed in the case of image data output. Can be output.
[0065]
In the laboratory, when an order for printing or the like is received, for example, when the order is for a film, the scanner 12 first scans the film and reads the image. The image data read by the scanner 12 is sent to the image processing device 14, and the pre-scan data is stored in the pre-scan memory 60 and the main scan data is stored in the main scan memory 62 as described above. Further, the image quality deterioration correction information recorded in the barcode at the end of the film F is read by the barcode reader 38 together with the photographing information and sent to the CPU 54 via the CPU bus 80. Therefore, the CPU 54 reads out information corresponding to the image quality deterioration correction information read from the film F from the image quality deterioration correction information previously stored in the internal memory 56 by the system 54 and supplies the information to the aberration correction unit 76. The
[0066]
When the image quality deterioration correction information is designated by the customer card at the time of ordering, the operator inputs the image quality deterioration correction information from the keyboard 18a or the like. At the same time, the photographing information read by the barcode reader 38 is sent to the image processing condition setting unit 82 of the condition setting unit 68.
In the condition setting unit 68, image processing conditions are set, whereby image processing is performed on the main scan data, and output as a finished print from the printer 16, or sent to the external memory 19, from which a predetermined recording medium is stored. Is output as image data.
[0067]
As described above, the CPU 54 matches the image quality deterioration correction information on the camera side acquired from the film F and the image quality deterioration correction information previously stored in the internal memory 56 on the image forming system side, and calls the corresponding one. In this case, the number of correction patterns supported on the image forming system side may differ from the number of correction patterns that can be specified on the camera side. In such a case, it respond | corresponds as follows.
[0068]
First, when the number of correction patterns held on the image forming system side is larger than that on the camera side, as shown in FIG. 9, the pattern A designated on the camera side is a pattern on the system side as shown in FIG. 1 and the camera-side pattern B may correspond to the system-side pattern 3 and so on.
Also, when the number of correction patterns that can be specified on the camera side is larger than the number of correction patterns held on the image forming system side, as shown in FIG. Pattern A, and so on, the closest one of those prepared on the system side is assigned. However, in this case, the performance is considered to be slightly reduced.
Therefore, in this case, as shown in FIG. 11, interpolation correction is performed using the image quality deterioration correction information of the correction pattern already present on the image forming system side to calculate a new correction pattern. In this way, moderate performance can be obtained. At this time, the timing for performing the interpolation calculation is performed when the CPU 54 refers to the correction pattern stored in the internal memory 56 and there is no corresponding correction pattern.
[0069]
The aberration correction unit 76 corrects the lateral chromatic aberration and distortion of the image photographed on the film F by image processing using the image quality deterioration correction information and the image position information. As a result, it is possible to stably output a print in which a high-quality image without color misregistration or distortion is reproduced.
Hereinafter, processing in the aberration correction unit 76 will be described.
The aberration correction unit 76 uses the image quality deterioration correction information and the pixel position of the image data to shift the R and B pixel positions with respect to the reference color (G) caused by the chromatic aberration of magnification and the reference color caused by distortion aberration. The appropriate position for each pixel is calculated from the amount of shift of the pixel position, and the electronic scaling process of the image is performed by interpolating the image data of each pixel using the calculated information on the appropriate position of each pixel. . In other words, by calculating the amount of displacement of the pixel position due to lateral chromatic aberration and distortion, it is possible to detect where each pixel should originally be and perform interpolation calculation of the image data according to this appropriate position. Perform electronic scaling. Thereby, correction of distortion aberration and lateral chromatic aberration and electronic scaling processing can be performed by a single interpolation calculation.
[0070]
The aberration correction unit 76 includes a coordinate conversion processing unit and an enlargement / reduction processing unit in order to implement the processing method. When the image data is supplied, the coordinate conversion processing unit uses the image quality deterioration correction information, and the shift amounts Δr and Δb due to the chromatic aberration of magnification with respect to the G image data ig at the pixel positions ir and ib of the R and B image data. Further, a shift amount D due to distortion of the G input image data ig is calculated.
Next, Δr and D are added to each pixel position ir of the R input image data to calculate a pixel position ir of the R image data in which the lateral chromatic aberration and distortion are corrected, and each pixel of the B input image data is calculated. Δb and D are added to the position ib to calculate the pixel position ib of the B image data in which the chromatic aberration of magnification and distortion are corrected, the D is added to each pixel position ig of the G input image data, and the magnification The pixel position ib of the B image data corrected for chromatic aberration and distortion is calculated. In this calculation, the chromatic aberration of magnification of the R image and the B image is corrected with the G image as a reference, the entire image is aligned with the G image, and the total distortion is obtained by using the shift amount D due to the distortion aberration of the G image. Aberrations are corrected, and pixel positions corrected for lateral chromatic aberration and distortion of each of the R, G, and B images are calculated.
[0071]
Next, the enlargement / reduction processing unit performs image data interpolation processing (N-times interpolation) according to the enlargement / reduction magnification using the pixel positions ir, ig, and ib corrected for the lateral chromatic aberration and distortion. Thus, the image is scaled, the chromatic aberration of magnification and the distortion are corrected, and output as image data that has been subjected to electronic scaling.
Note that when distortion is corrected, the image in the reproduction area may be lost, so-called vignetting may occur. Therefore, when correcting distortion, the magnification is about 0.1 to 5% higher than usual. It is preferable to perform electronic scaling processing (interpolation). In addition, various electronic scaling factors may be set according to the image quality deterioration correction information. Further, since the amount of distortion may be different in the vertical and horizontal directions of the image, the scaling ratio of the electronic scaling process may be changed in the vertical and horizontal directions accordingly.
In such a case, aberration correction processing such as lateral chromatic aberration and distortion aberration may be performed simultaneously in the vertical and horizontal directions, that is, as two-dimensional processing, but may be performed separately in the vertical and horizontal directions, that is, as one-dimensional processing.
[0072]
These correction processes are performed in accordance with the specified correction pattern. In the above example, both distortion and lateral chromatic aberration are corrected as a preferred mode. However, it may be specified that only one of them is performed. Good. Also in this case, the aberration correction and the electronic scaling process are not performed separately, but the appropriate position in which the deviation caused by the aberration is corrected is calculated in the same manner as described above, and information on the appropriate position is obtained. It is preferable to perform electronic scaling processing by interpolating image data using. Further, not only distortion aberration and lateral chromatic aberration, but also correction processing for peripheral dimming, blurring, and wide-angle distortion caused by the lens may be performed. The aberration-corrected image data is subjected to other necessary image processing such as sharpness processing and dodging processing in block 75, and is sent to the image data conversion unit 78. Here, sharpness processing is performed after aberration correction is performed, but aberration correction may be performed after sharpness processing is performed. However, in terms of image quality, it is more advantageous to perform sharpness processing after performing aberration correction as in this embodiment.
Note that, as described above, such image deterioration correction processing may be performed as two-dimensional processing simultaneously in the vertical and horizontal directions, or may be performed as one-dimensional processing separately in the vertical and horizontal directions.
The correction process is performed based on the specified image quality deterioration correction information. However, fine adjustment may be performed according to an operator's instruction or the like to further increase the processing effect.
[0073]
The image data conversion unit 78 converts the image data into image data corresponding to image recording by the printer 16 and sends the image data to the printer 16. The printer 16 exposes a photosensitive material (photographic paper) according to image data to record a latent image, performs development processing according to the photosensitive material (finished), and outputs it as a print.
Further, if necessary, image data after image processing including aberration correction and the like is output to the external memory 19 as it is, from which various recording media such as smart media, compact flash, PC card, memory stick, multimedia card, etc. May be output.
[0074]
As described above in detail, according to the present embodiment, a typical correction pattern is basically held on the image forming system side in advance, and the camera side selects and designates the correction pattern. If the specified camera side is not on the system side, it is substituted with the closest one, or the correction information is calculated by interpolating from the closest one, so the huge number of cameras released one after another In addition to being able to cope with it, it is only necessary to store typical image quality deterioration correction information, so that the storage capacity can be reduced. Also, the information to be recorded on the camera side may be a small number because it may be a pattern number, for example. Further, when developing a camera, an optimum correction can be obtained by designing a lens based on image quality deterioration correction information (lens correction information) of a typical correction pattern prepared in advance in the present system. Further, by combining the photographing means (camera) and the image forming system in this way, it is possible to obtain a higher quality image, and the attractiveness of the camera is increased.
[0075]
Although the camera and the image forming system of the present invention have been described in detail above, the present invention is not limited to the above examples, and various improvements and modifications may be made without departing from the gist of the present invention. Of course.
[0076]
【The invention's effect】
As described above, according to the present invention, it is possible to cope with a huge number of cameras released one after another, and by storing only typical image quality deterioration correction information on the system side, The storage capacity can be reduced, and the information recorded on the camera side can be reduced.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing an outline of a camera according to an embodiment of the present invention.
FIG. 2A is a schematic view showing a film loaded in a camera, and FIG. 2B is a cross-sectional view showing a part of a cross section taken along the photographing optical axis inside the camera.
FIG. 3A is a schematic view showing an example of a film provided with a magnetic recording portion, and FIG. 3B is a cross-sectional view showing a part of a cross section along the photographing optical axis inside the camera.
FIG. 4 is a block diagram showing an outline of a digital photo printer constituting the image forming system according to the present embodiment.
5 is a block diagram showing a schematic configuration of the image processing apparatus of FIG. 4;
FIGS. 6A and 6B are explanatory diagrams respectively showing a set correction pattern specified on the camera side and FIG. 6B held on the image forming system side.
7A is an explanatory diagram showing another correction pattern designated on the camera side, and FIG. 7B is an explanatory diagram showing another correction pattern held on the image forming system side.
FIG. 8 is an explanatory diagram illustrating a state in which the image forming system acquires information via a network.
FIG. 9 is an explanatory diagram showing an example in which the number of correction patterns supported on the camera side and the image forming system side is different.
FIG. 10 is an explanatory diagram illustrating another example in which the number of correction patterns supported on the camera side and the image forming system side is different.
FIG. 11 is an explanatory diagram illustrating another example in which the number of correction patterns supported on the camera side and the image forming system side is different.
[Explanation of symbols]
1 Camera
2 Zoom lens barrel
3 Viewfinder objective window
4 AF projection window
5 AF light receiving window
6 AE light receiving window
7 Shutter button
8 Image quality deterioration related information designation button
10 Digital photo printer
12 Scanner
14 Image processing device
16 Printer
18 Operation system
18a keyboard
18b mouse
19 External memory
20 display
22 Light source
24 Variable aperture
26 color filter board
28 Diffusion box
32 Imaging lens unit
34 CCD sensor
36 amplifiers
38 Bar code reader
54 CPU
56 Internal memory
58 Data processing section
60 pre-scan memory
62 scan memory
64 Pre-scan image processing unit
66 Scanned image processing unit
68 Condition setting section
70, 74 Image processing unit
72, 78 Image data converter
76 Aberration correction unit
80 CPU bus
82 Image processing condition setting section
84 Key correction part
86 Parameter Integration Department

Claims (24)

A camera that records information related to image quality degradation used in image processing of a captured image on at least one of a photographic film, a film cartridge, and a recording medium,
At least one of a plurality of image quality deterioration information related to image deterioration of the captured image caused by the camera lens of the camera and a plurality of image quality deterioration correction information for correcting the image quality deterioration information, the image quality deterioration information, and the image quality deterioration correction Storage means storing a plurality of pattern numbers for specifying a pattern representing at least one correction content of information;
Information specifying means for specifying in response to at least one photographing condition of the image quality deterioration information and the image quality deterioration correction information,
The pattern number for specifying a pattern representing the correction content of at least one of the image quality deterioration information and the image quality deterioration correction information specified by the information specifying means , or information for recording the pattern number and the shooting condition as the related information Recording means,
The storage means includes at least one of a plurality of the image quality deterioration information and the image quality deterioration correction information set in advance for the plurality of cameras in the image forming system, the image quality deterioration information, and the image quality deterioration correction information. A plurality selected from the pattern number for specifying the pattern, which is a set of at least one of all correction contents, or separately represented according to the correction contents, based on the characteristics of the photographing lens and photographing conditions A camera storing at least one of the image quality deterioration information and the image quality deterioration correction information and the pattern number for specifying the pattern representing the information . The photographing lens can be selected from at least one of the image quality degradation information and the image quality degradation correction information in which at least one of the image quality degradation information and the image quality degradation correction information for each photographing condition is held in advance in the image forming system. The camera according to claim 1, wherein the camera is designed based on at least one of the image quality deterioration information and the image quality deterioration correction information preset in the image forming system. The camera according to claim 1, wherein the storage unit stores only the image quality deterioration correction information and a pattern number for specifying a pattern representing the image quality deterioration correction information. The camera according to claim 1, wherein the information recording unit records only the pattern number as the related information. 5. The camera according to claim 1, wherein the image quality deterioration information is at least one of magnification chromatic aberration information, distortion aberration information, peripheral dimming information, blur information, and wide-angle distortion information. The image quality deterioration correction information, according to any of the magnification chromatic aberration correction information, distortion correction information, vignetting correction information, blur correction information and at least one information from among the wide angle distortion correction information of claim 1-5 Camera. The photographing conditions, focal length information, aperture information and camera according to any one of claims 1 to 6 at least one of the information of the strobe information. The information recording means sets the pattern number to the photographic film, the film cartridge or the recording medium at the time of manufacturing, loading into the camera, taking out from the camera, or taking an image, before and after taking an image. the camera according to any one of claims 1 to 7 for recording the. The storage means includes, for at least one of the image quality deterioration information and the image quality deterioration correction information, a pattern number for specifying a pattern representing correction contents in the vertical and horizontal directions of the captured image as one set, or vertical and horizontal directions The camera according to any one of claims 1 to 8 , wherein a pattern representing the correction content can be stored as a pattern number for separately specifying the pattern . A plurality of pattern number options representing a plurality of deteriorations and / or correction contents for the image quality deterioration information and the image quality deterioration correction information to be selected by the information specifying means are the photographic film, film cartridge or recorded on the recording medium, a camera according to claim 1 wherein at least one of the plurality of pattern number of choices at the time of photographing is recorded is selected. Information related to image quality degradation recorded in at least one of a photographic film, a film cartridge, and a recording medium by a camera and used in image processing of a photographed image of the camera is read, and image processing is performed using the read related information An image forming system for forming a reproduced image of the captured image,
At least of a plurality of image quality deterioration information related to image deterioration of the captured image caused by the taking lens of the camera and a plurality of image quality deterioration correction information for correcting the image quality deterioration information set in common for the plurality of cameras. A memory that stores a plurality of pattern numbers for specifying a pattern that represents all of the correction contents of one and at least one of the image quality deterioration information and the image quality deterioration correction information as a set, or separately expressed according to the correction contents Part
Designed so that at least one of the image quality degradation information and the image quality degradation correction information for each imaging condition can be selected from at least one of the image quality degradation information and the image quality degradation correction information stored in the storage unit, depending on the conditions the camera the pattern number is set for each, depending on the shooting conditions, recorded the pattern number as the relevant information or the pattern number and the photographing condition, the photographic film, said film cartridge and Reading from at least one of the recording media,
Select the pattern of the corresponding pattern number from among the plurality of pattern numbers using the read pattern number ,
Based on the selected pattern , correct the image quality degradation,
An image forming system for forming the reproduced image.   The camera shoots so that at least one of the image quality deterioration information and the image quality deterioration correction information for each shooting condition can be selected from at least one of the image quality deterioration information and the image quality deterioration correction information stored in the storage unit. The image forming system according to claim 11, wherein the lens is designed. The image forming system according to claim 11 or 12, wherein only the pattern number is read from at least one of the photographic film, the film cartridge, and the recording medium. The image forming system according to claim 11, wherein the storage unit stores only the image quality deterioration correction information and a pattern number for specifying the image quality deterioration correction information. The image forming system according to claim 11, wherein the image quality deterioration information is at least one information among magnification chromatic aberration information, distortion aberration information, peripheral dimming information, blur information, and wide-angle distortion information. The image according to claim 11, wherein the image quality deterioration correction information is information for performing at least one of magnification chromatic aberration correction, distortion aberration correction, peripheral light reduction correction, blur correction, and wide-angle distortion correction. Forming system. The image forming system according to claim 11 , wherein the photographing condition is at least one of focal length information, aperture information, and strobe information. At least one of the image forming system according to any one of claims 11 to 17 that are provided pre Me to each of all the photographing condition of the image quality deterioration information and the image quality deterioration correction information. The image forming system according to any one of claims 11 to 18 when performing correction of the image quality degradation is that the pre-Symbol image quality deterioration correction information, can be finely adjusted. The image quality deterioration information, as one of the pattern number to set all of the plurality of correction contents, or read as an individual separate the pattern number,
Wherein the correction of the image quality deterioration of a captured image is the one of all sets the correction contents, based on the pattern corresponding to said one pattern number read or read above, due to the photographic lens the image forming system according to any one of claims 11 to 19 individual performed separately based on individual separate the pattern corresponding to an individual separate pattern number. The image quality deterioration correction information, as a single pattern number to set all of the plurality of correction contents, or read as an individual separate the pattern number,
Wherein the correction of the image quality deterioration of a captured image is the one of all sets the correction contents, based on the pattern corresponding to said one pattern number read or read above, due to the photographic lens the image forming system according to any one of claims 11 to 19 individual performed separately based on individual separate the pattern corresponding to an individual separate the pattern number. For at least one of the image quality deterioration information and the image quality deterioration correction information, read out the longitudinal and transverse direction of the captured image as one of the pattern number to one set, or the vertical and horizontal directions as a separate said pattern number And
Wherein the correction of the image quality deterioration of the photographic image due to the photographic lens, the vertical and horizontal direction of the captured image based on one of said pattern corresponding to a pattern number read said longitudinal and transverse directions according to any one of claims 11 to 21 for the longitudinal and transverse directions are carried out separately on the basis of a single set, or to separate the pattern corresponding to the longitudinal and transverse directions separate the pattern number read Image forming system. The image forming system according to claim 11 , wherein at least one of print output and image data output is performed after correcting the image quality deterioration caused by the photographing lens. The image forming system according to any one of claims 11 to 23 , wherein the camera is the camera according to any one of claims 1 to 10 .

Images