Light source type discriminating method, image forming method, method and apparatus for estimating light source energy distribution, and exposure amount determining method
First Claim
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1. A light source type discriminating method for discriminating a light source type of a photographic light source, comprising the steps of:
- providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors;
arranging a fourth sensor having a spectral sensitivity that does not overlap said spectral sensitivities corresponding to said three primary colors, said first to fourth sensors constituting an image pickup system; and
discriminating said light source type of said photographic light source by using information obtained by said first to fourth sensors, wherein;
said fourth sensor is a sensor in which a value of an average minimum distance Lmin indicating light source similarity between respective light sources whose types are to be discriminated is at least equal to a predetermined first reference value, said average minimum distance Lmin being represented by an expression;
Lmin=Σ
L(i)jmin/m
(1)where Lmin is the average minimum distance, L(i)j is a similarity between a reference light source (i) and another light source (j) and m is a number of types of light sources, and being obtained based on differences between respective sensor signals of said reference light source (i) and respective sensor signals of said another light source (j).
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Abstract
The discriminating method utilizes first to third sensors respectively having spectral sensitivities corresponding to three primary colors and a fourth sensor having a spectral sensitivity that does not overlap the spectral sensitivities corresponding to the three primary colors as sensors constituting an image pickup system, and discriminates a light source type of a photographic light source by using information obtained by the first to fourth sensors. The image forming method corrects image data of an input image using the light source type discriminated by the above light source type discriminating method.
26 Citations
17 Claims
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1. A light source type discriminating method for discriminating a light source type of a photographic light source, comprising the steps of:
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providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors; arranging a fourth sensor having a spectral sensitivity that does not overlap said spectral sensitivities corresponding to said three primary colors, said first to fourth sensors constituting an image pickup system; and discriminating said light source type of said photographic light source by using information obtained by said first to fourth sensors, wherein; said fourth sensor is a sensor in which a value of an average minimum distance Lmin indicating light source similarity between respective light sources whose types are to be discriminated is at least equal to a predetermined first reference value, said average minimum distance Lmin being represented by an expression;
Lmin=Σ
L(i)jmin/m
(1)where Lmin is the average minimum distance, L(i)j is a similarity between a reference light source (i) and another light source (j) and m is a number of types of light sources, and being obtained based on differences between respective sensor signals of said reference light source (i) and respective sensor signals of said another light source (j). - View Dependent Claims (2)
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3. A light source type discriminating method for discriminating a light source type of a photographic light source, comprising the steps of:
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providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors; arranging a fourth sensor having a spectral sensitivity that does not overlap said spectral sensitivities corresponding to said three primary colors, said first to fourth sensors constituting an image pickup system; and discriminating said light source type of said photographic light source by using information obtained by said first to fourth sensors, wherein; said first to third sensors for said three primary colors are respectively a red (R) sensor, a green (G) sensor, and a blue (B) sensor; and said fourth sensor is a sensor whose absorption peak exists between respective absorption peaks of said G sensor and said B sensor and in a region of from 500 nm to 520 nm.
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4. A light source type discriminating method for discriminating a light source type of a photographic light source, comprising the steps of:
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providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors; arranging a fourth sensor having a spectral sensitivity that does not overlap said spectral sensitivities corresponding to said three primary colors, said first to fourth sensors constituting an image pickup system; and discriminating said light source type of said photographic light source by using information obtained by said first to fourth sensors, wherein said discriminating step comprises; obtaining a second reference value through one of summation and integration of products of spectral energy distributions of light sources whose color temperatures are each based on known black body radiation, spectral energy distributions of fluorescent lamps whose spectral energy distributions are prescribed, a spectral sensitivity distribution of a photometer system, and a spectral reflectance distribution expressed by a linear combination of predetermined output signal functions of said first to fourth sensors; measuring as a signal at least a part of reflection light from one of a light source whose color temperature is based on the known black body radiation and a fluorescent lamp whose type is to be discriminated, by using each of said first to fourth sensors; obtaining a spectral reflectance distribution that minimizes a difference between said second reference value and a measurement value obtained by each of said first to fourth sensors, for each light source whose color temperature is based on said known black body radiation and for each fluorescent lamp; obtaining as a first evaluation value a sum of abnormal components of the thus obtained spectral reflectance distribution whose maximum values exceed 1.0; and setting, as a result of light source type discrimination, one of a light source whose color temperature is based on said known black body radiation and a fluorescent lamp type corresponding to a minimum value of said first evaluation value.
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5. An image forming method for reading image data of an input image with an image pickup system and performing predetermined correction on the read image data, comprising the steps of;
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providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors and arranging a fourth sensor having a spectral sensitivity that does not overlap the spectral sensitivities corresponding to the three primary colors, said first to fourth sensors constituting said image pickup system; discriminating a light source type by using information obtained by said first to fourth sensors; converting a sensor output obtained with the thus discriminated light source type, by using a color conversion method defined by said sensor output obtained with said discriminated light source type and a sensor output obtained with a desired light source type, so that a sensor output value obtained with said desired light source type is obtained, and obtaining image data of said input image read by said image pickup system using the thus obtained sensor output value;
wherein;said first to third sensors for said three primary colors are respectively a red (R) sensor, a green (G) sensor, and a blue (B) sensor; and
when said fourth sensor is assumed to be a sensor X, said fourth sensor X is a sensor whose absorption peak exists between respective absorption peaks of said G sensor and said B sensor and in a region of from 500 nm to 520 nm.
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6. An image forming method for reading image data of an input image with an image pickup system and performing predetermined correction on the read image data, comprising the steps of;
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providing first to third sensors respectively having spectral sensitivities corresponding to three primary colors and arranging a fourth sensor having a spectral sensitivity that does not overlap the spectral sensitivities corresponding to the three primary colors, said first to fourth sensors constituting said image pickup system; discriminating a light source type by using information obtained by said first to fourth sensors; converting a sensor output obtained with the thus discriminated light source type, by using a color conversion method defined by said sensor output obtained with said discriminated light source type and a sensor output obtained with a desired light source type, so that a sensor output value obtained with said desired light source type is obtained, and obtaining image data of said input image read by said image pickup system using the thus obtained sensor output value;
wherein;said first to third sensors for said three primary colors are respectively a red (R) sensor, a green (G) sensor, and a blue (B) sensor; and when said fourth sensor is assumed to be a sensor X, said color conversion method comprises a step of performing correction with respect to a gray portion in said input image or a portion corresponding to the gray portion such that a sensor output EijZE (i;
pixel position, j;
R, G, B, X) corresponding to an estimated light source type becomes a sensor output EijZ0 corresponding to a reference light source. - View Dependent Claims (7, 8, 9)
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10. A light source energy distribution estimating method comprising the steps of;
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obtaining spectral energy distributions of light sources that are each expressed by a linear combination of a plurality of predetermined functions, a spectral sensitivity of a photometer system, and a third reference value determined by one of summation and integration of products of spectral reflectance distributions that are each expressed by a linear combination of a plurality of predetermined functions; measuring as a signal at least a part of reflection light from a light source whose spectral energy distribution is to be estimated; obtaining a spectral reflectance distribution minimizing a difference between said third reference value and a measurement value obtained by said measuring step, for each type of light source energy distribution linear combination; obtaining a sum of abnormal components of the thus obtained spectral reflectance distribution whose maximum values exceed 1.0, as a second evaluation value; and setting a light source energy distribution linear combination corresponding to a minimum value of said second evaluation value as an energy distribution of said light source whose energy distribution is to be estimated. - View Dependent Claims (11, 12, 13)
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14. A light source energy distribution estimating apparatus comprising:
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storage means for storing spectral energy distributions of light sources that are each expressed by a linear combination of a plurality of predetermined functions, a spectral sensitivity of a photometer system, and a third reference value determined by one of summation and integration of products of spectral reflectance distributions that are each expressed by a linear combination of a plurality of predetermined functions; measuring means for measuring as a signal at least a part of reflection light from a light source whose spectral energy distribution is to be estimated; spectral reflectance distribution calculating means for calculating a spectral reflectance distribution minimizing a difference between said third reference value and a measurement value obtained through measurement with said measuring means, for each type of light source energy distribution linear combination; evaluation value calculating means for calculating a sum of abnormal components of the thus obtained spectral reflectance distribution whose maximum values exceed 1.0, as a second evaluation value; and estimating means for estimating a light source energy distribution linear combination corresponding to a minimum value of said second evaluation value calculated by said evaluation value calculating means, as an energy distribution of said light source whose energy distribution is to be estimated. - View Dependent Claims (15, 16)
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17. An exposure amount determining method comprising the step of:
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determining an exposure amount for printing an image onto a duplicating sensitive material so that gray of an image to be printed of a photographic film becomes gray under an estimated light source spectral energy distribution, based on information on said estimated light source spectral energy distribution estimated with a light source energy distribution estimating method and photometric data obtained by photometrically determining at least a part of an image which is photographed on said photographic film under given photographing conditions and whose photographic light source energy distribution is to be estimated, wherein said light source energy distribution estimating method comprises the steps of; obtaining spectral energy distributions of light sources that are each expressed by a linear combination of a plurality of predetermined functions, a spectral sensitivity of a photometer system, and a third reference value determined by one of summation and integration of products of spectral reflectance distributions that are each expressed by a linear combination of a plurality of predetermined functions; measuring as a signal at least a part of reflection light from a light source whose spectral energy distribution is to be estimated; obtaining a spectral reflectance distribution minimizing a difference between said third reference value and a measurement value obtained by said measuring step, for each type of light source energy distribution linear combination; obtaining a sum of abnormal components of the thus obtained spectral reflectance distribution whose maximum values exceed 1.0, as a second evaluation value; and setting a light source energy distribution linear combination corresponding to a minimum value of said second evaluation value as an energy distribution of said light source whose energy distribution is to be estimated.
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Specification
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Current AssigneeFujifilm Corporation (Fujifilm Holdings Corporation)
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Original AssigneeFujifilm Corporation (Fujifilm Holdings Corporation)
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InventorsTakahashi, Koji, Yamada, Makoto, Ishibashi, Hideyasu
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Primary Examiner(s)Toatley, Jr.; Gregory J.
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Assistant Examiner(s)GEISEL, KARA E
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Application NumberUS10/678,632Publication NumberTime in Patent Office1,289 DaysField of Search356/406, 396/225, 250/226US Class Current356/406CPC Class CodesG01N 21/27 using photo-electric detect...
