Device, method, and program for estimating light source
First Claim
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1. A light source estimating device comprising:
- light receiving means for receiving visible light and invisible light radiated from a light source,light source estimating means for estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light,wherein the light receiving means includesvisible light receiving means having a spectral sensitivity for visible light and receiving the visible light radiated from the light source,ultraviolet light receiving means having a spectral sensitivity for ultraviolet light and receiving ultraviolet light radiated from the light source, andinfrared light receiving means having a spectral sensitivity for infrared light and receiving infrared light radiated from the light source,further comprising;
first relative intensity calculating means for calculating a relative intensity of the ultraviolet light to the visible light on the basis of the intensity of the received visible light and the intensity of the received ultraviolet light; and
second relative intensity calculating means for calculating a relative intensity of the infrared light to the visible light on the basis of the intensity of the received visible light and the intensity of the received infrared light,wherein the light source estimating means estimates the type of the light source on the basis of the relative intensity calculated by the first relative intensity calculating means and the relative intensity calculated by the second relative intensity calculating means.
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Abstract
A light source estimating device includes a light receiving section for receiving visible light and invisible light radiated from a light source, and a light source estimating section for estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light.
13 Citations
12 Claims
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1. A light source estimating device comprising:
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light receiving means for receiving visible light and invisible light radiated from a light source, light source estimating means for estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light, wherein the light receiving means includes visible light receiving means having a spectral sensitivity for visible light and receiving the visible light radiated from the light source, ultraviolet light receiving means having a spectral sensitivity for ultraviolet light and receiving ultraviolet light radiated from the light source, and infrared light receiving means having a spectral sensitivity for infrared light and receiving infrared light radiated from the light source, further comprising; first relative intensity calculating means for calculating a relative intensity of the ultraviolet light to the visible light on the basis of the intensity of the received visible light and the intensity of the received ultraviolet light; and second relative intensity calculating means for calculating a relative intensity of the infrared light to the visible light on the basis of the intensity of the received visible light and the intensity of the received infrared light, wherein the light source estimating means estimates the type of the light source on the basis of the relative intensity calculated by the first relative intensity calculating means and the relative intensity calculated by the second relative intensity calculating means.
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2. A light source estimating device comprising:
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light receiving means for receiving visible light and invisible light radiated from a light source, light source estimating means for estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light, wherein the light receiving means receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the light source estimating means estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, visible light intensity calculating means for calculating a sum of the intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light; first relative intensity calculating means for calculating a relative intensity of the invisible light to the visible light on the basis of the intensity of the visible light and the intensity of the invisible light; and second relative intensity calculating means for calculating relative intensities of the light in the plurality of wavelength ranges to the visible light on the basis of the intensity of the visible light and the intensities of the light in the plurality of wavelength ranges, wherein the light source estimating means estimates the type of the light source on the basis of the relative intensity calculated by the first relative intensity calculating means and the relative intensities calculated by the second relative intensity calculating means.
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3. A light source estimating device comprising:
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light receiving means for receiving visible light and invisible light radiated from a light source, light source estimating means for estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light, wherein the light receiving means receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the light source estimating means estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, normalizing means for calculating a sum of intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light, and normalizing the intensities of the light in the plurality of wavelength ranges and the intensity of the invisible light on the basis of the calculated intensity of the visible light, wherein the light source estimating means estimates the type of the light source on the basis of the normalized intensities of the light in the plurality of wavelength ranges and the normalized intensity of the invisible light.
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4. A light source estimating method comprising the steps of:
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controlling reception of visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light, photoelectrically converting the light, wherein the step of controlling reception includes the steps of having a spectral sensitivity for visible light and receiving the visible light radiated from the light source, having a spectral sensitivity for ultraviolet light and receiving ultraviolet light radiated from the light source, and having a spectral sensitivity for infrared light and receiving infrared light radiated from the light source, further comprising the steps of; calculating a relative intensity of the ultraviolet light to the visible light on the basis of the intensity of the received visible light and the intensity of the received ultraviolet light; and calculating a relative intensity of the infrared light to the visible light on the basis of the intensity of the received visible light and the intensity of the received infrared light, wherein the step of estimating the type of the light source estimates the type of the light source on the basis of the relative intensity calculated by the step of calculating the ultraviolet light to the visible light and the relative intensity calculated by the step of calculating a relative intensity of the infrared light to the visible light.
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5. A computer executable program comprising the steps of:
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controlling reception of visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light; photoelectrically converting the light, wherein the step of controlling reception includes the steps of having a spectral sensitivity for visible light and receiving the visible light radiated from the light source, having a spectral sensitivity for ultraviolet light and receiving ultraviolet light radiated from the light source, and having a spectral sensitivity for infrared light and receiving infrared light radiated from the light source, further comprising the steps of; calculating a relative intensity of the ultraviolet light to the visible light on the basis of the intensity of the received visible light and the intensity of the received ultraviolet light; and calculating a relative intensity of the infrared light to the visible light on the basis of the intensity of the received visible light and the intensity of the received infrared light, wherein the step of estimating the type of the light source estimates the type of the light source on the basis of the relative intensity calculated by the step of calculating the ultraviolet light to the visible light and the relative intensity calculated by the step of calculating a relative intensity of the infrared light to the visible light.
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6. A light source estimating device comprising:
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a light receiving section receiving visible light and invisible light radiated from a light source, a light source estimating section estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light, photoelectrically converting section photoelectrically converting the light, wherein the light receiving section includes visible light receiving section having a spectral sensitivity for visible light and receiving the visible light radiated from the light source, ultraviolet light receiving section having a spectral sensitivity for ultraviolet light and receiving ultraviolet light radiated from the light source, and infrared light receiving section having a spectral sensitivity for infrared light and receiving infrared light radiated from the light source, further comprising; first relative intensity calculating section for calculating a relative intensity of the ultraviolet light to the visible light on the basis of the intensity of the received visible light and the intensity of the received ultraviolet light; and second relative intensity calculating section for calculating a relative intensity of the infrared light to the visible light on the basis of the intensity of the received visible light and the intensity of the received infrared light, wherein the light source estimating section estimates the type of the light source on the basis of the relative intensity calculated by the first relative intensity calculating section and the relative intensity calculated by the second relative intensity calculating section.
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7. A light source estimating method comprising the steps of:
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receiving visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the step of receiving visible and invisible light receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the step of estimating the type of the light source estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, calculating a sum of the intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light; calculating a relative intensity of the invisible light to the visible light on the basis of the intensity of the visible light and the intensity of the invisible light; and calculating relative intensities of the light in the plurality of wavelength ranges to the visible light on the basis of the intensity of the visible light and the intensities of the light in the plurality of wavelength ranges, wherein the step for estimating the type of light source estimates the type of the light source on the basis of the relative intensity calculated by the step of calculating the relative intensity of invisible light to the visible light and the relative intensities calculated by the step of calculating the relative intensities of the light in the plurality of wavelength ranges to the visible light.
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8. A light source estimating method comprising the steps of:
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receiving visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the step of receiving visible and invisible light receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the step of estimating the type of the light source estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, calculating a sum of intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light, and normalizing the intensities of the light in the plurality of wavelength ranges and the intensity of the invisible light on the basis of the calculated intensity of the visible light, wherein the step of estimating the type of the light source estimates the type of the light source on the basis of the normalized intensities of the light in the plurality of wavelength ranges and the normalized intensity of the invisible light.
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9. A computer executable program comprising the steps of:
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receiving visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the step of receiving visible and invisible light receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the step of estimating the type of light source estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, calculating a sum of the intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light; calculating a relative intensity of the invisible light to the visible light on the basis of the intensity of the visible light and the intensity of the invisible light; and calculating relative intensities of the light in the plurality of wavelength ranges to the visible light on the basis of the intensity of the visible light and the intensities of the light in the plurality of wavelength ranges, wherein the step for estimating the type of light source estimates the type of the light source on the basis of the relative intensity calculated by the step of calculating the relative intensity of invisible light to the visible light and the relative intensities calculated by the step of calculating the relative intensities of the light in the plurality of wavelength ranges to the visible light.
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10. A computer executable program comprising the steps of:
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receiving visible light and invisible light radiated from a light source, estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the step of receiving visible and invisible light receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the step of estimating the type of the light source estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, calculating a sum of intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light, and normalizing the intensities of the light in the plurality of wavelength ranges and the intensity of the invisible light on the basis of the calculated intensity of the visible light, wherein the step of estimating the type of the light source estimates the type of the light source on the basis of the normalized intensities of the light in the plurality of wavelength ranges and the normalized intensity of the invisible light.
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11. A light source estimating device comprising:
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light receiving section receiving visible light and invisible light radiated from a light source, light source estimating section estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the light receiving section receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the light source estimating section estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, visible light intensity calculating section calculating a sum of the intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light; first relative intensity calculating section calculating a relative intensity of the invisible light to the visible light on the basis of the intensity of the visible light and the intensity of the invisible light; and second relative intensity calculating section calculating relative intensities of the light in the plurality of wavelength ranges to the visible light on the basis of the intensity of the visible light and the intensities of the light in the plurality of wavelength ranges, wherein the light source estimating section estimates the type of the light source on the basis of the relative intensity calculated by the first relative intensity calculating section and the relative intensities calculated by the second relative intensity calculating section.
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12. A light source estimating device comprising:
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light receiving section receiving visible light and invisible light radiated from a light source, light source estimating section estimating a type of the light source on the basis of an intensity of the received visible light and an intensity of the received invisible light wherein the light receiving section receives light in a plurality of wavelength ranges contained in a wavelength range of visible light, and wherein the light source estimating section estimates the type of the light source on the basis of intensities of the received light in the plurality of wavelength ranges, and the intensity of the received invisible light, normalizing section calculating a sum of intensities of the received light in the plurality of wavelength ranges as the intensity of the visible light, and normalizing the intensities of the light in the plurality of wavelength ranges and the intensity of the invisible light on the basis of the calculated intensity of the visible light, wherein the light source estimating section estimates the type of the light source on the basis of the normalized intensities of the light in the plurality of wavelength ranges and the normalized intensity of the invisible light.
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Specification
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Current AssigneeSony Corporation (Sony Group Corp.)
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Original AssigneeSony Corporation (Sony Group Corp.)
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InventorsOno, Hiroaki
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Primary Examiner(s)Pham; Hoa Q
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Application NumberUS12/046,308Publication NumberTime in Patent Office1,036 DaysField of Search356213-235, 396/225, 396/287, 396/319, 340/636, 340/638, 340/664US Class Current356/213CPC Class CodesG01J 1/04 Optical or mechanical part ...G01J 1/0477 Prisms, wedgesG01J 1/4228 arrangements with two or mo...G01J 1/429 applied to measurement of u...G01J 2001/0481 Preset integrating sphere o...G01J 2001/4266 for measuring solar lightG01J 3/02 DetailsG01J 3/0294 Multi-channel spectroscopyG01J 3/2803 using photoelectric array d...G01J 3/51 using colour filtersG01J 3/513 having fixed filter-detecto...G03B 2217/18 Signals indicating conditio...H04N 23/88 for colour balance, e.g. wh...
