There are disclosed a system and a method for measuring reflectance of an object. The system for measuring reflectance of an object according to the present invention includes: a light source unit including a light source irradiating light to the object; a light source position adjusting unit that a
There are disclosed a system and a method for measuring reflectance of an object. The system for measuring reflectance of an object according to the present invention includes: a light source unit including a light source irradiating light to the object; a light source position adjusting unit that adjusts a position and a direction of the light source unit; a light receiving unit that acquires image data by detecting light reflected on the object; and a reflectance acquiring unit that acquires the reflectance of the object from the image data. According to the present invention, it is possible to more precisely acquire the reflectance of the object within a shorter time.
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What is claimed is: 1. A system for measuring reflectance of an object, comprising: a light source unit including a light source irradiating light to the object; a light source position adjusting unit that adjusts a position and a direction of the light source unit; a light receiving unit that acqu
What is claimed is: 1. A system for measuring reflectance of an object, comprising: a light source unit including a light source irradiating light to the object; a light source position adjusting unit that adjusts a position and a direction of the light source unit; a light receiving unit that acquires image data by detecting light reflected on the object; and a reflectance acquiring unit that acquires the reflectance of the object from the image data. 2. The system for measuring reflectance of an object according to claim 1, wherein the reflectance acquiring unit acquires the reflectance of the object from the image data by using a correlation between a previously acquired video sensor and a spectral radiation luminance meter at the position of the video sensor. 3. The system for measuring reflectance of an object according to claim 2, wherein the correlation is acquired by setting a color chart at the position of the object, acquiring the image data by detecting the light reflected on the color chart in the video sensor, acquiring a luminance value by detecting the light reflected on the color chart in the spectral radiation luminance meter, and comparing the image data with the luminance value for each of R, G, and B channels. 4. The system for measuring reflectance of an object according to claim 1, wherein the object has a spherical shape and an isotropic property. 5. The system for measuring reflectance of an object according to claim 1, wherein the light source position adjusting unit continuously moves the position of the light source unit. 6. The system for measuring reflectance of an object according to claim 5, wherein the light receiving unit acquires the image data at a predetermined interval while the position of the light source unit is continuously changed. 7. The system for measuring reflectance of an object according to claim 1, wherein the light source unit further includes a reflecting mirror provided opposite to the object from the light source, a diffuser provided at the side of the object from the light source, a first lens, an iris, and a second lens. 8. The system for measuring reflectance of an object according to claim 1, wherein the light receiving unit acquires the image data for each wavelength band by filtering the light reflected on the object for each predetermined wavelength band. 9. The system for measuring reflectance of an object according to claim 8, wherein the light receiving unit includes: a liquid crystal tunable filter that filters the light reflected on the object for each predetermined wavelength band; and a video sensor that acquires the image data by detecting the light passing through the liquid crystal tunable filter. 10. The system for measuring reflectance of an object according to claim 8, wherein the light source unit further includes a reflecting mirror provided opposite to the object from the light source, a first iris provided at the side of the object from the light source, an first lens, a diffuser, a second lens, and a second iris. 11. The system for measuring reflectance of an object according to claim 8, wherein the reflectance acquiring unit acquires the reflectance of the object from the image data by using the correlation between the previously acquired the video sensor for each wavelength band and the spectral radiation luminance meter at the position of the video sensor. 12. The system for measuring reflectance of an object according to claim 11, wherein the correlation is acquired by setting the color chart at the position of the object for each wavelength band, acquiring the image data by detecting the light reflected on the color chart in the video sensor, acquiring the luminance value by detecting the light reflected on the color chart in the spectral radiation luminance meter, and comparing the image data with the luminance value for each wavelength band. 13. A method for measuring reflectance of an object, comprising: acquiring a correlation between a video sensor and a spectral radiation luminance meter at the same position; irradiating light to the object; acquiring image data by detecting the light reflected on the object with the video sensor; and acquiring the reflectance of the object from the image data by using the correlation. 14. The method for measuring reflectance of an object according to claim 13, wherein acquiring the correlation includes: setting a color chart at the position of a light source; acquiring the image data by detecting the light reflected on the color chart in the video sensor; acquiring a luminance value by detecting the light reflected on the color chart in the spectral radiation luminance meter; and acquiring the correlation by comparing the image data with the luminance value. 15. The method for measuring reflectance of an object according to claim 14, wherein in acquiring the correlation, the correlation is acquired for each of R, G, and B channels by comparing the image data with the luminance value for each of the R, G, and B channels. 16. The method for measuring reflectance of an object according to claim 13, wherein acquiring the correlation includes: setting the color chart at the position of the light source; acquiring the image data by detecting the light reflected on the color chart in the video sensor for each predetermined wavelength band; acquiring the luminance value by detecting the light reflected on the color chart in the spectral radiation luminance meter; and acquiring the correlation by comparing the image data with the luminance value for each wavelength band. 17. The method for measuring reflectance of an object according to claim 13, wherein acquiring the correlation includes: setting a transmissive color chart at the position of the light source; acquiring the image data by detecting the light penetrating the color chart in the video sensor for each predetermined wavelength band; acquiring the luminance value by detecting the light penetrating the color chart in the spectral radiation luminance meter; and acquiring the correlation by comparing the image data with the luminance value for each wavelength band. 18. The method for measuring reflectance of an object according to claim 14, wherein in acquiring the image data, the image data is acquired for each wavelength band by filtering the light reflected on the object for each predetermined wavelength band. 19. The method for measuring reflectance of an object according to claim 13, wherein in acquiring the image data, the image data is acquired at a predetermined interval while the position of the light source irradiating the light is continuously changed.
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