IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0630093
(2009-12-03)
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등록번호 |
US-8379267
(2013-02-19)
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발명자
/ 주소 |
- Mestha, Lalit Keshav
- Gil, Alvaro Enrique
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출원인 / 주소 |
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인용정보 |
피인용 횟수 :
8 인용 특허 :
6 |
초록
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What is disclosed is a novel system and method for retrieving a gamut mapping for a color device. A ray-based model is derived from a system estimation of either a seed profile or a seed device. The model is hard coded inside a run-time ICC profile creation algorithm. The runtime profile generation
What is disclosed is a novel system and method for retrieving a gamut mapping for a color device. A ray-based model is derived from a system estimation of either a seed profile or a seed device. The model is hard coded inside a run-time ICC profile creation algorithm. The runtime profile generation code can be optimized for a variety of gamut mapping scenarios. The generated profile is provided to an imaging system wherein out-of-gamut colors are mapped to the color gamut of the host device. The present method provides an accurate way to reproduce colors of images by retrieving the gamut mapping from profiles or from the color device that use destination profiles for rendering images.
대표청구항
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1. A computer implemented method for retrieving a gamut mapping, the method comprising: sampling a plurality of color points along axes of a color space over a number of nodes defined by a destination profile LUT of a host device;performing a color transformation on said sampled color points to obta
1. A computer implemented method for retrieving a gamut mapping, the method comprising: sampling a plurality of color points along axes of a color space over a number of nodes defined by a destination profile LUT of a host device;performing a color transformation on said sampled color points to obtain input L*a*b* values;performing a system estimation on any of: a seed device and a seed profile, wherein a gamut mapping is incorporated, said system estimation using said input L*a*b* values to produce corresponding output L*a*b* values, said input L*a*b* values and said corresponding output L*a*b* values comprising input-output L*a*b* pairs;generating, for each of said input-output L*a*b* pairs, a ray having said input L*a*b* value as a start point, and said corresponding output L*a*b* value as an end point, each of said rays comprising a ray-based color model for each of said input-output L*a*b* pairs; andmapping out-of-gamut colors to an intersection of a boundary surface of a gamut of said host device using said ray-based models. 2. The method of claim 1, wherein said seed profile comprises any of: a historical color profile, and an ICC profile, and wherein said seed device comprises any of: a reference print engine, and a proofing device. 3. The method of claim 1, further comprises converting said input L*a*b* values to device-specific color values. 4. The method of claim 3, wherein, in response to said system estimation being performed on a seed profile, said system estimation further comprising processing said device-specific color values through a printer model contained in said seed profile to produce said corresponding output L*a*b* values. 5. The method of claim 3, wherein, in response to said system estimation being performed on said seed device, said system estimation further comprising: printing test patches of said device-specific color values;measuring at least one reflectance value from each of said printed test patches; andgenerating said corresponding output L*a*b* values from said measured reflectances. 6. The method of claim 1, wherein mapping out-of-gamut colors to said boundary surface of said color gamut comprises determining, for each out-of-gamut color, whether said end point of said ray is outside said boundary surface of said color gamut. 7. The method of claim 6, wherein, in response to said end point of said ray being outside said boundary surface, further comprising using said ray-based color model to extend said ray along a same slope between said start point and said end point to a point wherein said ray intersects said surface boundary of said gamut. 8. The method of claim 1, further comprising creating a runtime profile using said ray-based color models. 9. The method of claim 8, wherein said runtime profile creation comprises performing control-based iterations with said end point of said ray as a target color on any of: said host device, and a model of said host device, to map said end point to said intersection of said surface boundary. 10. A system for retrieving a gamut mapping, said system comprising: a memory;a storage medium for storing data; anda processor in communication with said storage medium and said memory, said processor executing machine readable instructions for performing the method of: sampling a plurality of color points along axes of a color space over a number of nodes defined by a destination profile LUT of a host device;performing a color transformation on said sampled color points to obtain input L*a*b* values;performing a system estimation on any of: a seed device and a seed profile, wherein a gamut mapping is incorporated;performing a system estimation on any of a seed device and a seed profile wherein a gamut mapping is incorporated, said system estimation using said input L*a*b* values to produce corresponding output L*a*b* values, said input L*a*b* values and said corresponding output L*a*b* values comprising input-output L*a*b* pairs;generating, for each of said input-output L*a*b* pairs, a ray having said input L*a*b* value as a start point, and said corresponding output L*a*b* value as an end point, each of said rays comprising a ray-based color model for each of said input-output L*a*b* pairs; andcreating a runtime profile using said ray-based color models. 11. The system of claim 10, wherein said seed profile comprises any of: a historical color profile, and an ICC profile, a look up table representing the inverse and a look up table representing the forward printer model, and wherein said seed device comprises any of: a reference print engine, and a proofing device. 12. The system of claim 10, further comprises converting said input L*a*b* values to device-specific color values. 13. The system of claim 12, wherein, in response to said system estimation being performed on a seed profile, said system estimation further comprising processing said device-specific color values through a printer model contained in said seed profile to produce said corresponding output L*a*b* values. 14. The system of claim 12, wherein, in response to said system estimation being performed on said seed device, said system estimation further comprising: printing test patches of said device-specific color values;measuring at least one reflectance value from each of said printed test patches; andgenerating said corresponding output L*a*b* values from said measured reflectances. 15. The system of claim 12, further comprising mapping out-of-gamut colors to an intersection of a boundary surface of a gamut of said host device using said ray-based models, wherein said mapping comprises determining, for each out-of-gamut color, whether said end point of said ray is outside said boundary surface of said color gamut. 16. The system of claim 15, wherein, in response to said end point of said ray being outside said boundary surface, further comprising using said ray-based color model to extend said ray along a same slope between said start point and said end point to a point wherein said ray intersects said surface boundary of said gamut. 17. The system of claim 10, wherein said runtime profile creation comprises performing control-based iterations with said end point of said ray as a target color on any of: said host device, and a model of said host device, to map said end point to said intersection of said surface boundary. 18. A computer implemented method for retrieving a gamut mapping, the method comprising: sampling a plurality of color points along axes of a color space over a number of nodes defined by a destination profile LUT of a host device;performing a color transformation on said sampled color points to obtain input L*a*b* values;performing a system estimation on any of: a seed device and a seed profile, wherein a gamut mapping is incorporated, said seed profile comprising any of: a historical color profile and an ICC profile, and said seed device comprising any of: a reference print engine and a proofing device, wherein said system estimation uses said input L*a*b* values to produce corresponding output L*a*b* values, said input L*a*b* values and said corresponding output L*a*b* values comprising input-output L*a*b* pairs;generating, for each of said input-output L*a*b* pairs, a ray having said input L*a*b* value as a start point, and said corresponding output L*a*b* value as an end point, each of said rays comprising a ray-based color model for each of said input-output L*a*b* pairs; andmapping out-of-gamut colors to an intersection of a boundary surface of a gamut of said host device using said ray-based models, said mapping comprising determining, for each out-of-gamut color, whether said end point of said ray is outside said boundary surface of said color gamut of said host device. 19. The method of claim 18, wherein, in response to said end point of said ray being outside said boundary surface, further comprising using said ray-based color model to extend said ray along a same slope between said start point and said end point to a point wherein said ray intersects said surface boundary of said color gamut of said host device. 20. The method of claim 18, further comprising creating a runtime profile using said ray-based color models. 21. The method of claim 20, wherein said runtime profile creation comprises performing control-based iterations with said end point of said ray as a target color on any of: said host device, and a model of said host device, to map said end point to said intersection of said surface boundary of said color gamut of said host device.
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