Claims
- 1. A color management system comprising a first image assimilator and a first analyzer;
said first image assimilator comprising a transmissive panel configured for producing a first light beam comprising a first light image, waste light, and spatial information configured for distinguishing said first light image from said waste light; said first image assimilator further comprising separators configured for separating substantially all of said waste light from said first light image based at least in part on said spatial information, whereby a modified first light beam is produced comprising said first light image; said first analyzer positioned to receive, from said first image assimilator, said modified first light beam; and said first analyzer configured for producing a first filtered light beam comprising said first light image and having an improved contrast relative to said modified first light beam.
- 2. The color management system of claim 1, wherein said waste light comprises polarized light.
- 3. The color management system of claim 1, wherein said first light image comprises polarized light.
- 4. The color management system of claim 2, wherein at least one of said separators comprises a polarizing beamsplitter positioned to receive said first light beam.
- 5. The color management system of claim 4, wherein said polarizing beamsplitter comprises a wire grid polarizer.
- 6. The color management system of claim 1, further comprising an optical isolator positioned to receive said first filtered light beam wherein said optical isolator is configured for substantially eliminating retroreflections of said first filtered light beam.
- 7. The color management system of claim 6, wherein said first filtered light beam has an initial polarization axis;
said optical isolator configured for emitting a semi-rotated light beam comprising said first light image, said semi-rotated light beam having a polarization axis rotated approximately 45 degrees relative to said initial polarization axis; said optical isolator further positioned to receive a reflected light beam comprising a reflection of said semi-rotated light beam; said optical isolator configured for emitting an orthogonally-rotated light beam comprising said first light image, said orthogonally-rotated light beam having a polarization axis rotated approximately 90 degrees relative to said initial polarization axis.
- 8. The color management system of claim 6, wherein said optical isolator comprises an optical retarder.
- 9. The color management system of claim 6, further comprising a polarizing beamsplitter positioned to receive said orthogonally-rotated light beam.
- 10. The color management system of claim 9, wherein said polarizing beamsplitter comprises a wire grid polarizer.
- 11. The color management system of claim 1, wherein said first analyzer comprises an optical retarder.
- 12. The color management system of claim 11, wherein said modified first light beam has a first polarization orientation, and wherein said optical retarder is configured for substantially modifying said first polarization orientation so as to produce substantially linearly polarized light.
- 13. The color management system of claim 11, wherein said optical retarder exhibits an optical retardence substantially equivalent to an optical retardence of said first image assimilator.
- 14. The color management system of claim 11, wherein said first image assimilator comprises a first panel exhibiting a first optical retardence, and wherein said optical retarder is configured for substantially compensating for said first optical retardence.
- 15. The color management system of claim 11, wherein said optical retarder is configured for substantially removing light of a predetermined wavelength from said modified first light beam.
- 16. The color management system of claim 1, wherein said first analyzer is positioned to receive said modified first light beam directly from said first image assimilator.
- 17. A color management system comprising a first analyzer and a second analyzer;
said first analyzer positioned to receive, from a first image assimilator, a first light beam comprising a first light image, said first analyzer configured for producing a first filtered light beam having an improved contrast relative to said first light beam; and, said second analyzer positioned to receive, from a second image assimilator, a second light beam comprising a second light image, said second analyzer configured for producing a second filtered light beam having an improved contrast relative to said second light beam; wherein said first image assimilator comprises a transmissive panel.
- 18. The color management system of claim 17 further comprising a light combiner wherein said light combiner is positioned to receive said first filtered light beam and said second filtered light beam and said light combiner is configured for producing a combined output beam comprising a combined light image including said first light image and said second light image.
- 19. The color management system of claim 18, further comprising an optical isolator positioned to receive said combined output beam, wherein said optical isolator is configured for substantially eliminating retroreflections of said combined output beam.
- 20. The color management system of claim 19, wherein said combined output beam has an initial polarization axis;
wherein said optical isolator is configured for emitting a semi-rotated light beam comprising said combined light image, said semi-rotated light beam having a polarization axis rotated approximately 45 degrees relative to said initial polarization axis; wherein said optical isolator is further positioned to receive a reflected light beam comprising a reflection of said semi-rotated light beam; wherein said optical isolator is configured for emitting an orthogonally-rotated light beam comprising said combined light image, said orthogonally-rotated light beam having a polarization axis rotated approximately 90 degrees relative to said initial polarization axis.
- 21. The color management system of claim 19, wherein said optical isolator comprises an optical retarder.
- 22. The color management system of claim 19, further comprising a polarizing beamsplitter positioned to receive said orthogonally-rotated light beam.
- 23. The color management system of claim 22, wherein said polarizing beamsplitter comprises a wire grid polarizer.
- 24. The color management system of claim 18, wherein said light combiner comprises a dichroic beamsplitter.
- 25. The color management system of claim 18, wherein said light combiner comprises a Philips prism.
- 26. The color management system of claim 18, wherein said light combiner comprises a Plumbicon prism.
- 27. The color management system of claim 18, wherein said light combiner comprises a modified Philips prism.
- 28. The color management system of claim 18, wherein said light combiner comprises two or more channels.
- 29. The color management system of claim 18, wherein said light combiner comprises a three or more channels.
- 30. The color management system of claim 18, wherein said light combiner comprises an x-prism.
- 31. The color management system of claim 30, wherein said x-prism is substantially optimized for operation under s-s-s polarization.
- 32. The color management system of claim 30, wherein said x-prism is substantially optimized for operation under, p-p-p polarization.
- 33. The color management system of claim 30, wherein said x-prism is substantially optimized for operation under s-p-s polarization.
- 34. The color management system of claim 30, wherein said x-prism is substantially optimized for operation under, or p-s-p polarization.
- 35. The color management system of claim 34, wherein said x-prism is configured for recombining light transmissions that comprise substantially red, green and blue components.
- 36. The color management system of claim 30, wherein said x-prism comprises one or more dichroic filters.
- 37. The color management system of claim 36, wherein said x-prism comprises two or more dichroic filters.
- 38. The color management system of claim 30, wherein said x-prism further comprises a polarizing beamsplitter.
- 39. The color management system of claim 17, further comprising a first light separator positioned to receive a light input comprising a first component and a second component; wherein said light separator is configured for separating said first component from said second component and emitting said first light beam and said second light beam; wherein said first light beam comprises said first component; and wherein said second light beam comprises said second component.
- 40. The color management system of claim 39, wherein said first light separator comprises a dichroic beamsplitter.
- 41. The color management system of claim 17, wherein said first image assimilator further comprises a polarizing beamsplitter.
- 42. The color management system of claim 41, wherein said polarizing beamsplitter comprises a wire grid polarizer.
- 43. The color management system of claim 17, further comprising a first light separator positioned to receive a dual light input comprising a first component and a second component; wherein said light separator is configured for separating said first component from said second component and emitting said first light beam; and wherein said first light beam comprises said first component.
- 44. The color management system of claim 43, wherein said first light separator comprises a dichroic beamsplitter.
- 45. The color management system of claim 43, wherein said first light separator comprises a dichroic prism and an optical retarder.
- 46. The color management system of claim 43, wherein said first light separator comprises a plate dichroic beamsplitter.
- 47. The color management system of claim 46, wherein said first light separator is configured for producing a red light output.
- 48. The color management system of claim 46, wherein said first light separator is configured for producing and a cyan light output comprising green light and blue light.
- 49. The color management system of claim 43, wherein said first light separator comprises a polarizing beamsplitter.
- 50. The color management system of claim 49, wherein said polarizing beamsplitter is a wire grid polarizer.
- 51. The color management system of claim 43, further comprising:
a second light separator positioned to receive a light input prior to said first light separator; wherein said light input comprises said first component, said second component, and a third component; and wherein said second light separator is configured for separating said third component from said first component and said second component and for emitting said dual light input and a third light beam comprising said third component; and an auxiliary image assimilator positioned to receive said third light beam; wherein said auxiliary image assimilator is further configured for emitting a modified third light beam; and wherein said modified third light beam comprises spatial information superimposed on said third light beam.
- 52. The color management system of claim 51, wherein said auxiliary image assimilator is further configured for substantially transmitting said third light beam to be received by a third display panel and for receiving said modified third light beam from said third display panel before emitting said modified third light beam.
- 53. A method for facilitating color management for a projection system, the method comprising the steps of:
receiving, at a first location, a first light beam comprising first spatial information and first noise; receiving, at a second location, a second light beam comprising second spatial information and second noise; separating, at said first location, said first spatial information from said first noise; separating, at said second location, said second spatial information from said second noise; emitting, from said first location, a first filtered light output comprising said first spatial information, whereby said first filtered light output has an improved contrast relative to said first light beam; emitting, from said second location, a second filtered light output comprising said second spatial information, whereby said second filtered light output has an improved contrast relative to said second light beam; combining, at a third location, said first filtered light output and said second filtered light output to produce a combined light output; receiving, at a fourth location, said combined light output and a reflection of said combined light output; and removing said reflection from said combined light output.
- 54. A color management system comprising three or more image assimilators, three or more analyzers, a light beam combiner, and an optical isolator;
wherein each said image assimilator comprises a transmissive panel configured for producing a light beam comprising a light image, waste light, and spatial information configured for distinguishing said light image from said waste light; wherein each said image assimilator further comprises a separator configured to separate substantially all of said waste light from said light image based at least in part on said spatial information, whereby, in each image assimilator, a modified light beam is produced comprising said light image; wherein each of said analyzers is positioned to receive, from an image assimilator, a modified light beam and is configured for producing a filtered light beam comprising said light image and having an improved contrast relative to said modified light beam; wherein said light beam combiner is positioned to receive said filtered light beams and is configured for producing a combined output beam comprising a combined light image including said light images; and wherein said optical isolator is positioned to receive said combined output beam and is configured for substantially eliminating retroreflections of said combined output beam.
CROSS REFERENCE TO RELATED APPLICATION
[0001] This application claims benefit of priority from U.S. Provisional Patent Application Serial No. 60/378,879 filed May 8, 2002, which is hereby incorporated by reference. This application is also a continuation-in-part of, and claims benefit of priority from, U.S. Nonprovisional patent application Ser. No. 10/310,383, filed Dec. 5, 2002, which is also a continuation-in-part of, and claims benefit of priority from U.S. Nonprovisional patent application Ser. No. 10/213,505, filed Aug. 6, 2002, which claims benefit of priority from U.S. Provisional Patent Application Serial No. 60/310,077 filed Aug. 6, 2001, all of which are hereby incorporated by reference.
Provisional Applications (2)
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Number |
Date |
Country |
|
60378879 |
May 2002 |
US |
|
60310077 |
Aug 2001 |
US |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
10310383 |
Dec 2002 |
US |
Child |
10431890 |
May 2003 |
US |
Parent |
10213505 |
Aug 2002 |
US |
Child |
10431890 |
May 2003 |
US |