IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0496909
(2006-08-01)
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등록번호 |
US-8149482
(2012-04-03)
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발명자
/ 주소 |
- McElvain, Jon
- Hains, Charles Michael
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출원인 / 주소 |
|
대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
108 |
초록
▼
A system and method is provided for characterizing color separation misregistration associated with marking a substrate. The method includes providing an input image having a plurality of patches, each patch having a pattern using a first and second color; marking a substrate with a copy of the inpu
A system and method is provided for characterizing color separation misregistration associated with marking a substrate. The method includes providing an input image having a plurality of patches, each patch having a pattern using a first and second color; marking a substrate with a copy of the input image using a first and second color separation to correspond to the first and second colors, respectively; and measuring a color characteristic of markings of respective copied patches of the copied plurality of patches and generating corresponding colorimetric values. Misregistration of the first color separation markings relative to the second color separation markings is characterized based on the measured calorimetric values.
대표청구항
▼
1. A method for characterizing color separation misregistration of a printer device using color separations of a color space for marking a substrate, the method comprising: receiving by a tangible processor a colorimetric value corresponding to a colorimetric measurement of respective patches of a p
1. A method for characterizing color separation misregistration of a printer device using color separations of a color space for marking a substrate, the method comprising: receiving by a tangible processor a colorimetric value corresponding to a colorimetric measurement of respective patches of a plurality of patches included in an output image output by the printer device, each patch of the plurality of patches having markings of a first and second color separation of the color space, wherein: the markings include parallel lines including lines of the first color separation and lines of the second color separation; andthe plurality of patches includes at least one series of patches, wherein the lines of the first color separation have different incremental displacements relative to the lines of the second color separation for each respective patch of a series of patches of the at least one series of patches;fitting a single curve to the received colorimetric values associated with each of the patches of the plurality of patches;characterizing by the processor misregistration of the first color separation relative to the second color separation using the curve;determining by the processor a peak received colorimetric value for a patch series of the at least one patch series;determining by the processor a magnitude of the displacement that corresponds to the peak; anddetermining by the processor an offset between the determined displacement magnitude and an expected displacement magnitude corresponding to an expected peak colorimetric value associated with ideal color separation registration;wherein the characterizing of the misregistration is further based on the determined offset. 2. The method according to claim 1, wherein: the at least one series of patches includes at least one pair of patch series, each pair of patch series including a first and second patch series, wherein the parallel lines of the second patch series are oriented at an angle relative to the parallel lines of the first patch series, wherein the relative angle is not an integer multiple of 180 degrees; andthe characterizing of the misregistration is further based on an offset determined for the first patch series and an offset determined for the second patch series. 3. The method according to claim 2, wherein the parallel lines of the second patch series are orthogonal to the parallel lines of the first patch series. 4. A color separation misregistration characterization system, comprising: a tangible processor for receiving a colorimetric value corresponding to a colorimetric measurement of respective marked patches of plurality of marked patches included in an output image output by a printer device using color separations of a color space for marking a substrate, wherein the plurality of patches includes at least one pair of patch series, each pair of patch series including a first and second series of patches, each patch of the plurality of marked patches having markings of a first and second color separation, wherein: the markings include parallel lines including lines of the first color separation and lines of the second color separation, wherein the parallel lines of the second patch series are oriented at an angle relative to the parallel lines of the first patch series, wherein the relative angle is not an integer multiple of 180 degrees; andthe lines of the first color separation have different incremental displacements relative to the lines of the second color separation for each respective patch of a series of patches of the at least one series of patches;the processor comprising: a phase lag analysis module including a series of programmable instructions executable by the processor for:characterizing misregistration of the first color separation relative to the second color separation for both a fast and slow scan direction, wherein the fast scan direction is a direction of relative movement between a substrate and a device for transferring the color separations to the substrate, and the slow scan direction is a direction perpendicular to the fast direction, wherein the characterization of the misregistration for each of the fast and slow directions uses both the first and second patch series. 5. The system according to claim 4, wherein: the phase lag analysis module further: determines for a patch series of the at least one patch series a peak for the received colorimetric value;determines a magnitude of the displacement that corresponds to the peak; anddetermines an offset between the determined displacement magnitude and an expected displacement magnitude corresponding to an expected peak colorimetric value associated with ideal color separation registration; andthe misregistration characterization is further based on the determined offset. 6. The system according to claim 4, wherein a direction of the displacement of the lines of the first color separation relative to the lines of the second color separation is in a direction that is transverse to an orientation of the parallel lines. 7. The system according to claim 4, wherein a patch series of the at least one series of patches includes a patch in which the lines of the first and second color separations are in a line-off-line configuration relative to one another and another patch in which the lines of the first and second color separations are in a line-on-line configuration relative to one another. 8. The system according to claim 4, wherein the parallel lines of the second patch series are orthogonal to the parallel lines of the first patch series. 9. The system according to claim 8, wherein the parallel lines of the first patch series are oriented at one of 0 and 45 degrees relative to an edge of a substrate marked with the output image. 10. A method for characterizing color separation misregistration associated with marking a substrate, the method comprising: providing an input image having a plurality of patches including at least one series of patches, each patch having a pattern using a first and second color, wherein: the pattern of each patch of the input image includes a plurality of parallel lines including at least one line of the first color and at least one line of the second color; andthe lines of the first color have different incremental displacements relative to the lines of the second color for each respective patch of a series of patches of the at least one series of patches;marking a substrate with a copy of the input image using a first and second color separation to correspond to the first and second colors, respectively;measuring color characteristic of markings of respective copied patches of the copied plurality of patches and generating corresponding colorimetric values;fitting a single curve to the received colorimetric values associated with each of the patches of the plurality of patches;determining a peak of the curve;determining a magnitude of the displacement that corresponds to the peak;characterizing misregistration of the first color separation markings relative to the second color separation markings based on the measured calorimetric values and the determined displacement magnitude; anddetermining an offset between the determined displacement magnitude and an expected displacement magnitude corresponding to an expected peak colorimetric value associated with ideal color separation registration; wherein the characterizing of the misregistration is further based on the determined offset. 11. The method according to claim 10, wherein a direction of the displacement of the lines of the first color relative to the lines of the second color is in a direction that is transverse to an orientation of the parallel lines. 12. The method according to claim 10, wherein a patch series of the at least one series of patches of the input image includes a patch in which the lines of the first and second colors are in a line-off-line configuration relative to one another and another patch in which the lines of the first and second colors separations are in a line-on-line configuration relative to one another. 13. The method according to claim 10, wherein: the at least one series of patches of the input image includes at least one pair of patch series, each pair of patch series including a first and second patch series, wherein the parallel lines of the second patch series are oriented at an angle relative to the parallel lines of the first patch series; andthe characterizing of the misregistration in a single scan direction is further based on an offset determined for the first patch series and an offset determined for the second patch series. 14. The method according to claim 13, wherein the parallel lines of the second patch series are orthogonal to the parallel lines of the first patch series. 15. The method according to claim 14, wherein the parallel lines of the first patch series are oriented at one of 45 and 0 degrees relative to an edge of the substrate. 16. The method according to claim 1, wherein a patch series of the at least one series of patches of the input image includes a patch in which the lines of the first and second colors are in a line-off-line configuration relative to one another and another patch in which the lines of the first and second colors separations are in a line-on-line configuration relative to one another. 17. The system according to claim 4, wherein the lines of the patch having the line-off-line configuration are contiguous, and the substrate is not visible. 18. The method according to claim 10, wherein the lines of the patch having the line-off-line configuration are contiguous, and the substrate is not visible. 19. The method according to claim 2, where in the misregistration is characterized for both a fast and slow scan direction, wherein the fast scan direction is a direction of relative movement between a substrate and a device for transferring the color separations to the substrate, and the slow scan direction is a direction perpendicular to the fast direction, and the characterization of the misregistration for each of the fast and slow directions uses both the first and second patch series.
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