Claims
- 1. A toner control process, comprising:
substantially predicting an effect of reload error on a developed test patch; modulating the digital data associated with the test patch to compensate for the predicted effect of reload error on the test patch; generating the developed test patch based upon the modulated digital data; sensing the developed test patch; adjusting toner output according to the sensed data from the test patch.
- 2. The process of claim 1, wherein modulating the digital data includes modulating the color density of at least one pixel of the digital data of the test patch.
- 3. The process of claim 2, wherein the at least one pixel is a plurality of pixels.
- 4. The process of claim 2, wherein substantially predicting the effect of reload error on a developed test patch includes predicting a contribution to reload error based upon an initial color density of the at least one pixel of the digital data corresponding to the developed test patch.
- 5. The process of claim 4, wherein predicting a contribution to reload error based upon an initial color density of the at least one pixel of the digital data corresponding to the developed test patch includes
determining a general relationship between the magnitude of reload error on a developed pixel and the color density of that pixel for a printing device; receiving the color density of the at least one pixel of the digital data; using the determined relationship between magnitude of reload error on a developed pixel and the color density of that pixel to predict the contribution to reload error based upon the received color density of the at least one pixel of the digital data corresponding to the developed test patch.
- 6. The process of claim 1, wherein substantially predicting an effect of reload error for a developed test patch includes determining a contribution to reload error based upon the color densities of N previous pixels.
- 7. The method of claim 6, wherein each previous pixel is separated in the slow-scan direction by a distance corresponding to the circumference of a roll donating toner to develop the image and is located at substantially the same point in the fast-scan direction
- 8. The method of claim 6, wherein determining a contribution to reload error based upon the color densities of the N previous pixels includes
determining a general relationship between the magnitude of reload error on a pixel and the color densities of N previous pixels for a printing device; receiving the color densities of the previous N pixels printed; using the determined relationship between magnitude of reload error on a pixel and the color densities of N previous pixels to predict the contribution to reload error based upon the received color densities of the previous N pixels printed.
- 9. The process of claim 6, further comprising combining N damping factors with the color densities of the N previous pixels.
- 10. The process of claim 6, wherein the contribution to reload error based upon the color densities of the N previous pixels is determined at a pixel resolution of not more than 50 dpi.
- 11. The process of claim 1, wherein substantially predicting how reload error will affect a developed image includes determining a weight factor.
- 12. A method for improving color process control, comprising:
determining a first density factor based upon a color density of at least one pixel of a digital image of a test patch; determining a second density factor based upon at least one previously printed pixel of the digital image of the test patch, wherein the second density factor is based upon the color density of the at least one previously printed pixel; determining a weight factor corresponding to a toner color used to develop the test patch; modulating the digital image based upon the first density, second density, and weight factors; developing the test patch based upon the modulated digital image; sensing the developed test patch; adjusting toner output according to the sensed data from the test patch.
- 13. A method for improving toner control processes, comprising:
substantially predicting the average effect of reload error over an area of a developed test patch; darkening an area comprising a plurality of pixels of the digital image by the same amount to compensate for the predicted average effect of reload error; developing the modulated test patch based upon the darkened digital image; sensing the developed test patch; adjusting toner output according to the developed test patch.
- 14. The method of claim 13, wherein the area over which the effect of reload error is predicted is the entire area of the test patch.
- 15. The method of claim 13, wherein substantially predicting the average effect of reload error over an area of a developed test patch involves
determining a plurality of contributions to the effect of reload error, each contribution corresponding to one of the plurality of pixels, wherein each of the plurality of contributions includes the color densities of N previous pixels, averaging the plurality of contributions, and using the average of the plurality of contributions to predict the average effect of reload error.
- 16. The method of claim 15, wherein each previous pixel is separated in the slow-scan direction by a distance corresponding to the circumference of a roll donating toner to develop the image and is located at substantially the same point in the fast-scan direction.
- 17. The process of claim 15, wherein the N previous pixels of each of the plurality of contributions to the effect of reload error have a pixel resolution of not more than 50 dpi.
- 18. The method of claim 13, further comprising
determining an average toner mass over an area of the developed test patch based upon the sensed developed test patch, determining how much to adjust toner levels based upon the average toner mass of the sensed developed test patch.
- 19. The process of claim 13, wherein substantially predicting how reload error will affect a developed image includes determining a weight factor.
- 20. A method for improving toner control processes, comprising:
determining an average density factor based upon a color density of at least one previously printed pixel, wherein the average density factor is based on an average of the imaging history contribution to each pixel; determining a weight factor; darkening an area comprising a plurality of pixels of the digital image by the same amount to compensate for the average density factor and the weight factor; developing the modulated test patch based upon the darkened digital image; sensing the color density of the developed test patch; averaging the sensed color density of the developed test patch over the area of the test patch adjusting toner output according to the averaged sensed color density of the developed test patch.
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] Reference is made to commonly-assigned copending U.S. patent application Ser. No.______ , filed herewith, by Dalal, et al, entitled: RELOAD ERROR COMPENSATION IN COLOR PROCESS CONTROL METHODS and U.S. patent application Ser. No. ______, filed herewith, by Dalal, et al, entitled: RELOAD ERROR COMPENSATION METHOD, the disclosures of which are incorporated herein.