Abstract: Systems and methods are provided for compensating for optical brighteners found in print media while calibrating a printer. The system is able to determine reflectance values for a print medium, to determine reflectance values for a colorant applied to the print medium, and to alter the determined reflectance values for the colorant based on the reflectance values of the print medium. The system is further able to calibrate a printer that applied the colorant to the print medium based on the altered reflectance values.

Abstract: Methods and systems herein provide for verification of a calibration of a printer utilizing a hand-held mobile device. In one embodiment, a mobile device includes a camera that captures image data of a calibration target printed by a printing system. The image data is captured in an uncontrolled environment. The mobile device further includes a processor that determines a difference between the uncontrolled environment where the image data was captured and a controlled environment, and adjusts the image data based on the difference. The mobile device then determines whether the printing system is out of calibration based on the adjusted image data.

Abstract: The systems and methods presented herein provide for the testing of calibration processing within a print controller. In one embodiment, a method provides for testing a printer calibration module. The method includes simulating an optical density response of the printer to generate a plurality of optical density curves for the printer and determining spectral reflectance values for corresponding optical density values in the optical density curves. The method also includes processing the spectral reflectance values via the printer calibration module to generate a calibration output. The method also includes analyzing the calibration output to determine accuracy of the printer calibration module.

Abstract: A method is disclosed. The method includes receiving a print job to be printed, determining if the print job is to be processed according to a formula based workflow and invoking formula based International Color Consortium (ICC) profiles to perform color transformations if the print job is determined to be processed according to the formula based workflow.

Abstract: Methods and systems herein provide for verification of a calibration of a printer utilizing a hand-held mobile device. In one embodiment, a mobile device includes a camera that captures image data of a calibration target printed by a printing system. The image data is captured in an uncontrolled environment. The mobile device further includes a processor that determines a difference between the uncontrolled environment where the image data was captured and a controlled environment, and adjusts the image data based on the difference. The mobile device then determines whether the printing system is out of calibration based on the adjusted image data.

Abstract: Systems and methods are provided for compensating for optical brighteners found in print media while calibrating a printer. The system is able to determine reflectance values for a print medium, to determine reflectance values for a colorant applied to the print medium, and to alter the determined reflectance values for the colorant based on the reflectance values of the print medium. The system is further able to calibrate a printer that applied the colorant to the print medium based on the altered reflectance values.

Abstract: A method is disclosed. The method includes receiving a print job to be printed, determining if the print job is to be processed according to a formula based workflow and invoking formula based International Color Consortium (ICC) profiles to perform color transformations if the print job is determined to be processed according to the formula based workflow.

Abstract: The systems and methods presented herein provide for the testing of calibration processing within a print controller. In one embodiment, a method provides for testing a printer calibration module. The method includes simulating an optical density response of the printer to generate a plurality of optical density curves for the printer and determining spectral reflectance values for corresponding optical density values in the optical density curves. The method also includes processing the spectral reflectance values via the printer calibration module to generate a calibration output. The method also includes analyzing the calibration output to determine accuracy of the printer calibration module.