Some PageWide array printers use two different ink linearization tables in the printing direction (and a
transition table between them) to address the color density problem caused by the interaction between the
airflows and the vacuum. All these tables are generated assuming zero-margin between the printed image
and the leading edge of the media. Therefore, when printing with different margins or when images are
clipped, the default ink linearization tables and the transition table are not valid. To overcome this
limitation, we propose a method that dynamically recalculates the transition table so that the ink
linearization tables are applied correctly.
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INC, HP, "ALGORITHM TO DYNAMICALLY RECALCULATE THE INK LINEARIZATION TABLES IN PRINTING DIRECTION BASED ON THE POSITION OF IMAGES ON THE MEDIA", Technical Disclosure Commons, (June 15, 2020)