Multilevel halftoning module with non-uniformity compensation

What is claimed is: 1 . An image processing module for processing a digital M-level input image into a digital N-level output image, wherein M>N and N>2, a level being indicative of a colorant amount in a printing process, a first level corresponding to printing no colorant, a second level corresponding to a minimum amount of colorant and further levels corresponding to increasing amounts of colorant on a print position, the module applying N-1 thresholds for each print position for determining an output level for each image element with an input level, wherein thresholds associated with a transition between two output levels are arranged in a threshold matrix, all N-1 threshold matrices being arranged in accordance with a single basic threshold matrix arrangement, the image processing module comprising: a memory for saving the N-1 threshold matrices; an input means for selecting an input image element; a threshold selection means for determining N-1 thresholds associated with the input image element; a halftone processing means for comparing an input image element level to a number of the N-1 thresholds to determine an output image element level; and an output means for outputting an output image element, wherein the thresholds in the threshold matrices have been adjusted to compensate printed density variations except the thresholds associated with a transition between the first and the second level, which have not been adjusted in order to keep a number of colorant receiving print positions constant. 2 . The image processing module according to claim 1 , wherein all N-1 threshold matrices have an equal maximum threshold. 3 . A method for obtaining threshold matrices for multilevel halftoning, in which a digital M-level input image is processed into a digital N-level output image, wherein M>N and N>2, a level being indicative of a colorant density in a printing process, a first level corresponding to printing no colorant, a second level corresponding to a minimum amount of colorant and further levels corresponding to different amounts of colorant on a print position, wherein for each print position N-1 thresholds are applied for determining an output level for each image element with an input level, the method comprising the steps of: a) establishing a basic threshold matrix, wherein a number of thresholds are arranged, thereby ordering available print positions; b) establishing a range of thresholds, wherein a threshold is applied for a transition between two output levels ; c) determining a matrix of thresholds in the established range, in accordance with the basic threshold matrix ; d) printing a density profile across a width of a printing process ; e) adjusting a minimum of said range of thresholds to compensate a variation in said density profile except for the thresholds associated with a transition between the first and the second level in order to keep a number of colorant receiving print positions constant; f) determining an adjusted threshold matrix based upon an adjusted range of thresholds. 4 . The method for obtaining threshold matrices for multilevel halftoning according to claim 3 , wherein a maximum of said range of thresholds is equal for all N-1 threshold matrices.