Method for calibrating accurate paper steps

What is claimed is: 1. A method for accurately controlling a medium displacement in an inkjet printer by determining a relation between an actuation signal and a medium displacement, the actuation signal causing a rotation of a roller by actuating a drive motor that is coupled to the roller by a slip free transmission such that the rotation speed of the drive motor is higher than the rotation speed of the roller that passes its surface movement to a medium pinched onto its surface, the method comprising the steps of: a) establishing a set of calibration actuation signals each corresponding to a nominal calibration step; b) printing a first reference mark on the medium; c) selecting a calibration actuation signal from the set of calibration actuation signals; d) actuating the drive motor to cause the roller to displace the medium over a distance of the nominal calibration step corresponding to the selected calibration actuation signal; e) printing a next reference mark besides the first reference mark in a direction perpendicular to the medium displacement direction; f) optically reading the first and the next reference mark; g) determining an achieved medium displacement step from the read reference marks; and h) repeating steps b) to g) for all available calibration actuation signals in the set of calibration actuation signals, wherein the set of calibration actuation signals comprises at least one calibration actuation signal that actuates the drive motor to make one full revolution and one calibration actuation signal that actuates the drive motor to make a rotation larger than one full revolution, but smaller than two full revolutions, and determining a relation between the calibration actuation signals and the difference between the achieved medium displacement steps and the nominal calibration steps, based on a finite series of basis functions. 2. The method according to claim 1 , wherein the set of calibration actuation signals comprises two different values, that are applied a number of times in dependence on a required accuracy. 3. The method according to claim 1 , wherein the set of calibration actuation signals comprises a number of randomly selected values, each calibration actuation signal value separately actuating the drive motor to make a rotation between one full revolution and two full revolutions. 4. The method according to claim 1 , wherein the finite series of basis functions comprise a number of circular functions with a predetermined primitive period. 5. The method according to claim 1 , wherein a number of calibration actuation signals that actuate the drive motor to make one full revolution are applied to obtain a provisional calibration table and a second number of calibration actuation signals that actuate the drive motor to make a slightly larger than one full revolution are applied to calibrate a local deformation in the roller. 6. An inkjet printer wherein a medium is transported to be printed in swaths, the inkjet printer having a control unit that is configured to execute the method of claim 1 .