Apparatus and method for control or monitoring of a printing system

What is claimed is: 1. A method of operating a printing system having a moving intermediate transfer member that is periodically engaged to and disengaged from a rotating impression cylinder such that during periods of engagement ink images are transferred from a surface of the moving intermediate transfer member to a substrate located between the impression cylinder and the intermediate transfer member, the method comprising: a. during periods of engagement, moving the intermediate transfer member with the same surface velocity as the rotating impression cylinder; and b. during periods of disengagement, increasing or decreasing a surface velocity of the moving intermediate transfer member, or part thereof, so as to (i) prevent a pre-determined section of the intermediate transfer member from being aligned with the impression cylinder during periods of engagement and/or (ii) improve a synchronization between a pre-determined section of the intermediate transfer member and a pre-determined location of the impression cylinder. 2. The method of claim 1 , wherein the pre-determined section of the intermediate transfer member is a blanket seam and/or the pre-determined section of the impression cylinder is a gap in the impression cylinder accommodating a substrate gripper. 3. The method of claim 1 , wherein (i) the intermediate transfer member comprises a flexible belt mounted over a plurality of rollers; (ii) at least one of the rollers is a driver roller; and (iii) the acceleration or deceleration of the intermediate transfer member is performed by increasing or decreasing a rotational speed of one or more of the driver rollers during the periods of disengagement. 4. The method of claim 1 , wherein a surface velocity of only a portion of the intermediate transfer member is increased or decreased during periods of disengagement. 5. The method of claim 4 , wherein: i. the intermediate transfer member comprises a flexible belt; and ii. the printing system includes upstream and downstream powered dancers arranged upstream and downstream of a nip between the belt and the impression cylinder; iii. during the periods of disengagement, movement of the upstream and downstream dancers locally accelerates and subsequently decelerates only a portion of the intermediate transfer member in the nip-including region that is downstream of the upstream dancer and upstream of the downstream dancer, thereby accelerating and decelerating the pre-predetermined section of the intermediate transfer member. 6. The method of claim 1 , wherein a surface velocity of an entirety of the intermediate transfer member is increased or decreased during periods of disengagement. 7. The method of claim 1 , further comprising monitoring a phase difference between a (i) locator-point affixed to the moving intermediate transfer member; and (ii) a phase of the rotating impression cylinder, and wherein the increasing or decreasing of the surface velocity of the intermediate transfer member during periods of disengagement is carried out in response to the results of the phase difference monitoring. 8. The method of claim 7 , wherein the locator-point corresponds to a location of a marker on the intermediate transfer member or to a lateral formation thereof. 9. The method of claim 1 , wherein (i) the intermediate transfer member comprises a flexible belt; (ii) the method further comprises monitoring a fluctuating length of the flexible belt; and (iii) the increasing or decreasing of the velocity of the intermediate transfer member during periods of disengagement is carried out in response to the results of the length monitoring. 10. The method of claim 1 , wherein the rotating impression cylinder is independently driven from the moving intermediate transfer member. 11. A printing system comprising: a. an intermediate transfer member; b. an image forming station configured to form ink images upon a surface of the intermediate transfer member while the intermediate transfer member is in motion; c. a rotating impression cylinder configured to be periodically engaged to and disengaged from the rotating intermediate transfer member such that during periods of engagement the ink images are transferred from the surface of the rotating intermediate transfer member to a substrate located between the impression cylinder and the intermediate transfer member; and d. a controller configured to regulate the motion of the intermediate transfer member such that: i. during periods of engagement, the intermediate transfer member moves with the same surface velocity as the rotating impression cylinder; and ii. during periods of disengagement, the surface velocity of the intermediate transfer member, or part thereof, is increased or decreased so as to: A. prevent a pre-determined section of the intermediate transfer member from being aligned with the impression cylinder during periods of engagement; and/or B. improve a synchronization between a pre-determined section of the intermediate transfer member and a pre-determined location of the impression cylinder. 12. The printing system of claim 11 , wherein the pre-determined section of the intermediate transfer member is a blanket seam and/or the pre-determined section of the impression cylinder is a gap in the impression cylinder accommodating a substrate gripper. 13. The printing system of claim 11 , wherein (i) the intermediate transfer member comprises a flexible belt mounted over a plurality of rollers; (ii) at least one of the rollers is a driver roller; and (iii) the controller is configured to accelerate or decelerate the intermediate transfer member by increasing or decreasing a rotational speed of one or more of the driver rollers during the periods of disengagement. 14. The printing system of claim 11 , wherein the controller is configured to increase or decrease the surface velocity of only a portion of the intermediate transfer member during periods of disengagement. 15. The printing system of claim 14 , wherein: i. the intermediate transfer member comprises a flexible belt mounted over a plurality of rollers; ii. the printing system further comprises upstream and downstream powered dancers arranged upstream and downstream of a nip between the belt and the impression cylinder; and iii. the controller is associated with the dancers such that during the periods of disengagement, the upstream and downstream dancers are moved to locally accelerate and subsequently decelerate a portion of the belt including the pre-predetermined section. 16. The printing system of claim 11 , wherein the controller is configured to increase or decrease the surface velocity of the entire intermediate transfer member during periods of disengagement. 17. The printing system of claim 11 , further comprising electronic circuitry configured to monitor a phase difference between (i) a moving locator-point affixed to the moving intermediate transfer member; and (ii) a phase of the rotating impression cylinder, and wherein the controller increases or decreases the surface velocity of the intermediate transfer member during periods of disengagement in response to the results of the phase difference monitoring. 18. The printing system of claim 17 , wherein the locator-point corresponds to a location of a marker on the intermediate transfer member or to a lateral formation thereof. 19. The printing system of claim 11 , wherein (i) the intermediate transfer member is a flexible belt; (ii) the system further comprises electronic circuitry configured to monitor a fluctu