Method and apparatus for controlling a coating head, and a coating head

The invention claimed is: 1. A method for controlling a coating head configured to exert a nip pressure profile to a fibrous web to be coated while the fibrous web is supported by a backing roll and advancing in a machine direction, comprising the steps of: reading an output signal of a sensor which is integrated within the backing roll and which extends in a cross direction perpendicular to the machine direction, thereby producing a measured indication of the nip pressure profile of the coating head in the cross direction; deriving a plurality of actuator control values at least partly from the measured indication of the nip pressure profile; delivering the actuator control values as commands to a plurality of actuators, the commands causing the actuators to press indirectly on a coating blade through a profiler bar, wherein the pressing of the actuators affects the measured indication of the nip pressure profile, and wherein the delivered commands act to control an amount of a coating substance applied on the fibrous web; measuring the amount of coating on the fibrous web downstream from the coating head in a direction of movement of the fibrous web determining, from the measured amount of coating on the fibrous web any deviation from a desired amount of coating and determining any required deviation of the nip pressure profile needed to achieve the desired amount of coating on the fibrous web; and calculating and delivering new actuator values to the plurality of actuators to effect the required deviation of the nip pressure profile. 2. The method of claim 1 , wherein the plurality of actuators are operated cyclically in phase with a rotation of the backing roll around a longitudinal rotation axis. 3. The method of claim 1 , wherein the actuator control values are digital values and the actuators are digital hydraulic actuators. 4. The method of claim 1 , wherein the amount of coating on the fibrous web is measured by a scanning measurement of dry weight across the fibrous web, or a tension measurement on a surface of a roll in a reel. 5. The method of claim 1 , wherein the nip pressure profile is used to control amount of coating on the fibrous web to counteract barring oscillations in a downstream calender. 6. The method of claim 1 , wherein the step of deriving said plurality of actuator control values is executed without feedback from any detected current position of individual actuators. 7. An arrangement for controlling a coating head configured to exert a nip pressure profile to a fibrous web to be coated while the fibrous web is supported by a backing roll, wherein the arrangement comprises: a sensor integrated within the backing roll; a plurality of actuators configured to engage the fibrous web with the backing roll to apply at least a part of the nip pressure; a reading system configured to read an output signal of the sensor and to produce a measured indication of the nip pressure; and a control unit configured to derive a plurality of actuator control values at least partly from the measured indication of the nip pressure, and to deliver the actuator control values as commands to the plurality of actuators arranged to press indirectly on a coating blade through a profiler bar, thereby controlling an amount of a coating substance applied on the fibrous web in the coating head, wherein the control unit is configured to receive from a measurement device an indication of an amount of coating on the fibrous web downstream from the coating head in a direction of movement of the fibrous web, wherein the control unit is configured to determine, from the indication of the amount of coating, any deviation from a desired amount of coating and to determine any required deviation of the nip pressure profile needed to achieve the desired amount of coating on the fibrous web, and wherein the control unit is configured to calculate and deliver new actuator values to the plurality of actuators to effect the required deviation of nip pressure profile to achieve the desired amount of coating on the fibrous web. 8. The arrangement of claim 7 , wherein the actuators are digital hydraulic actuators. 9. The arrangement of claim 7 wherein the nip pressure profile is used to control the amount of coating on the fibrous web to counteract barring oscillations in a downstream calender. 10. A method for controlling the coating of a fiber web, comprising the steps of: applying a coating to a fiber web supported by a backing roll as the fiber web travels in a machine direction, the applied coating defining a thickness; passing the coating and the fiber web through a cross direction coating metering nip, the cross direction being perpendicular to the machine direction; controlling the pressure in the metering nip so as to control the thickness of the applied coating on the fiber web in the cross direction and the machine direction, wherein the step of controlling the pressure in the metering nip is accomplished with a multiplicity of digital hydraulic actuators impinging on a doctor blade, a profiler bar engaging a doctor blade, or a rod which is pressed toward the fibrous web; creating a distribution of nip pressure along a linear region of the fibrous web that is passing through the metering nip; measuring the pressure in the nip in the cross direction and a circumferential direction with pressure sensors integrated within the backing roll; reading an output signal from the pressure sensors and producing a measured indication of the nip pressure profile of the coating head in the cross direction; deriving a plurality of actuator control values at least partly from the measured indication of the nip pressure; driving each of the multiplicity of digital hydraulic actuators with a plurality of digital valves; and delivering the actuator control values as commands to the plurality of digital valves of each of the digital hydraulic actuators. 11. The method of claim 10 , further comprising the steps of: detecting cyclic variations in the metering nip pressure by repeatedly reading and signal processing the metering nip pressure to obtain the cyclic variations in the metering nip pressure actuators; and deriving actuator control values for the actuators that create a cyclic change in the created nip pressure that has the same frequency and amplitude as the detected cyclic variation but with a phase shift of pi radians. 12. The method of claim 10 further comprising the steps of: measuring an applied coating thickness to the fiber web downstream of the metering nip; and deriving actuator control values at least partly from the coating thickness. 13. The method of claim 12 , wherein the amount of coating on the fibrous web is measured by a scanning measurement of dry weight across the fibrous web or a tension measurement on a surface of a roll in a reel. 14. The method of claim 10 , further comprising the steps of: obtaining frequency and phase information with respect to barring in a downstream calender; and deriving actuator control values at least partly from said frequency and phase information to counteract the barring in the downstream calender. 15. The method of claim 10 , further comprising the steps of: detecting cyclic variations in the metering nip pressure by repeatedly reading and signal processing the metering nip pressure to obtain the cyclic variations in the metering nip pressure actuators; measuring an applied coating thickness to the fiber web downstream of the metering nip; and obtaining frequency and phase information with respect to barring in a downstream calender, wherein the p