Motion compensating crane for use on an offshore vessel

The invention claimed is: 1. A method for handling of an offshore wind turbine component that is to be housed in or to be mounted on a nacelle of an offshore wind turbine, the nacelle being at a height of more than 100 meters above sea level, said method comprising the step of using a vessel having a hull on which a motion compensating crane is mounted, wherein the crane comprises: a main boom pivotally connected at an inner end thereof about a substantially horizontal boom pivot axis, said main boom having a tip end remote from said inner end; a main boom luffing assembly adapted to set an angle of the main boom within a main boom working angle range; a mobile hoist cable suspension member; and a hoist winch and a hoist cable driven by said hoist winch, the hoist cable depending from said mobile hoist cable suspension member, and wherein an object suspension device is suspended from said hoist cable, wherein the mobile hoist cable suspension member is supported by a motion compensating support device that is fitted to the tip end of the main boom, the motion compensating support device comprising one or more motor powered motion displacement actuator assemblies and a motion compensating support device controller, said method comprising the steps of: connecting the offshore wind turbine component that is to be housed in or to be mounted on the nacelle to the object suspension device; and operating the motion compensating support device to provide motion compensation in at least one direction of the object suspension device and the connected offshore wind turbine component, wherein the crane is provided with one or more nacelle position detectors that are configured and operated to sense at least one of actual position and actual motion of the nacelle or of one or more components in or on the nacelle, and wherein said one or more nacelle position detectors are linked to said motion compensating support device controller. 2. The method according to claim 1 , wherein the one or more nacelle position detectors are mounted in proximity of the tip end of the main boom and/or on the motion compensating support device. 3. The method according to claim 1 , wherein the one or more nacelle position detectors comprise one or more of: a radar detector; a laser range finding detector; and a camera. 4. The method according to claim 1 , wherein the one or more nacelle position detectors comprise a camera providing a camera image, and wherein, on the basis of image processing software run on a computer, the camera image is processed and the at least one of actual position and actual motion of the nacelle detected thereby. 5. The method according to claim 1 , wherein the vessel is operated with the hull of the vessel in floating condition subjected to sea motion. 6. The method according to claim 1 , wherein the vessel is a jacked up jack-up vessel. 7. The method according to claim 1 , wherein the motion compensating support device is configured and operated to provide motion compensation in at least two directions. 8. The method according to claim 1 , wherein the motion compensating support device is configured and operated to provide motion compensation in orthogonal X-Y directions. 9. The method according to claim 1 , wherein the offshore wind turbine component connected to the object suspension device is one of: a blade; a gearbox; a generator; and a hub. 10. A vessel for handling of an offshore wind turbine component that is to be housed in or to be mounted on a nacelle of an offshore wind turbine, the nacelle being at a height of more than 100 meters above sea level, wherein the vessel has a hull on which a motion compensating crane is mounted, wherein the crane comprises: a main boom pivotally connected at an inner end thereof about a substantially horizontal boom pivot axis, said main boom having a tip end remote from said inner end; a main boom luffing assembly adapted to set an angle of the main boom within a main boom working angle range; a mobile hoist cable suspension member; and a hoist winch and a hoist cable driven by said hoist winch, the hoist cable depending from said mobile hoist cable suspension member, and wherein an object suspension device is suspended from said hoist cable, wherein the mobile hoist cable suspension member is supported by a motion compensating support device that is fitted to the tip end of the main boom, the motion compensating support device comprising one or more motor powered motion displacement actuator assemblies and a motion compensating support device controller, wherein the motion compensating support device is configured to provide motion compensation in at least one direction of the object suspension device and of an offshore wind turbine component connected to the object suspension device, wherein the crane is provided with one or more nacelle position detectors that are configured to sense at least one of actual position and actual motion of the nacelle or of one or more components in or on the nacelle, and wherein said one or more nacelle position detectors are linked to said motion compensating support device controller. 11. The vessel according to claim 10 , wherein the one or more nacelle position detectors are mounted in proximity of the tip end of the main boom and/or on the motion compensating support device. 12. The vessel according to claim 10 , wherein the one or more nacelle position detectors comprise one or more of: a radar detector; a laser range finding detector; and a camera. 13. The vessel according to claim 10 , wherein the vessel is configured to be operated with the hull of the vessel in floating condition subjected to sea motion. 14. The vessel according to claim 10 , wherein the vessel is a jack-up vessel. 15. The vessel according to claim 10 , wherein the motion compensating support device is configured to provide motion compensation in at least two directions.