Method for milling off traffic areas with a milling drum, as well as milling machine for carrying out the method for milling off traffic areas

The invention claimed is: 1. A method for milling off a traffic area with a height-adjustable milling drum of a milling machine, the method comprising: (a) obtaining and storing target profile data (x, y, Ft x,y ) of a desired target profile of a surface of the traffic area in target condition, wherein target values (Ft x,y ) for a locally desired milling depth are assigned to position data (x,y) in a stationary coordinate system independent of the milling machine; (b) during a first milling operation, determining a current x,y position of the milling drum in the coordinate system; (c) during the first milling operation, detecting a current milling depth of the milling drum; (d) during the first milling operation, controlling the milling depth of the milling drum and partially milling the traffic area such that a desired milling amount is still outstanding in the traffic area; (e) updating the target profile data in the current x,y position of the milling drum by the current milling depth of the milling drum, the updated target profile data including an updated target value for the locally desired milling depth; (f) storing the updated target profile data; (g) during a second milling operation, determining a current x,y position of the milling drum in the coordinate system; (h) during the second milling operation, detecting a current milling depth of the milling drum; and (i) during the second milling operation, controlling the milling depth of the milling drum as a function of the updated target value for the locally desired milling depth assigned to the current x,y position of the milling drum and as a function of the current milling depth. 2. The method of claim 1 , wherein: the first milling operation and the second milling operation are performed by the same milling machine. 3. The method of claim 1 , wherein: the first milling operation and the second milling operation are performed by first and second milling machines, respectively. 4. The method of claim 3 , wherein: the second milling machine is in possession of the updated target profile data. 5. The method of claim 1 , wherein: in step (i) the milling depth is controlled separately at each face end of the milling drum with regard to the respective current x,y position of each face end. 6. The method of claim 1 , wherein: in step (e) the updated target profile data takes into account a milling width of the milling drum and a three-dimensional alignment of the milling drum in the coordinate system, wherein updated target values are assigned to each x,y position of the milling drum at each face end of the milling drum. 7. The method of claim 6 , wherein: in step (e) interpolated updated target values are assigned to positions of the milling drum between the face ends. 8. The method of claim 1 , wherein: in step (a) the target profile data is configured such that the surface of the traffic area is divided into triangular or rectangular fields defined by nodes at the corners of the fields. 9. The method of claim 8 , wherein: in step (e) the updating of the target profile data includes assigning an updated target value for the locally desired milling depth to nodes passed over by the milling drum. 10. The method of claim 1 , wherein: in step (a) an absolute coordinate system is used for the x, y positions of the target profile data. 11. A method for milling off a traffic area with a height-adjustable milling drum of a milling machine, the method comprising: (a) obtaining and storing actual profile data (x, y, z) of an actual profile of a surface of the traffic area to be worked, and obtaining and storing target profile data (x, y, z′) of a desired target profile of the surface of the traffic area in target condition, wherein measured actual profile values (z (x,y) ) or specified locally desired target profile values (z′ (x,y) ) which are specified relative to the surface of the traffic area to be worked, respectively, are assigned to position data (x,y) in a stationary coordinate system independent of the milling machine; (b) during a first milling operation, determining a current x,y position of the milling drum in the coordinate system; (c) during the first milling operation, detecting a current milling depth of the milling drum; (d) during the first milling operation, controlling the milling depth of the milling drum and partially milling the traffic area such that a desired milling amount is still outstanding in the traffic area; (e) updating the actual profile data in the current x,y position of the milling drum by the current milling depth of the milling drum; (f) storing the updated actual profile data; (g) during a second milling operation, determining a current x,y position of the milling drum in the coordinate system; (h) during the second milling operation, detecting a current milling depth of the milling drum; and (i) during the second milling operation, controlling the milling depth of the milling drum as as a function of a difference between the updated actual profile value (z (x,y) ) and the target profile value (z′ (x,y) ) assigned to the current x, y position of the milling drum and the detected current milling depth. 12. The method of claim 11 , wherein: the first milling operation and the second milling operation are performed by the same milling machine. 13. The method of claim 11 , wherein: the first milling operation and the second milling operation are performed by first and second milling machines, respectively. 14. The method of claim 13 , wherein: the second milling machine is in possession of the updated actual profile data. 15. The method of claim 11 , wherein: in step (a) the actual profile data is configured such that the surface of the traffic area is divided into fields defined by nodes at the corners of the fields, wherein an x,y position is assigned to each field or each node. 16. The method of claim 11 , wherein: in step (a) the target profile data is configured such that the surface of the traffic area is divided into fields defined by nodes at the corners of the fields, wherein an x,y position is assigned to each field or each node. 17. The method of claim 11 , wherein: in step (i) the milling depth is controlled separately at each face end of the milling drum with regard to the respective current x,y position of each face end. 18. The method of claim 11 , wherein: in step (e) the updated actual profile data takes into account a milling width of the milling drum and a three-dimensional alignment of the milling drum in the coordinate system, wherein updated actual profile values are assigned to each x,y position of the milling drum at each face end of the milling drum. 19. The method of claim 18 , wherein: in step (e) interpolated updated actual profile values are assigned to positions of the milling drum between the face ends. 20. The method of claim 11 , wherein: in step (a) the actual profile data is configured such that the surface of the traffic area is divided into triangular or rectangular fields defined by nodes at the corners of the fields; and in step (e) the updating of the actual profile data includes assigning an updated actual profile value to nodes passed over by the milling drum.