Method for damping rotational oscillations of a load-handling element of a lifting device

The invention claimed is: 1. A method for damping rotational oscillation about a vertical axis of a load-handling element of a lifting device via a damping controller having at least one controller parameter, wherein the load-handling element is connected to a suspension element of the lifting device by at least three holding elements, the method comprising: adjusting a length of at least one holding element between the load-handling element and the suspension element by the damping controller via at least one actuator, acting on the at least one holding element, determining at least one controller parameter by a rotational oscillation model of the load-handling element as a function of a lifting height; and adapting the at least one controller parameter to the lifting height to dampen the rotational oscillation of the load-handling element at any lifting height; exciting the load-handling element to rotationally oscillate at a certain lifting height of the load-handling element; sensing, at a same time, at least an actual angle of rotation of the load-handling element about the vertical axis and an actual actuator position; and from the sensed actual angle of rotation and the actual actuator position, identifying model parameters of the rotational oscillation model of the load-handling element at the given lifting height by an identification method. 2. The method according to claim 1 , wherein the at least one actuator is hydraulically or electrically actuated. 3. The method according to claim 1 , wherein at least four holding elements are provided between the load-handling element and the suspension element. 4. The method according to claim 1 , wherein the at least one actuator comprises at least two actuators. 5. The method according to claim 4 , wherein the at least one actuator comprises one actuator per holding element. 6. The method according to claim 1 , further comprising measuring the lifting height with a camera system arranged on the suspension element or on the load-handling element or by a lifting drive of the lifting device. 7. The method according to claim 1 , further comprising measuring the actual angle of rotation of the load-handling element with a measuring device arranged on the suspension element or on the load-handling element. 8. The method according to claim 7 , wherein the measuring device comprises a camera system or a gyro sensor. 9. The method according to claim 1 , wherein the identification method is a mathematical method. 10. The method according to claim 9 , wherein the mathematical method includes an online least-squares method. 11. The method according to claim 1 , wherein the damping controller comprises is a state controller. 12. The method according to claim 11 , wherein the state controller has five controller parameters. 13. The method according to claim 1 , wherein a desired angle of rotation (β soll ) of the load-handling element is specified and the desired angle of rotation (β soll ) of the load-handling element is attained in a specified angle range. 14. The method according to claim 13 , wherein the specified angle range is 10°≤β soll ≤+10°. 15. The method according to claim 1 , wherein the lifting device comprises a crane, the holding elements comprise cables and the load-handling element comprises a spreader. 16. A method for damping rotational oscillation about a vertical axis of a load-handling element of a lifting device by a damping controller having at least one controller parameter, wherein the load-handling element is connected to a suspension element of the lifting device by at least three holding elements, the method comprising: adjusting a length of at least one holding element between the load-handling element and the suspension element by the damping controller via at least one actuator acting on the at least one holding element, determining at least one controller parameter by a rotational oscillation model of the load-handling element as a function of a lifting height; and adapting the at least one controller parameter to the lifting height to dampen the rotational oscillation of the load-handling element at any lifting height, wherein the rotational oscillation model is a second-order differential equation having at least three model parameters. 17. The method according to claim 16 , wherein the three model parameters are a dynamic parameter, a damping parameter, and a system gain parameter. 18. A method for damping rotational oscillation about a vertical axis of a load-handling element of a lifting device by a damping controller having at least one controller parameter, wherein the load-handling element is connected to a suspension element of the lifting device by at least three holding elements he, the method comprising: adjusting a length of at least one holding element between the load-handling element and the suspension element by the damping controller via at least one actuator acting on the at least one holding element, determining at least one controller parameter by a rotational oscillation model of the load-handling element as a function of a lifting height; and adapting the at least one controller parameter to the lifting height to dampen the rotational oscillation of the load-handling element at any lifting height, wherein anti-windup protection is integrated in the damping controller, wherein actuator limits of the at least one actuator are specified to the damping controller. 19. The method according to claim 18 , wherein the actuator limits of the at least one actuator is comprise a maximum permissible actuator position, a maximum permissible actuator velocity, and a maximum permissible actuator acceleration of the actuator. 20. A method for damping rotational oscillation about a vertical axis of a load-handling element of a lifting device, wherein the load-handling element is connected to a suspension element of the lifting device by at least three holding elements, the method comprising: adjusting a length of at least one holding element between the load-handling element and the suspension element via at least one actuator acting on the at least one holding element, determining at least one parameter by a rotational oscillation model of the load-handling element as a function of a lifting height; and adapting the at least one parameter to the lifting height to dampen the rotational oscillation of the load-handling element at any lifting height; exciting the load-handling element to rotationally oscillate at a certain lifting height of the load-handling element; sensing, at a same time, at least an actual angle of rotation of the load-handling element about the vertical axis and an actual actuator position; and from the sensed actual angle of rotation and the actual actuator position, identifying model parameters of the rotational oscillation model of the load-handling element at the given lifting height by an identification method.