Inspection device controller for an inspection device of a wind power plant

The invention claimed is: 1. An inspection control device for an inspection device of a wind turbine, comprising: a turbine interface arranged for communication with a wind turbine control system of the wind turbine; and a device interface arranged for communication with the inspection device; wherein a processor generates control information for the inspection device and outputs the control information via the device interface in dependence on turbine parameters of the wind turbine received via the turbine interface; and wherein the processor outputs further control information for a flying platform with a lighting source depending on the turbine parameters received via the turbine interface; and wherein the control information enables the inspection device to perform an inspection of the wind turbine while a rotor of the wind turbine is rotating. 2. The inspection device control device according to claim 1 , wherein the turbine interface is arranged to receive turbine parameters from the wind turbine or a wind farm and the processor generates the control information depending on at least the turbine parameters. 3. The inspection device control device according to claim 1 , wherein the device interface is arranged to receive operating parameters of the inspection device, and the processor generates the control information depending on at least the operating parameters. 4. The inspection device control device according to claim 1 , wherein the inspection device control device is arranged to receive environmental data, and the processor generates the control information depending on at least the environmental data. 5. The inspection device control device according to claim 4 , wherein the device interface is arranged to receive operating parameters of the inspection device, and the processor generates the control information depending on at least the operating parameters. 6. The inspection device control device according to claim 5 , wherein the processor is arranged to output turbine parameters for the wind turbine via the turbine interface, the turbine parameters being dependent in particular on the environmental data and/or the operating parameters. 7. The inspection device control device according to claim 1 , wherein the inspection device is a flying drone, in particular a multicopter or a vertical take-off and landing aircraft with wings, or a tracker fixed or pivotably attached to the wind turbine. 8. The inspection device control device according to claim 1 , wherein the turbine parameters contain geoinformation of the wind turbine and/or wherein the operating parameters contain geoinformation of the inspection device, and wherein the processor generates the control information as a function of at least the geoinformation of the wind turbine and/or of the inspection device. 9. The inspection device control device according to claim 1 , wherein the processor is arranged to receive real-time data via the turbine interface and/or the device interface. 10. The inspection device control device according to claim 1 , wherein the control information contain in particular flight routes and/or flight times. 11. The inspection device control device according to claim 1 , wherein the control information enables the flying platform to provide illumination of the wind turbine from the lighting source during the inspection by the inspection device while the rotor of the wind turbine is rotating. 12. A method of operating an inspection apparatus control device for a wind turbine inspection apparatus, comprising: exchanging wind turbine parameters with a wind turbine control system, and exchanging first control information with the inspection device, wherein the first control information for the inspection device is generated and output, depending on the turbine parameters and/or environmental parameters, to enable the inspection device to perform an inspection of the wind turbine while a rotor of the wind turbine is rotating and/or wherein second control information for the wind turbine is generated and output depending on the inspection device parameters and/or environmental parameters, to enable the inspection device to perform an inspection of the wind turbine while the rotor of the wind turbine is rotating and wherein third control information for a flying platform with a lighting source depending on the turbine parameters is output to provide illumination of the wind turbine to enable the inspection device to perform an inspection of the wind turbine while the rotor of the wind turbine is rotating.