Per Egedal
68Patents
9h-index
60Co-inventors
77Inventor score
Filing activity: Jan 3, 2007 → Mar 16, 2020
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US8105029B2 | Method and apparatus for prediction-based wind turbine control | Emerging Cross-Sectional Technologies | 58 | Active |
| US8511182B2 | Determining an accumulated load of a wind turbine in angular sectors | Emerging Cross-Sectional Technologies | 15 | Active |
| US8033788B2 | Method for determining fatigue load of a wind turbine and for fatigue load control, and wind turbines therefor | Emerging Cross-Sectional Technologies | 13 | Active |
| US8092174B2 | Wind turbine and method for determining at least one rotation parameter of a wind turbine rotor | Mechanical Engineering; Lighting; Heating | 13 | Active |
| US9194369B2 | Control of a wind turbine, rotor blade and wind turbine | Emerging Cross-Sectional Technologies | 11 | Active |
| US8044529B2 | Method of damping tower vibrations of a wind turbine and control system for wind turbines | Emerging Cross-Sectional Technologies | 11 | Active |
| US8587140B2 | Estimating an achievable power production of a wind turbine by means of a neural network | Emerging Cross-Sectional Technologies | 11 | Active |
| US8162608B2 | Wind turbine, yaw system controller and yaw system for a wind turbine and method of reducing the loads acting on such a yaw system | Emerging Cross-Sectional Technologies | 10 | Active |
| US8039981B2 | Monitoring of blade frequencies of a wind turbine | Mechanical Engineering; Lighting; Heating | 10 | Active |
| US9133828B2 | Method and system for determining a mass change at a rotating blade of a wind turbine | Emerging Cross-Sectional Technologies | 8 | Active |
| US8044670B2 | Apparatus and method for determining a resonant frequency of a wind turbine tower | Emerging Cross-Sectional Technologies | 8 | Active |
| US9790921B2 | Method and system for adjusting a power parameter of a wind turbine | Emerging Cross-Sectional Technologies | 7 | Active |
| US8155920B2 | Method for the determination of a nacelle-inclination | Emerging Cross-Sectional Technologies | 7 | Active |
| US8779617B2 | Method for reducing vibrations of a wind turbine and control system for reducing vibrations | Emerging Cross-Sectional Technologies | 6 | Active |
| US8269361B2 | Adaptive adjustment of the blade pitch angle of a wind turbine | Emerging Cross-Sectional Technologies | 6 | Active |
| US9166509B2 | Method for operating a wind farm, wind farm controller and wind farm | Emerging Cross-Sectional Technologies | 6 | Active |
| US8633607B2 | Method, park controller and program element for controlling a wind farm | Emerging Cross-Sectional Technologies | 5 | Active |
| US9509141B2 | Black start of wind turbine devices | Emerging Cross-Sectional Technologies | 5 | Active |
| US10570881B2 | Controlling rotational speed by changing blade profile | Emerging Cross-Sectional Technologies | 5 | Active |
| US9541062B2 | Method of operating a wind park | Emerging Cross-Sectional Technologies | 5 | Active |
| US9261080B2 | Method for reducing vibrations of a wind turbine and control system for reducing vibrations | Emerging Cross-Sectional Technologies | 5 | Active |
| US8511988B2 | Monitoring of blade frequencies of a wind turbine | Emerging Cross-Sectional Technologies | 5 | Active |
| US8154139B2 | Method for controlling wind turbines, and devices therefore | Emerging Cross-Sectional Technologies | 4 | Active |
| US7967564B1 | Blade deflection measurement with magnetostrictive sensor | Emerging Cross-Sectional Technologies | 4 | Active |
| US8167556B2 | Method and apparatus for damping tower oscillation in a wind turbine | Emerging Cross-Sectional Technologies | 4 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.