Adaptive feedforward control for wind turbines
Schlipf, D. ., & Cheng, P. W. (2013). Adaptive feedforward control for wind turbines. at - Automatisierungstechnik, 61, 329–338. http://doi.org/10.1524/auto.2013.0029 (Original work published 2025)
Publikationen
2013
Direct speed control using LIDAR and turbine data
Schlipf, D. ., Fleming, P. ., Kapp, S. ., Scholbrock, A. ., Haizmann, F. ., Belen, F. ., … Cheng, P. W. (2013). Direct speed control using LIDAR and turbine data. In American Control Conference (S. 2208–2213). Washington, DC, USA. http://doi.org/10.1109/acc.2013.6580163 (Original work published 2025)Exportformate
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$\ell_1$- optimal control of large wind turbines
Schuler, S. ., Schlipf, D. ., Cheng, P. W., & Allgöwer, F. . (2013). $\ell_1$- optimal control of large wind turbines. IEEE Transactions on Control Systems Technology, 21, 1079–1089. http://doi.org/10.1109/tcst.2013.2261068 (Original work published 2025)Exportformate
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Nonlinear model predictive control of floating wind turbines
Schlipf, D. ., Sandner, F. ., Raach, S. ., Matha, D. ., & Cheng, P. W. (2013). Nonlinear model predictive control of floating wind turbines. In 23rd International Ocean and Polar Engineering Conference (S. 440–447). Anchorage, AK, USA. http://doi.org/10.18419/opus-3908 (Original work published 2025)Exportformate
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2012
Model based wind vector field reconstruction from lidar data
Schlipf, D. ., Rettenmeier, A. ., Haizmann, F. ., Hofsäß, M. ., Courtney, M. ., & Cheng, P. W. (2012). Model based wind vector field reconstruction from lidar data. In German Wind Energy Conference (DEWEK). Bremen, Germany. http://doi.org/10.18419/opus-8136 (Original work published 2025)Exportformate
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Reduced nonlinear model of a spar-mounted floating wind turbine
Sandner, F. ., Schlipf, D. ., Matha, D. ., Seifried, R. ., & Cheng, P. W. (2012). Reduced nonlinear model of a spar-mounted floating wind turbine. In German Wind Energy Conference (DEWEK). Bremen, Germany. http://doi.org/10.18419/opus-4528 (Original work published 2025)Exportformate
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Determination of stationary and dynamical power curves using a nacelle-based lidar system
Würth, I. ., Rettenmeier, A. ., Schlipf, D. ., Cheng, P. W., Wächter, M. ., Rinn, P. ., & Peinke, J. . (2012). Determination of stationary and dynamical power curves using a nacelle-based lidar system. In German Wind Energy Conference (DEWEK). Bremen, Germany. http://doi.org/10.18419/opus-8137 (Original work published 2025)Exportformate
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Comparison of feedforward and model predictive control of wind turbines using LIDAR
Schlipf, D. ., Pao, L. Y., & Cheng, P. W. (2012). Comparison of feedforward and model predictive control of wind turbines using LIDAR. In 51st IEEE Conference on Decision and Control (CDC) (S. 3050–3055). Maui, HI, USA. http://doi.org/10.1109/cdc.2012.6426063 (Original work published 2025)Exportformate
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Turbulence and wind speed investigations using a nacelle-based LIDAR scanner and a MET mast
Rettenmeier, A. ., Bischoff, O. ., Schlipf, D. ., Anger, J. ., Hofsäß, M. ., Cheng, P. W., … Mann, J. . (2012). Turbulence and wind speed investigations using a nacelle-based LIDAR scanner and a MET mast. Copenhagen, Denmark. Abgerufen von https://www.slideserve.com/satya/turbulence-and-wind-speed-investigations-using-a-nacelle-based-lidar-scanner-and-a-met-mast (Original work published 2025)Exportformate
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