Rettenmeier, A., Anger, J., Bischoff, O., Hofsäß, M., Schlipf, D., & Würth, I. (2012). Nacelle-based LIDAR systems. In Summer School in Remote Sensing for Wind Energy. Boulder, CO, USA. Abgerufen von http://breeze.colorado.edu/ftp/RSWE/Andreas_Rettenmeier.pdf (Original work published jun)
Rettenmeier, A., Bischoff, O., Schlipf, D., Anger, J., Hofsäß, M., Cheng, P. W., u. a. (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 apr)
Schlipf, D., Kapp, S., Anger, J., Bischoff, O., Hofsäß, M., Rettenmeier, A., u. a. (2011). Prospects of optimization of energy production by LIDAR assisted control of wind turbines. In European Wind Energy Association Annual Event. Brussels, Belgium. http://doi.org/10.18419/opus-3916 (Original work published mar)
Bischoff, O., Hofsäß, M., Rettenmeier, A., Schlipf, D., & Siegmeier, B. (2010). Statistical load estimation using a nacelle-based lidar system. In German Wind Energy Conference (DEWEK). Bremen, Germany. http://doi.org/10.18419/opus-8730 (Original work published nov)
Trujillo, J. J., Bischoff, O., Hofsäß, M., Rettenmeier, A., Schlipf, D., & Kühn, M. (2010). Validation of a dynamic meandering model with near wake lidar measurements. In German Wind Energy Conference (DEWEK). Bremen, Germany. Abgerufen von http://oops.uni-oldenburg.de/1834/ (Original work published nov)
Schlipf, D., Trabucchi, D., Bischoff, O., Hofsäß, M., Mann, J., Mikkelsen, T., u. a. (2010). Testing of frozen turbulence hypothesis for wind turbine applications with a scanning LIDAR system. In International Symposium for the Advancement of Boundary Layer Remote Sensing. Paris, France. http://doi.org/10.18419/opus-3915 (Original work published jun)