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Herr Dipl.-Ing.
Martin Hofsäß
Wissenschaftlicher Mitarbeiter

Dieses Bild zeigt  Martin Hofsäß
Telefon 0049 711 685-68308
Telefax0049 711 685-68293
Raum2.37
E-Mail
Adresse
Universität Stuttgart
Institut für Flugzeugbau
Allmandring 5b
70569 Stuttgart
Deutschland

Fachgebiet:

Lidar-Messtechnik

  • Gondelbasierte Lidarmessungen
  • Bodenbasierte Lidarmessungen speziell im komplexen Gelände

Konventionelle Messtechnik im Bereich Windenergie

Publikationen:

Konferenzen und Proceedings

  • D. Schlipf, O. Bischoff, M. Hofsäß, A. Rettenmeier, J.J. Trujillo, M. Kühn, Nacelle mounted pulsed LiDAR systems, IEA Topical Expert Meeting on "Remote Wind Speed Sensing Techniques using SODAR and LIDAR", Boulder, USA, Oktober 2009
  • J.J. Trujillo, F. Castellote, O. Bischoff, M. Hofsäß, D. Schlipf, A. Rettenmeier and M. Kühn, Measurements of a multi-MW turbine near wake using lidar from the nacelle. EUROMECH 508, Madrid, Spanien, Oktober, 2009
  • A. Rettenmeier, O. Bischoff, M. Hofsäß, D. Schlipf, J.J. Trujillo, Wind Field Analysis Using A Nacelle-Based LiDAR System, EWEC, Polen, Warschau, April 2010.
  • D. Schlipf, O. Bischoff, M. Hofsäß, A. Rettenmeier, J. J. Trujillo, and M. Kühn, LiDAR and Wind Turbine Control, in Remote Sensing for Wind Energy. Risø report Risø-I-3068(EN), Risø National Laboratory for Sustainable Energy, A. Peña and C. B. Hasager, Eds. Risø National Laboratory for Sustainable Energy, Technical University of Dänemark, Roskilde, Dänemark, Mai 2010, pp. 137-146.
  • D. Schlipf, D. Trabucchi, O. Bischoff, M. Hofsäß, J. Mann, T. Mikkelsen, A. Rettenmeier, J.J. Trujillo, M. Kühn, Testing of Frozen Turbulence Hypothesis for Wind Turbine Application with a Scanning Lidar System, ISARS, Paris, Frankreich, Juni 2010.
  • J.J. Trujillo, D. Trabucchi, D. Schlipf, O. Bischoff, M. Hofsäß, A. Rettenmeier, J. Mann, T. Mikkelsen, M. Kühn, Testing of Frozen Turbulence Hypothesis for Wind Turbine Applications with a Staring LIDAR System, In General Assembly of the European Geophysical Union, Wien, Österreich, Juni, 2010.
  • D. Schlipf, O. Bischoff, M. Hofsäß, A. Rettenmeier, J.J. Trujillo, Nacelle based LIDAR for different wind turbine applications, PhD Summer School: Remote sensing for wind energy, Roskilde, Dänemark, Juni 2010.
  • A. Rettenmeier, M Hofsäß, M. Wächter, M. Kühn, J. Peinke, T. Neumann, H. Mellinghoff, Y. Käsler, S. Rahm, B. Siegmeier, J. Rauch, Final Results of the Joint Project "Development of LIDAR Wind Sensing for the German Offshore Test Site", DEWEK, Bremen, Deutschland, November 2010.
  • J. J. Trujillo, M. Kühn, O. Bischoff, M. Hofsäß, A. Rettenmeier, D. Schlipf, Validation of a Dynamic Meandering Model with Near Wake Lidar Measurements, DEWEK, Bremen, Deutschland, November 2010.
  • O. Bischoff, M. Hofsäß, A. Rettenmeier, D. Schlipf, B. Siegmeier, Statistical Load Estimation Using a Nacelle-Based Lidar System, DEWEK, Bremen, Deutschland, November 2010.
  • D. Schlipf, O. Bischoff, M. Hofsäß, A. Rettenmeier, J. J. Trujillo, and M. Kühn, "LiDAR and Wind Turbine Control", in Remote Sensing for Wind Energy. Risø report Risø-I-3184(EN), Risø National Laboratory for Sustainable Energy, A. Peña and C. B. Hasager, Eds. Risø National Laboratory for Sustainable Energy, Technical University of Denmark, Roskilde, Denmark, May 2010, pp. 139-147.
  • A. Rettenmeier, P. Klausmann, O. Bischoff, M. Hofsäß, D. Schlipf, B. Siegmeier, Determination of power curves based on wind field measurements using a nacelle-based LiDAR scanner , EWEA, Brüssel, Belgien, März 2011
  • D. Schlipf, J. Anger, S. Kapp, O. Bischoff, M. Hofsäß, A. Rettenmeier, M. Kühn, Prospects of optimizatioan of energy production by LiDAR assisted control of wind turbines, EWEA, Brüssel, Belgien, März 2011.
  • O. Bischoff, J. Anger, M. Hofsäß, A. Rettenmeier, D. Schlipf, Load estimation using Lidar data, 7th Phd Seminar on Wind Energy, Delft, Niederlande, Oktober 2011.
  • O. Bischoff, J. Anger, M. Hofsäß, A. Rettenmeier, D. Schlipf, B.Siegmeier, Vertical wind shear measured with a nacelle-based Lidar system and its impact on mechanical loads, EWEA Offshore, Amsterdam, Niederlande, November 2011.
  • A. Rettenmeier, J. Anger, O. Bischoff, M. Hofsäß, D. Schlipf, “Nacelle Wind LiDAR”, PhD Summer School: Remote sensing for wind energy, Risø-DTU, Roskilde, Denmark, June 2011
  • A. Rettenmeier, J. Anger, O. Bischoff, M. Hofsäß, D. Schlipf, „Nacelle Wind Lidar“. Risø report Risø-I-3184 (EN), Risø National Laboratory for Sustainable Energy, A. Peña and C. B. Hasager, Eds. Risø National Laboratory for Sustainable Energy, Technical University of Denmark, Roskilde, Denmark, May 2011, pp. 126-138.
  • Schlipf, D., Rettenmeier, A., Haizmann, F., Hofsäß, M., Courtney,M., and Cheng, P. W. Model based wind vector field reconstruction from lidar Data, DEWEK 2012, http://dx.doi.org/10.18419/opus-8136
  • Hofsäß, M., Schlipf, D. Model based wind vector field reconstrution from lidar data,IEA Annex 32: Wind lidar systems for wind energy deployment, Workshop 2013,Boulder, Colorado, USA
  • Hofsäß, M., Overview of the Research Project „Lidar complex” - Lidar, UAV and met mast measurements combined with CFD calculations, IEA Topical Expert Meeting No.75 in 2013
  • Bischoff, O, Hofsäß, M, Cheng, Prof. P., Wind turbine simulation in flat and complex terrain using generic wind fields, based on Lidar and sonic measurement data, European Wind energy conference, 2015
  • Hofsäß, M, Kozlowski, D, Siebers, T, Cheng, Prof. P.W, Comparison of the rotor equivalent wind speed of ground- and nacelle-based lidar, Deutsche Windenergie Konferenz (DEWEK) 2015
  • Schulz, C., Hofsäß, M., Anger, J., Rautenberg, A., Lutz, T., Cheng, W., and Bange, J. Comparison of different measurement techniques and a cfd simulation in complex terrain. In Journal of Physics: Conference Series (2016), vol. 753, IOP Publishing, p. 082017.
  • Hofsäß, M, Bischoff, O, Cheng, Prof. P.W, Comparison of the second moments between remote sensing devices in complex terrain, International Symposium for the Advancement of Boundary-Layer Remote Sensing 2016
  • Schulz, C, Hofsäß, M, Peters, B, Lutz, Th, Krämer, E., A Southern German joint research project towards a better understanding of complex terrain site, 11th EAWE PhD Seminar on Wind Energy in 2015
  • Schulz, C, Hofsäß, M, and Anger, J et al., Comparison of Different Measurement Techniques and CFD Simulation in Complex Terrain, The Science of Making Torque from Wind 2016

Journals

  • Wildmann, N., Hofsäß, M., Weimer, F., Joos, A., Bange, J. MASC - a smallRemotely Piloted Aircraft (RPA) for wind energy research,Advances in Science and Research 2014

Technische Berichte IEA

  • Clifton, A., Boquet, M., Burin, E., Hofsäß, M., Klaas, T., Vogstad,K., Clive, P., Harris, M., Wylie, S., Osler, E., Banta, B., Choukulkar,A., Lundquist, J., and Aitken, M. Remote Sensing of Complex Flows by Doppler Wind Lidar: Issues and Preliminary Recommendations. NREL report:NREL/TP-5000-64634, 2015. http://www.nrel.gov/docs/fy16osti/64634.pdf
 
Lehre:

Windenergielabor (WE-Labor)

Windkanalversuch zur Lehrveranstaltung Windenergienutzung I (WEN) / Entwurf von Windkraftanlagen I (WEA)

Lebenslauf:

2008

Diplom im Studiengang "Luft- und Raumfahrttechnik", Universität Stuttgart

seit 2009

Wissenschaftlicher Mitarbeiter am Stuttgarter Lehrstuhl für Windenergie

 
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