Dieses Bild zeigt Martin Hofsäß

Martin Hofsäß

Herr Dipl.-Ing.

Wissenschaftlicher Mitarbeiter
Institut für Flugzeugbau

Kontakt

+49 711 685 68308
 +49 711 685 68293

Allmandring 5b
70569 Stuttgart
Deutschland
Raum: 2.37

Fachgebiet

Lidar-Messtechnik

  • Gondelbasierte Lidarmessungen
  • Bodenbasierte Lidarmessungen speziell im komplexen Gelände

Konventionelle Messtechnik im Bereich Windenergie

  1. 2023

    1. Hofsäß, Martin, Oliver Bischoff, Doron Callies, Dominic Clement, Tobias Klaas-Witt, Carolin Schmitt und Po Wen Cheng. 2023. Statistical comparison of the lidar measurement error of different wind lidar profilers in complex terrain. Zenodo, April. doi:10.5281/zenodo.8378051, .

  2. 2022

    1. Hofsäß, Martin, Oliver Bischoff, Doron Callies, Florian Jäger, Tobias Klaas-Witt und Po-Wen Cheng. 2022. Development of an open source framework for lidar data correction in complex terrain. In: . April. doi:10.5281/zenodo.8376705, .
    2. Blumendeller, Esther, Martin Hofsäß, Arne Goerlitz und Po Wen Cheng. 2022. Impact of wind turbine operation conditions on infrasonic and low frequency sound induced by on-shore wind turbines. Journal of Physics: Conference Series 2265, Nr. 3. Journal of Physics: Conference Series (Mai): 032048. doi:10.1088/1742-6596/2265/3/032048, .

  3. 2020

    1. Letzgus, Patrick, Asmae El Bahlouli, Daniel Leukauf, Martin Hofsäß, Thorsten Lutz und Ewald Krämer. 2020. Microscale CFD Simulations of a Wind Energy Test Site in the Swabian Alps with Mesoscale Based Inflow Data. Journal of Physics: Conference Series 1618. Journal of Physics: Conference Series: 062021. doi:10.1088/1742-6596/1618/6/062021, .

  4. 2018

    1. Hofsäß, Martin, Andrew Clifton und Po Cheng. 2018. Reducing the Uncertainty of Lidar Measurements in Complex Terrain Using a Linear Model Approach. Remote Sensing 10, Nr. 9. Remote Sensing: 1465. doi:10.3390/rs10091465, .
    2. Hofsäß, Martin, Florian Haizmann und Po Wen Cheng. 2018. Comparison of different measurement methods for a nacelle-based lidar power curve. Journal of Physics: Conference Series 1037. Journal of Physics: Conference Series: 052034. doi:10.1088/1742-6596/1037/5/052034, .
    3. Knaus, Hermann, Martin Hofsäß, Alexander Rautenberg und Jens Bange. 2018. Application of Different Turbulence Models Simulating Wind Flow in Complex Terrain: A Case Study for the WindForS Test Site. Computation 6, Nr. 3. Computation: 43. doi:10.3390/computation6030043, .

  5. 2015

    1. Hofsäß, Martin, D. Kozlowski, Tom Siebers und Po Wen Cheng. 2015. Comparison of the Rotor Equivalent Wind Speed of Ground- and Nacelled-Based LIDAR. In: German Wind Energy Conference (DEWEK). German Wind Energy Conference (DEWEK). Bremen, Mai.
    2. Würth, Ines, Florian Haizmann, J. Anger, David Schlipf, Martin Hofsäß, Steffen Raach und Po Wen Cheng. 2015. Four years of nacelle-based lidar measurements in alpha ventus - a review. In: RAVE Offshore Wind R&D Conference. RAVE Offshore Wind R&D Conference. Bremerhaven, Oktober.

  6. 2014

    1. Schlipf, David, Paul Fleming, Florian Haizmann, Andrew Scholbrock, Martin Hofsäß, Alan Wright und Po Wen Cheng. 2014. Field Testing of Feedforward Collective Pitch Control on the CART2 Using a Nacelle-Based Lidar Scanner. Journal of Physics: Conference Series 555. Journal of Physics: Conference Series: 12090. doi:10.1088/1742-6596/555/1/012090, .
    2. Wildmann, N., Martin Hofsäß, F. Weimer, A. Joos und J. Bange. 2014. MASC – a small Remotely Piloted Aircraft (RPA) for wind energy research. Advances in Science and Research 11. Advances in Science and Research: 55--61. doi:10.5194/asr-11-55-2014, .

  7. 2013

    1. Haizmann, Florian, Paul Fleming, David Schlipf, Andrew Scholbrock, Martin Hofsäß, Alan Wright und Po Wen Cheng. 2013. Implementation of an Online Correlation Analysis for an Adaptive LiDAR based Feed-Forward Controller for Wind Turbines. In: EWEA Annual Event. EWEA Annual Event. Vienna, Februar.

  8. 2012

    1. Schlipf, David, J. Anger, O. Bischoff, Martin Hofsäß, Andreas Rettenmeier, Ines Würth, Siegmeier und Po Wen Cheng. 2012. Lidar Assisted Wind Turbine Control. In: RAVE International Conference. RAVE International Conference. Bremerhaven, Mai.
    2. Rettenmeier, Andreas, J. Anger, O. Bischoff, Martin Hofsäß, David Schlipf, Ines Würth und Po Wen Cheng. 2012. Development of Lidar wind measurement techniques. In: RAVE International Conference. RAVE International Conference. Bremerhaven, Mai.
    3. Schlipf, David, Andreas Rettenmeier, Florian Haizmann, Martin Hofsäß, M. Courtney und Po Wen Cheng. 2012. Model Based Wind Vector Field Reconstruction from Lidar Data. In: German Wind Energy Conference (DEWEK). German Wind Energy Conference (DEWEK). Bremen, November.
    4. Rettenmeier, Andreas, J. Anger, O. Bischoff, Martin Hofsäß, David Schlipf und Ines Würth. 2012. Nacelle-Based Lidar Systems. In: Summer School:Remote Sensing for Wind Energy. Summer School:Remote Sensing for Wind Energy. Juni.

  9. 2011

    1. Bischoff, O., M. Hofsäß und P. W. Cheng. 2011. Wind turbine simulation in flat and complex terrain using generic wind fields based on lidar and sonic measurement data. In: European Wind Energy Association Annual Conference and Exhibition 2015, EWEA 2015. European Wind Energy Association Annual Conference and Exhibition 2015, EWEA 2015. Paris, France, November.

Windenergielabor (WE-Labor)

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

2008

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

seit 2009

Wissenschaftlicher Mitarbeiter am Stuttgarter Lehrstuhl für Windenergie
 
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