IEA Wind Task 52 LAC Summer Games 2024
Schlipf, D., Guo, F., Liang, Z., Pitter, M., Lopez-Queija, J., Rinker, J., … Weich, S. (2024). IEA Wind Task 52 LAC Summer Games 2024. http://doi.org/10.5281/zenodo.13235189 (Original work published 2025)
Publikationen
2024
TorqTwin—An open-source reference multibody modeling framework for wind turbine structural dynamics
Guo, F., Gao, Z., & Schlipf, D. (2024). TorqTwin—An open-source reference multibody modeling framework for wind turbine structural dynamics. Renewable Energy, 235, 121268. http://doi.org/10.1016/j.renene.2024.121268Exportformate
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2023
The performance of two control strategies for floating wind turbines: lidar-assisted feedforward and multi-variable feedback
Guo, F., Schlipf, D., Lemmer, F., Raach, S., Özinan, U., Adam, R., & Choisnet, T. (2023). The performance of two control strategies for floating wind turbines: lidar-assisted feedforward and multi-variable feedback. In Journal of Physics: Conference Series (Bd. 2626, S. 012005). http://doi.org/10.1088/1742-6596/2626/1/012005 (Original work published 2025)Exportformate
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A data-driven approach to the design and implementation of retrofit lidar assisted control systems
Pitter, M., Slinger, C., Guo, F., Schlipf, D., Raach, S., & White, S. (2023). A data-driven approach to the design and implementation of retrofit lidar assisted control systems. http://doi.org/10.5281/zenodo.8037351 (Original work published 2025)Exportformate
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Feedforward control for a 15-MW wind turbine using a spinner-mounted single-beam lidar
Fu, W., Guo, F., Schlipf, D., & Peña, A. (2023). Feedforward control for a 15-MW wind turbine using a spinner-mounted single-beam lidar. http://doi.org/10.5281/zenodo.8033374 (Original work published 2025)Exportformate
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A Tutorial on Lidar-Assisted Control for Floating Offshore Wind Turbines
Schlipf, D., Guo, F., Raach, S., & Lemmer, F. (2023). A Tutorial on Lidar-Assisted Control for Floating Offshore Wind Turbines. In American Control Conference. San Diego, CA, USA. http://doi.org/10.23919/ACC55779.2023.10156419 (Original work published 2025)Exportformate
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Recommended Practices on Lidar-assisted Control of Floating Wind Turbines
Guo, F., Lemmer, F., Schlipf, D., & Raach, S. (2023). Recommended Practices on Lidar-assisted Control of Floating Wind Turbines. http://doi.org/10.5281/zenodo.8031738 (Original work published 2025)Exportformate
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Evaluation of lidar-assisted wind turbine control under various turbulence characteristics
Guo, F., Schlipf, D., & Cheng, P. W. (2023). Evaluation of lidar-assisted wind turbine control under various turbulence characteristics. Wind Energy Science, 8, 149–171. http://doi.org/10.5194/wes-8-149-2023Exportformate
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2022
Updates on the OpenFAST Lidar Simulator
Guo, F., Schlipf, D., Zhu, H., Platt, A., Cheng, P. W., & Thomas, F. (2022). Updates on the OpenFAST Lidar Simulator. In Journal of Physics: Conference Series (Bd. 2265, S. 042030). http://doi.org/10.1088/1742-6596/2265/4/042030 (Original work published 2025)Exportformate
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Four-dimensional wind field generation for the aeroelastic simulation of wind turbines with lidars
Chen, Y., Guo, F., Schlipf, D., & Cheng, P. W. (2022). Four-dimensional wind field generation for the aeroelastic simulation of wind turbines with lidars. Wind Energy Science, 7, 539–558. http://doi.org/10.5194/wes-7-539-2022 (Original work published 2025)Exportformate
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