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Journal Articles
- 2018
[j4]Andrew Clifton
, Peter Clive, Julia Gottschall, David Schlipf, Eric Simley, Luke Simmons, Detlef Stein, Davide Trabucchi, Nikola Vasiljevic, Ines Würth:
IEA Wind Task 32: Wind Lidar Identifying and Mitigating Barriers to the Adoption of Wind Lidar. Remote. Sens. 10(3): 406 (2018)- [j3]Eric Simley, Holger Fürst, Florian Haizmann, David Schlipf:
Optimizing Lidars for Wind Turbine Control Applications - Results from the IEA Wind Task 32 Workshop. Remote. Sens. 10(6): 863 (2018) - 2013
- [j2]David Schlipf, Po-Wen Cheng:
Adaptive Vorsteuerung für Windenergieanlagen. Autom. 61(5): 329-338 (2013) - [j1]Simone Schuler, David Schlipf, Po-Wen Cheng, Frank Allgöwer:
ℓ1-Optimal Control of Large Wind Turbines. IEEE Trans. Control. Syst. Technol. 21(4): 1079-1089 (2013)
Conference and Workshop Papers
- 2023
- [c16]David Schlipf, Feng Guo, Steffen Raach, Frank Lemmer:
A Tutorial on Lidar-Assisted Control for Floating Offshore Wind Turbines. ACC 2023: 2536-2541 - 2022
- [c15]Feng Guo, David Schlipf, Zhaoyu Zhang, Po-Wen Cheng:
Investigation on the wind preview quality for lidar-assisted wind turbine control under wake conditions. ACC 2022: 3544-3549 - 2021
- [c14]Feng Guo, David Schlipf:
Lidar Wind Preview Quality Estimation for Wind Turbine Control. ACC 2021: 552-557 - 2018
- [c13]Mohammad Salari Khaniki, David Schlipf, Vasilis Pettas, Po-Wen Cheng:
Control Design For Disturbance Rejection in Wind Turbines. ACC 2018: 1515-1519 - [c12]Mohammad Salari Khaniki, David Schlipf, Po-Wen Cheng:
A Comparison Between LIDAR-Based Feedforward and DAC for Control of Wind Turbines. CCTA 2018: 1650-1655 - 2017
- [c11]Steffen Raach, Jan-Willem van Wingerden, Sjoerd Boersma, David Schlipf, Po-Wen Cheng:
ℋ∞ controller design for closed-loop wake redirection. ACC 2017: 703-708 - 2016
- [c10]Steffen Raach, David Schlipf, Friedemann Borisade, Po-Wen Cheng:
Wake redirecting using feedback control to improve the power output of wind farms. ACC 2016: 1387-1392 - [c9]David Schlipf:
Prospects of multivariable feedforward control of wind turbines using lidar. ACC 2016: 1393-1398 - [c8]Andrew K. Scholbrock, Paul A. Fleming, David Schlipf, Alan D. Wright, Kathryn E. Johnson, Na Wang:
Lidar-enhanced wind turbine control: Past, present, and future. ACC 2016: 1399-1406 - 2015
- [c7]Elham Tofighi, David Schlipf, Christopher M. Kellett:
Nonlinear model predictive controller design for extreme load mitigation in transition operation region in wind turbines. CCA 2015: 1167-1172 - [c6]Florian Haizmann, David Schlipf, Steffen Raach, Andrew K. Scholbrock, Alan D. Wright, Chris Slinger, John Medley, Michael Harris, Ervin A. Bossanyi, Po-Wen Cheng:
Optimization of a feed-forward controller using a CW-lidar system on the CART3. ACC 2015: 3715-3720 - 2014
- [c5]Fiona Dunne, Lucy Y. Pao, David Schlipf, Andrew K. Scholbrock:
Importance of lidar measurement timing accuracy for wind turbine control. ACC 2014: 3716-3721 - [c4]David Schlipf, Patrick Grau, Steffen Raach, Ricardo Duraiski, Jorge O. Trierweiler, Po-Wen Cheng:
Comparison of linear and nonlinear model predictive control of wind turbines using LIDAR. ACC 2014: 3742-3747 - [c3]Steffen Raach, David Schlipf, Frank Sandner, Denis Matha, Po-Wen Cheng:
Nonlinear model predictive control of floating wind turbines with individual pitch control. ACC 2014: 4434-4439 - 2013
- [c2]David Schlipf, Paul A. Fleming, Stefan Kapp, Andrew K. Scholbrock, Florian Haizmann, Fred Belen, Alan D. Wright, Po-Wen Cheng:
Direct Speed Control using LIDAR and turbine data. ACC 2013: 2208-2213 - 2012
- [c1]David Schlipf, Lucy Y. Pao, Po-Wen Cheng:
Comparison of feedforward and model predictive control of wind turbines using LIDAR. CDC 2012: 3050-3055
Coauthor Index
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