The following publications are possibly variants of this publication:
- On control of tethered wings for airborne wind energyLorenzo Fagiano, Aldo U. Zgraggen, Mustafa Khammash, Manfred Morari. amcc 2013: 1430-1435 [doi]
- Automatic control of tethered wings for airborne wind energy: Design and experimental resultsLorenzo Fagiano, Aldo U. Zgraggen, Mustafa Khammash, Manfred Morari. eucc 2013: 992-997 [doi]
- Sensor fusion for tethered wings in airborne wind energyLorenzo Fagiano, Khanh Huynh, Bassam Bamieh, Mustafa Khammash. amcc 2013: 2884-2889 [doi]
- Automatic Crosswind Flight of Tethered Wings for Airborne Wind Energy: Modeling, Control Design, and Experimental ResultsLorenzo Fagiano, Aldo U. Zgraggen, Manfred Morari, Mustafa Khammash. tcst, 22(4):1433-1447, 2014. [doi]
- On the autonomous take-off and landing of tethered wings for airborne wind energyEric Nguyen Van, Lorenzo Fagiano, Stephan Schnez. amcc 2016: 4077-4082 [doi]
- In-Flight Estimation of the Aerodynamics of Tethered Wings for Airborne Wind EnergyEduardo Schmidt, Marcelo de Lellis, Ramiro Saraiva, Lorenzo Fagiano, Alexandre Trofino Neto. tcst, 28(4):1309-1322, 2020. [doi]
- Real-Time Optimization and Adaptation of the Crosswind Flight of Tethered Wings for Airborne Wind EnergyAldo U. Zgraggen, Lorenzo Fagiano, Manfred Morari. tcst, 23(2):434-448, 2015. [doi]
- Fault- Tolerant Control of a Tethered Aircraft for Airborne Wind EnergyTareg Mohammed, Lorenzo Fagiano. ccta 2022: 279-284 [doi]