F. Rager scite author profile

F. Rager

5Publications

61Citation Statements Received

94Citation Statements Given

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ABB (Switzerland)

Publications

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Autonomous Takeoff and Flight of a Tethered Aircraft for Airborne Wind Energy

Fagiano

Nguyen-Van

Rager

et al. 2018

IEEE Trans. Contr. Syst. Technol.

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A control design approach to achieve fully autonomous take-off and flight maneuvers with a tethered aircraft is presented and demonstrated in real-world flight tests with a small-scale prototype. A ground station equipped with a controlled winch and a linear motion system accelerates the aircraft to take-off speed and controls the tether reeling in order to limit the pulling force. This setup corresponds to airborne wind energy systems with ground-based energy generation and rigid aircrafts. A simple model of the aircraft's dynamics is introduced and its parameters are identified from experimental data. A model-based, hierarchical feedback controller is then designed, whose aim is to manipulate the elevator, aileron and propeller inputs in order to stabilize the aircraft during the take-off and to achieve figure-of-eight flight patterns parallel to the ground. The controller operates in a fully decoupled mode with respect to the ground station. Parameter tuning and stability/robustness aspect are discussed, too. The experimental results indicate that the controller is able to achieve satisfactory performance and robustness, notwithstanding its simplicity, and confirm that the considered take-off approach is technically viable and solves the issue of launching this kind of airborne wind energy systems in a compact space and at low additional cost.

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A Small-Scale Prototype to Study the Takeoff of Tethered Rigid Aircrafts for Airborne Wind Energy

Fagiano

Nguyen-Van

Rager

et al. 2017

IEEE/ASME Trans. Mechatron.

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The design of a prototype to carry out take-off and flight tests with tethered aircrafts is presented. The system features a ground station equipped with a winch and a linear motion system. The motion of these two components is regulated by an automatic control system, whose goal is to accelerate a tethered aircraft to take-off speed using the linear motion system, while reeling-out the tether from the winch with low pulling force and avoiding entanglement. The mechanical, electrical, measurement and control aspects of the prototype are described in detail. Experimental results with a manually-piloted aircraft are presented, showing a good matching with previous theoretical findings. * This is the pre-print of a paper submitted for publication. The authors are with

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Automatic Take-Off of a Tethered Aircraft for Airborne Wind Energy: Control Design and Experimental Results

et al. 2017

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Study of vacuum circuit breaker performance and weld formation for different drive closing speeds for switching capacitive current

Delachaux

Rager

Gentsch³

2010

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Testing procedure for the current interruption capability of vacuum interrupter contact materials

Delachaux

Rager

Simon

et al. 2012

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F. Rager

Autonomous Takeoff and Flight of a Tethered Aircraft for Airborne Wind Energy

A Small-Scale Prototype to Study the Takeoff of Tethered Rigid Aircrafts for Airborne Wind Energy

Automatic Take-Off of a Tethered Aircraft for Airborne Wind Energy: Control Design and Experimental Results

Study of vacuum circuit breaker performance and weld formation for different drive closing speeds for switching capacitive current

Testing procedure for the current interruption capability of vacuum interrupter contact materials

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