AIAA Scitech 2019 Forum 2019
DOI: 10.2514/6.2019-0131
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Aeroelastic Modeling and Control of an Experimental Flexible Wing

Abstract: Structural weight reduction and high aspect ratio wings play a key role in improving the performance of modern transport aircraft. This leads to a highly flexible aircraft structure which is sensitive to external disturbances like gusts. To counteract this undesired effect, active control is a promising technology. In this paper, a gust load alleviation controller is designed for a wind tunnel model of a flexible wing with various trailing edge flaps and acceleration sensors. For a sophisticated model-based co… Show more

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Cited by 12 publications
(23 citation statements)
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“…Thereby, the numerical values of the model as well as the resulting controller can be provided herein. For realistic physical applications, the reader is referred to [19], [20] and [21], where the proposed blending approach is successfully applied to different aeroelastic systems.…”
Section: Numerical Examplementioning
confidence: 99%
“…Thereby, the numerical values of the model as well as the resulting controller can be provided herein. For realistic physical applications, the reader is referred to [19], [20] and [21], where the proposed blending approach is successfully applied to different aeroelastic systems.…”
Section: Numerical Examplementioning
confidence: 99%
“…Accordingly, to design the gust load alleviation controllers, state space models of the different flexible wings are derived for a true airspeed of 40 m/s following the aeroelastic modeling procedure described in [41]. To that end, the eleven structural modes of lowest frequency were coupled with an unsteady aerodynamics model generated using the doublet lattice method [42] in combination with a rational function approximation according to Roger [43].…”
Section: State Space Modeling and Modal Decompositionmentioning
confidence: 99%
“…For more details on gust load alleviation controller design and tuning the reader is referred to [41]. Here, the control inputs are the command signals for the servos driving the three trailing edge flaps and the measurement outputs are eight vertical accelerations measured at the outer part of the wing, as depicted in Figure 13.…”
Section: Modal Control Using Blended Inputs and Outputsmentioning
confidence: 99%
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