2019
DOI: 10.1007/s13272-019-00412-2
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Integration aspects of the collaborative aero-structural design of an unmanned aerial vehicle

Abstract: Overall aircraft design is a complex multidisciplinary process, which requires knowledge from many different fields such as structures, aerodynamics, systems and propulsion. For unconventional configurations lacking an empirical knowledge base, higher fidelity physics-based methods are required to reliably estimate the feasibility of a given new design concept. Analysis tools and results are provided by highly specialized groups of experts, possibly from different organizations. In the AGILE (aircraft 3rd gene… Show more

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Cited by 11 publications
(7 citation statements)
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“…In the linear approach, given the structural stiffness matrix (from Lagrange) and the aerodynamic influence coefficient matrix (from MUST), FAEDO solves the aeroelastic linear systems, including the flight mechanics longitudinal stability conditions for different values of altitudes, speed and mass layouts. The mapping between the aerodynamic and the structural grid is obtained with the implementation of the infinite plate splining (IPS) method presented in [26]. Fig.…”
Section: A Disciplinary Capabilitiesmentioning
confidence: 99%
“…In the linear approach, given the structural stiffness matrix (from Lagrange) and the aerodynamic influence coefficient matrix (from MUST), FAEDO solves the aeroelastic linear systems, including the flight mechanics longitudinal stability conditions for different values of altitudes, speed and mass layouts. The mapping between the aerodynamic and the structural grid is obtained with the implementation of the infinite plate splining (IPS) method presented in [26]. Fig.…”
Section: A Disciplinary Capabilitiesmentioning
confidence: 99%
“…Different methods have been proposed to compute the matrix H, such as Radial Basis Functions (RBF) by Beckert and Wendland [22] and Moving Least Squares (MLS) by Quaranta et al [23], which are applied in the following using the implementation presented in [24]. It follows from Eq.…”
Section: B Mesh-free Mappingmentioning
confidence: 99%
“…While rather low fidelity methods were employed for very unconventional configurations in most of the use cases, a consortium consisting of Airbus Defence and Space, CFS Engineering and the DLR, among others, worked on applying higher fidelity methods, such as structural sizing optimization on global FEM level and Euler aerodynamics on a comparatively common unmanned aerial vehicle configuration [26,5]. The key challenge in this use case was to integrate the high fidelity analysis capabilities provided by the partners in an automatic and tightly coupled aeroelastic design workflow using RCE.…”
Section: Agile: the Disciplinary Specialist Within A Collaborative Design Environmentmentioning
confidence: 99%
“…• An unmanned aerial vehicle from the AGILE project [4], where a cross-organizational workflow has been set up in order to perform aero-structural MDO on the wing planform [5].…”
mentioning
confidence: 99%