Reduced order unsteady aerodynamic modeling for stability and control analysis using computational fluid dynamics

Recent advances and challenges in the generation of reduced order aerodynamic models using computational fluid dynamics are presented. The models reviewed are those that can be used for aircraft stability and control analysis and include linear and nonlinear indicial response methods, Volterra theor...

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Bibliographic Details
Published in:Progress in aerospace sciences 2014-11, Vol.71, p.167-217
Main Authors: Ghoreyshi, Mehdi, Jirásek, Adam, Cummings, Russell M.
Format: Article
Language:English
Subjects:
Aerospace sciences
Aircraft
Aircraft stability
Computational fluid dynamics
Indicial functions
Mathematical models
Radial basis functions
Reduced order
Reduced order model
Reduced order models
Unsteady aerodynamics
Volterra functions
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Summary:Recent advances and challenges in the generation of reduced order aerodynamic models using computational fluid dynamics are presented. The models reviewed are those that can be used for aircraft stability and control analysis and include linear and nonlinear indicial response methods, Volterra theory, radial basis functions, and a surrogate-based recurrence framework. The challenges associated with identification of unknowns for each of the reduced order methods are addressed. A range of test cases, from airfoils to full aircraft, have been used to evaluate and validate the reduced order methods. The motions have different amplitudes and reduced frequencies and could start from different flight conditions including those in the transonic speed range. Overall, these reduced order models help to produce accurate predictions for a wide range of motions, but with the advantage that model predictions require orders of magnitude less time to evaluate once the model is created.
ISSN:0376-0421
1873-1724
DOI:10.1016/j.paerosci.2014.09.001