Real-time onboard global nonlinear aerodynamic modeling from flight data

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Abstract

Flight test and modeling techniques were developed to accurately identify global nonlinear aerodynamic models onboard an aircraft. The techniques were developed and demonstrated during piloted flight testing of an Aermacchi MB-326M Impala jet aircraft. Advanced piloting techniques and nonlinear modeling techniques based on fuzzy logic and multivariate orthogonal function methods were implemented with efficient onboard calculations and flight operations to achieve real-time maneuver monitoring, near-real-time global nonlinear aerodynamic modeling, and prediction validation testing in flight. Results demonstrated that global nonlinear aerodynamic models for a large portion of the flight envelope were identified rapidly and accurately using piloted flight test maneuvers during a single flight, with the final identified and validated models available before the aircraft landed.

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Brandon, J. M., & Morelli, E. A. (2016). Real-time onboard global nonlinear aerodynamic modeling from flight data. In Journal of Aircraft (Vol. 53, pp. 1261–1297). American Institute of Aeronautics and Astronautics Inc. https://doi.org/10.2514/1.C033133

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