No AccessMorphing Aircaft Dynamical Model: Longitudinal Shape ChangesAdam Niksch, John Valasek, Leland Carlson and Thomas StrganacAdam NikschTexas A&M UniversitySearch for more papers by this author, John ValasekTexas A&M UniversitySearch for more papers by this author, Leland CarlsonTexas A&M UniversitySearch for more papers by this author and Thomas StrganacTexas A&M UniversitySearch for more papers by this authorSession: AFM-9: Unmanned Aerospace Vehicles and Unmanned Systems IPublished Online:15 Jun 2012https://doi.org/10.2514/6.2008-6567SectionsRead Now ToolsAdd to favoritesDownload citationTrack citations ShareShare onFacebookXLinked InRedditEmail About Previous chapter Next chapter FiguresReferencesRelatedDetailsSee PDF for referencesCited byAsymmetric Airfoil Morphing via Deep Reinforcement Learning3 November 2022 | Biomimetics, Vol. 7, No. 4A Numerical Model to Study the Nonlinear and Unsteady Aerodynamics of Bioinspired Morphing-Wing Concepts1 September 2015 | International Journal of Micro Air Vehicles, Vol. 7, No. 3Effect of Symmetric & Asymmetric Span Morphing on Flight DynamicsChristopher S. Beaverstock, James Fincham, Michael I. Friswell, Rafic M. Ajaj, Roeland De Breuker and Noud Werter10 January 2014Longitudinal Linear Parameter Varying Modeling and Simulation of Morphing AircraftTing Yue, Lixin Wang and Junqiang Ai24 December 2013 | Journal of Aircraft, Vol. 50, No. 6Effect of Span-morphing on the Flight Modes, Stability & ControlChristopher S. Beaverstock, Rafic Ajaj, Michael I. Friswell and Wulf Dettmer15 August 2013Bio‐Inspiration of Morphing for Micro Air Vehicles14 March 2012Modeling and Simulation of Morphing Wing Aircraft14 March 2012Six Degree-of-Freedom Dynamical Model of a Morphing AircraftAdam Niksch, John Valasek, Thomas Strganac and Leland Carlson14 June 2012Morphing Unmanned Air Vehicle Intelligent Shape and Flight ControlJohn Valasek, Amanda Lampton and Monika Marwaha14 June 2012 What's Popular AIAA Atmospheric Flight Mechanics Conference and Exhibit 18 August 2008 - 21 August 2008Honolulu, Hawaiihttps://doi.org/10.2514/6.2008-6567 Crossmark TopicsAerodynamic CodesAerodynamic PerformanceAerodynamicsAeroelasticityAerospace SciencesBoundary Element MethodComputational Fluid DynamicsEquations of Fluid DynamicsFinite Element MethodFlow RegimesFluid DynamicsNumerical Analysis KeywordsRectangular WingAerodynamic PropertiesLift CoefficientCamber4 Digit AirfoilsAir VehicleAspect RatioSweep AngleDefense Advanced Research Projects AgenciesNewton's Second LawDigital Topics Atmospheric Flight Mechanics