Summary
Nonlinear analysis techniques, especially methods from bifurcation theory, have emerged as valuable tools over the last 20 years, particularly due to the advent of the modern computer. Originally developed as part of dynamical systems and chaos theory, they gradually are finding their way into applications areas from all walks of life. As far as the aerospace industry is concerned, methods from nonlinear dynamics were used initially for the prediction of aircraft flight dynamics at high angle of attack flight regimes, where traditional methods have failed. They are now being used within Airbus to analyse aspects of the dynamics of aircraft on the ground. Specific aerospace applications, where nonlinear dynamics techniques are expected to make an impact, include the design of flexible structures and mechanisms, and the dynamics of a braking wheel. Challenges related to the industrialisation of such methods are also discussed.
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References
Tipps, D., Rustenburg, J., Skinn, D., DeFiore, T.: Side load factor statistics from commercial aircraft ground operations. Technical Report UDR-TR 2002-00119, Federal Aviation Administration, U.S. Department of Transportation, Federal Aviation Administration, Office of Aviation Research, Washington, DC 20591, January 2003
Coetzee, E., Krauskopf, B., Lowenberg, M.: Nonlinear aircraft ground dynamics. In ICNPAA, editor, International Conference on Nonlinear Problems in Aviation and Aerospace, June 2006
Rankin, J., Coetzee, E., Krauskopf, B., Lowenberg, M.: AIAA Modeling and Simulation Technologies Conference, (AIAA-2008-6529) (2008)
Rankin, J., Coetzee, E., Krauskopf, B., Lowenberg, M.: Operational parameter study of an aircraft turning on the ground. Prog. Ind. math. (2010). doi:10.1007/978-3-642-12110-4
Thota, P., Krauskopf, B., Lowenberg, M.: Proceedings of AIAA 2008, (2008)
Thota, P., Krauskopf, B., Lowenberg, M.: Geometric nonlinearities of aircraft systems. Prog. Ind. math. (2010). doi:10.1007/978-3-642-12110-4
Wong, J.: Theory of Ground Vehicles, 3rd edn. Wiley-Interscience, New York (2001)
Blundell, M., Harty, D.: The Multibody Systems Approach to Vehicle Dynamics. SAE, Warrendale, PA (2004)
Olson, B.: Nonlinear dynamics of longitudinal ground vehicle traction. Master’s thesis, Michigan State University, 2001
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Coetzee, E. (2010). Application of Nonlinear Dynamics in Civil Aerospace. In: Fitt, A., Norbury, J., Ockendon, H., Wilson, E. (eds) Progress in Industrial Mathematics at ECMI 2008. Mathematics in Industry(), vol 15. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-12110-4_24
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DOI: https://doi.org/10.1007/978-3-642-12110-4_24
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