## Aircraft -- Flutter Phenomenon in Wings | |

## The following sources are recommended by a professor whose research specialty is aerodynamics. |

· Balakrishnan, A.V., Subsonic Flutter Suppression Using Self-Straining Actuators, Journal of The Franklin Institute, 338 (2001), pp. 149-176.

· Bisplinghoff, R.L., and Ashley H., Principles of Aeroelasticity, John Wiley and Sons, 1962.

· Dowell, E.H., Curtiss, H.C., Jr., Scanlan, R.H., and Sisto, F., A Modern Course on Aeroelasticity, second revised and enlarged edition, Klumer Academic Publ., 1989.

· Friedmann, P., Renaissance of Aeroelasticity and Its Future, Journal of Aircraft, 36:1 (1999), pp. 105-121.

· Shubov, M.A., Asymptotic Analysis of Aircraft Wing Model, IMA Journal of Applied Mathematics, 66 (2001), pp. 319-356.

· Unsteady Transonic Aerodynamics, Editor Nixon, D., Series title: Progress in Astronautics and Aeronautics, Vol. 120, AIAA, 1989.

· Balakrishnan, A.V., Active Control of Airfoils in Unsteady Aerodynamics, Applied Mathematics and Optimization, 4 (1978), pp. 171-195.

· Bendiksen, O., Energy Approach to Flutter Suppression and Aeroelastic Control, Journal of Guidance, Control, and Dynamics, 24:1 (2001), pp. 176-184.

· Bisplinghoff, R.L., and Ashley H., Principles of Aeroelasticity, John Wiley and Sons, 1962.

· Fung, Y.C., An Introduction to the Theory of Aeroelasticity, Dover Publication, 1993.

· Fung, Y.C., Biomechanics: Motion, Flow, Stress, and Growth, Springer, 1990.

· Holmes, P., and Marsden, J., Bifurcation to Divergence and Flutter in Flow-Induced Oscillations: An Infinite Dimensional Analysis, Automatica, 14 (1978), pp. 367-384.

· Karpel, M., Design for Active Flutter Suppression and Gust Alleviation Using State-Space Aeroelastic Modeling, Journal of Aircraft, 19:3 (1982), pp. 221-227.

· Kwon, S.-D., Jung, M.S.S., and Chang, S.P., A New Passive Aerodynamic Control Method for Bridge Flutter, Journal of Wind Engineering and Industrial Aerodynamics, 86 (2000), pp. 187-202.

· Lau, D.T., Cheung, M.S., and Cheng S.H., 3D Flutter Analysis of Bridges and Spline-Strip Method, Journal of Structural Engineering, 126:10 (2000), pp. 1246-1254.

· Lee, B.H.K., and Jiang, L.Y., Flutter of an Airfoil with a Cubic Restoring Force, Journal of Fluids and Structures, 13 (1999), pp. 75-101.

· Nissim, E., Flutter Suppression Using Active Controls Based on Concept of Aerodynamic Energy, NASA TM 6199 (June 1971).

· Ozbay, H., and Bachmann, G.R., H2/H-Infinity Controller Design for a Two-Dimensional Thin Airfoil Flutter Suppression, Journal of Guidance, Control, and Dynamics, 17:4 (1994), pp. 722-728.

· Scanlan, R.H., The Action of Flexible Bridges under Wind, I: Flutter Theory, II: Buffeting Theory, Journal of Sound and Vibration, 60:2 (1978), pp. 187-211.

· Scanlan, R.H., and Simiu, E., Wind Effects on Structures: Fundamentals and Applications to Design, John Wiley and Sons, 1996.

· Shubov, M.A., Asymptotic Representations for Root Vectors of Nonselfadjoint Operators and Pencils Generated by Aircraft Wing Model, Journal of Mathematical Analysis and its Applications, 260 (2001), pp. 341-366.

· Shubov, M.A., Riesz Basis Property of Root Vectors of Nonselfadjoint Operators Generated by Aircraft Wing Model in Subsonic Airflow, Mathematical Methods for Applied Sciences, 23 (2000), pp. 1585-1615.

· Shubov, M.A., Asymptotics of Aeroelastic Modes and the Basis Property of Mode Shapes for Aircraft Wing Model, an Invited Paper in Special Edition on Control of Structural and Dynamical Systems of the Journal of the Franklin Institute, 338:2/3 (2001), pp. 171-185.

· Wilde, K., Omenzetter, P., and Fujino, Y., Suppression of Bridge Flutter by Active Deck-Flaps Control System, Journal of Engineering Mechanics, 127:1 (2001), pp. 80-89.

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