Real-Time Flutter Detection from In-Flight Vibration Data


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Edited by:

L. Garibaldi, C. Surace, K. Holford and W.M. Ostachowicz




T. Uhl and M. Petko, "Real-Time Flutter Detection from In-Flight Vibration Data", Key Engineering Materials, Vol. 347, pp. 679-684, 2007

Online since:

September 2007




[1] M.W. Kehoe: AGARD Conference proceedings 566, Advanced Aeroservoelastic Testing and Data Analysis, (1995).

[2] I.E. Garrick and W.H. Reed: Journal of Aircraft, V. 18, 1981, p.897.

[3] M.J. Brenner, R.C. Lind and D.F. Voracek: NASA TM/4792, (1997).

[4] A.A. Abbasi and J.E. Cooper: Proceedings of ISMA 2006 Conference, Leuven, (2006), pp.1523-1546.

[5] E. Nissim and G.B. Gilyard: NASA TP-2923, (1989).

[6] G. Dimitriadis and J.E. Cooper: AIAA Journal of Aircraft, vol. 38, 2001, p.355.

[7] L. Hermans and H. Van der Auweraer: Mechanical Systems and Signal Processing, vol. 13(2), 1999), pp.193-216.

[8] T. Uhl, W. Lisowski and P. Kurowski: In-operation modal analysis and its application, AGH, Krakow, (2001).

[9] M. Bogacz and T. Uhl: Proceedings of ISMA 2004 Conference, Leuven, 2004, p.1065.

[10] A. Klepka and T. Uhl: Journal of Theoretical and Applied Mechanics, Vol. 43, (2005) , p.277.

[11] A. Klepka: Identification of modal parameters of mechanical structures in nonstationary conditions, PhD thesis, AGH Univ. of Science and Technology, Krakow, (2005) (in Polish).

[12] T. Kambe, A. Yamada and M. Yamaguchi: Microelectronics Journal, Vol. 33, 2002, p.875.

[13] M. Petko and G. Karpiel: IEEE Conference on Emerging Technologies and Factory Automation, 2003, Proceedings, vol. 1, (2003), p.427.

[14] M.D. Edwards, J. Forrest and A.E. Whelan: J. of Systems and Architecture, Vol. 42, 1996/97, p.697.