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Inverse Problems in Science and Engineering Volume 14, 2006 - Issue 4: Proceedings of the Inverse Problems, Design and Optimization (IPDO-2004) Symposium, Rio de Janeiro, Brazil, March 17–19 2004
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Original Articles

The inverse determination of aerodynamic loading from structural response data using neural networks

P. M. TrivailoSchool of Aerospace, Mechanical & Manufacturing Engineering, RMIT University, DSTO/RMIT Centre of Expertise in Aerodynamic Loading, Australia
&
C. L. CarnSchool of Aerospace, Mechanical & Manufacturing Engineering, RMIT University, DSTO/RMIT Centre of Expertise in Aerodynamic Loading, Australia
Pages 379-395 | Received 10 Jan 2005, Accepted 20 May 2005, Published online: 26 Jan 2007

References

  • Shkarayev, S, Krashantisa, R, and Tessler, A, 2000. An Inverse Interpolation Method Utilizing In-Flight Strain Measurements for Determining Loads and Structural Response of Aerospace Vehicles. Tucson: University of Arizona; 2000, AZ 85721, & Analytical and Computational Methods Branch, M/S 240 NASA Langley Research Center, Hampton, VA 23681-0001.
  • Cao, X, Sugiyama, Y, and Mitsui, Y, 1998. Application of artificial neural networks to load identification, Computers and Structures 69 (1998), pp. 63–78.
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  • Molent, L, and Inan, S, Specifications for an unified strain and flight parameter based aircraft fatigue usage monitoring system. Presented at DSTO International Conference on Health and Usage Monitoring. Melbourne, Australia, 19–20, Feb, 2001.
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  • Lopes, TAP, 1997. Neural networks on fatigue damage prediction, International Conference on Neural Networks 1 (1997), pp. 183–187.
  • Haykin, SS, 1999. Neural Networks: A Comprehensive Foundation. New Jersey, USA: Prentice Hall; 1999.
  • Barber, CB, Dobkin, DP, and Huhdanpaa, HT, 1996. The Quickhull algorithm for convex hulls, ACM Trans. on Mathematical Software 22 (1996), pp. 469–483, http://www.qhull.org.

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