Authors: M. Rychlik, R. Roszak, M. Morzynski, M. Nowak, H. Hausa, K. Kotecki

Abstract:

Article presents the geometry and structure reconstruction procedure of the aircraft model for flatter research (based on the I22-IRYDA aircraft). For reconstruction the Reverse Engineering techniques and advanced surface modeling CAD tools are used. Authors discuss all stages of data acquisition process, computation and analysis of measured data. For acquisition the three dimensional structured light scanner was used. In the further sections, details of reconstruction process are present. Geometry reconstruction procedure transform measured input data (points cloud) into the three dimensional parametric computer model (NURBS solid model) which is compatible with CAD systems. Parallel to the geometry of the aircraft, the internal structure (structural model) are extracted and modeled. In last chapter the evaluation of obtained models are discussed.

Keywords: computer modeling, numerical simulation, Reverse Engineering, structural model

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1056330

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References:

[1] C. S. Fraser, "Optical 3D measurement techniques in the U.S. aerospace industry -Current status and future prospects". Proceedings, Symposium on Surveillance and Monitoring Surveys, University of Melbourne, Australia, 1989, pp 98-104.
[2] J. Giergiel, T. Uhl, ÔÇ×Identyfikacja uk┼éad├│w mechanicznych.", PWN, 1990, Warszawa, Poland
[3] R. Holting, Leica, "ECDS, solution for extended measuring tasks in aircraft manufacturing", Optical 3-D Measurement Techniques III, Gruen and Kahmen (eds), Wichmann, 1995, pp 22-28.
[4] H. Lomax, T.H. Pulliam and D.W. Zingg, "Fundamentals of Computational Fluid Dynamics", Series: Scientific Computation , Springer-Verlag, 2001, ISBN: 3-540-41607-2.
[5] P. Posadzy, M. Morzynski., "Final report on functionality of the implemented generic CSM code (Milestone M8)", Deliverable D5.2-24, 2004, Poznan, Poland.
[6] O. C. Zienkiewicz, R.L. Taylor, "The Finite Element Method", Fifth edition. Barcelona: Butterworth-Heinemann, 2000. Vol. 1: The Basis. ISBN 0-7506-5049-4.