Computation of Eigenvector Derivatives Using HPDF Expression
Publication: Journal of Aerospace Engineering
Volume 13, Issue 2
Abstract
The computation of many eigenvector derivatives is required in the fields of structural optimal design, and update and localization of model error. Existing methods, except for the incomplete truncated modal methods and a dynamic flexibility method proposed by the writers, are not efficient for the calculation of many eigenvector derivatives. The precision of the incomplete truncated modal methods sometimes is poor. For this reason, a higher-precision dynamic flexibility (HPDF) expression is first proposed. Then on the basis of this HPDF expression, both a higher-precision truncated modal method and an HPDF method have been analyzed. The HPDF method is a different form of the early dynamic flexibility method. The HPDF expression is based on a geometrical series expansion. That is, the first several terms of the series can allow the solution to converge to an exact value of the dynamic flexibility expression when the difference between each eigenvalue at the frequency axis is large. Once the concentrated eigenroots exist, the convergence speed slows. This limitation can be overcome using a shifting frequency technique.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
Dailey, R. L. (1989). “Eigenvector derivatives with repeated eigenvalues.” AIAA J., 27(4), 486–491.
2.
Mills-Curran, W. C. (1988). “Calculation of eigenvector derivatives for structures with repeated eigenvalues.” AIAA J., 26(7), 867–871.
3.
Nelson, R. B. (1976). “Simplified calculation of eigenvector derivatives.” AIAA J., 14(9), 1201–1205.
4.
Ojalvo, I. U. ( 1986). “Gradient for large structural models with repeated frequencies.” Society of Automotive Engineers, paper 86-1789, Warrendale, PA.
5.
Rubin, S. (1975). “Improved component-mode representation for structural dynamic analysis.” AIAA J., 13(8), 995–1006.
6.
Wang, B. P. (1991). “Improved approximate method for computing eigenvector derivatives in structural dynamics.” AIAA J., 29(6), 1018–1020.
7.
Zhang, D. W., and Wei, F. S. (1993). “Direct perturbation method for calculation of eigenvector derivatives with repeated eigenvalues.” ACTA Mechanica Solida Sinica, Wuhan, China, 14(4), 337–341.
8.
Zhang, D. W., and Wei, F. S. (1995). “Computation of eigenvector derivatives with repeated eigenvalues using a complete modal space.” AIAA J., 33(9), 1749–1753.
9.
Zhang, D. W., and Wei, F. S. (1997). “Efficient computation of many eigenvector derivatives using dynamic flexibility method.” AIAA J., 35(3), 712–718.
Information & Authors
Information
Published In
Journal of Aerospace Engineering
Volume 13 • Issue 2 • April 2000
Pages: 69 - 75
History
Received: Apr 13, 1998
Published online: Apr 1, 2000
Published in print: Apr 2000
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.