Damage localization in Linear-Form Structures Based on  Sensitivity Investigation for Principal Component Analysis

[en] This paper addresses the problem of damage detection and localization in linear-form structures. Principal Component Analysis (PCA) is a popular technique for dynamic system investigation. The aim of the paper is to present a damage diagnosis method based on sensitivities of PCA results in the frequency domain. Starting from Frequency Response Functions (FRFs) measured at different locations on the structure; PCA is performed to determine the main features of the signals. Sensitivities of principal directions obtained from PCA to structural parameters are then computed and inspected according to the location of sensors; their variation from the healthy state to the damaged state indicates damage locations. It is worth noting that damage localization is performed without the need of modal identification. Influences of some features as noise, choice of parameter and number of sensors are discussed. The efficiency and limitations of the proposed method are illustrated using numerical and real-world examples.

Disciplines :

Civil engineering
Mechanical engineering

Author, co-author :

Nguyen, Viet Ha ; Université de Liège - ULiège > Doct. sc. ingé. (aérosp. & méca. - Bologne)

Golinval, Jean-Claude ; Université de Liège - ULiège > Département d'aérospatiale et mécanique > LTAS - Vibrations et identification des structures

Language :

English

Title :

Damage localization in Linear-Form Structures Based on Sensitivity Investigation for Principal Component Analysis

Publication date :

2010

Journal title :

Journal of Sound and Vibration

ISSN :

0022-460X

eISSN :

1095-8568

Publisher :

Academic Press, London, United Kingdom

Volume :

329

Pages :

4550-4566

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 21 June 2010

Statistics

Number of views

133 (10 by ULiège)

Number of downloads

5 (3 by ULiège)

More statistics

Scopus citations^®

Scopus citations^®
without self-citations

OpenCitations

OpenAlex citations

Bibliography

Huynh, D., He, J., Tran, D., Damage location vector: a non-destructive structural damage detection technique (2005) Computers and Structures, 83, pp. 2353-2367
Koh, B.H., Ray, L.R., Localisation of damage in smart structures through sensitivity enhancing feedback control (2003) Mechanical Systems and Signal Processing, 17 (4), pp. 837-855
Gomes, H.M., Silva, N.R.S., Some comparisons for damage detection on structures using genetic algorithms and modal sensitivity method (2008) Applied Mathematical Modelling, pp. 2216-2232
Bakir, P.G., Reynders, E., Roeck, G.D., Sensitivity-based finite element model updating using constrained optimization with a trust region algorithm (2007) Journal of Sound and Vibration, 305, pp. 211-225
Teughels, A., De Roeck, G., Structural damage identification of the highway bridge Z24 by FE model updating (2004) Journal of Sound and Vibration, 278, pp. 589-610
Yan, A., Golinval, J.-C., Structural damage localization by combining flexibility and stiffness methods (2005) Engineering Structures, 27, pp. 1752-1761
Koo, K.Y., Lee, J.J., Yun, C.B., Brownjohn, J.M.W., Damage detection in beam-like structures using deflections obtained by modal flexibility matrices (2009) Proceedings of the IMAC-XXVII, , USA
Kim, J.T., Stubbs, N., Improved damage identification method based on modal information (2002) Journal of Sound and Vibration, 252 (2), pp. 223-238
Yang, J.N., Lin, S., Pan, S., Damage identification of structures using Hilbert-Huang spectral analysis (2002) Proceedings of the 15th ASCE Engineering Mechanics Conference, , New York
Rucka, M., Wilde, K., Application of continuous wavelet transform in vibration based damage detection method for beam and plates (2006) Journal of Sound and Vibration, pp. 536-550
Bayissa, W.L., Haritos, N., Thelandersson, S., Vibration-based structural damage identification using wavelet transform (2008) Mechanical Systems and Signal Processing, 22, pp. 1194-1215
Cao, M., Qiao, P., Novel Laplacian scheme and multiresolution modal curvatures for structural damage identification (2009) Mechanical Systems and Signal Processing, 23, pp. 1223-1242
Ray, L.R., Tian, L., Damage detection in smart structures through sensitivity enhancing feedback control (1999) Journal of Sound and Vibration, 227 (5), pp. 987-1002
Pandey, A.K., Biswas, M., Samman, M.M., Damage detection from changes in curvature mode shape (1991) Journal of Sound and Vibration, 142, pp. 321-332
Sampaio, R.P.C., Maia, N.M.M., Silva, J.M.M., Damage detection using the frequency - response - function curvature method (1999) Journal of Sound and Vibration, 226 (5), pp. 1029-1042
Liu, X., Lieven, N.A.J., Escamilla-Ambrosio, P.J., Frequency response function shape-based methods for structural damage localization (2009) Mechanical Systems and Signal Processing, 23, pp. 1243-1259
Messina, A., Williams, E.J., Contursi, T., Structural damage detection by a sensitivity and statistical-based method (1998) Journal of Sound and Vibration, 216 (5), pp. 791-808
Jiang, L.J., An optimal sensitivity-enhancing feedback control approach via eigenstructure assignment for structural damage identification (2007) Journal of Vibration and Acoustics, 129 (6), pp. 771-783
Koh, B.H., Ray, L.R., Feedback controller design for sensitivity-based damage localization (2004) Journal of Sound and Vibration, 273, pp. 317-335
Jiang, L.J., Wang, K.W., (2009) An experiment-based frequency sensitivity enhancing control approach for structural damage detection, Smart Materials and Structures, 18. , stacks.iop.org, online at /SMS/18/065005
Todd Griffith, D., Analytical sensitivities for principal components analysis of dynamical systems (2009) Proceedings of the IMAC-XXVII, , Orlando, FL, USA, February 9-12
Junkins, J.L., Kim, Y., (1993) Introduction to Dynamics and Control of Flexible Structures, , AIAA Education Series, Reston, VA
http://institute.lanl.gov/ei/software-and-data/data
Farrar, C., Jauregui, J., (1996) Damage Detection Algorithms Applied to Experimental and Numerical Modal Data from the I-40 Bridge, , Los Alamos National Laboratory