[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2017.64.6.803

Damage detection for a beam under transient excitation via three different algorithms

Zhao, Ying (International Institute for Urban Systems Engineering, Southeast University)
Noori, Mohammad (International Institute for Urban Systems Engineering, Southeast University)
Altabey, Wael A. (International Institute for Urban Systems Engineering, Southeast University)

Publication Information

Structural Engineering and Mechanics / v.64, no.6, 2017 , pp. 803-817 More about this Journal

Abstract

Structural health monitoring has increasingly been a focus within the civil engineering research community over the last few decades. With increasing application of sensor networks in large structures and infrastructure systems, effective use and development of robust algorithms to analyze large volumes of data and to extract the desired features has become a challenging problem. In this paper, we grasp some precautions and key points of the signal processing approach, wavelet, establish a relative reliable framework, and analyze three problems that require attention when applying wavelet based damage detection approach. The cases studies how to use optimal scales for extracting mode shapes and modal curvatures in a reinforced concrete beam and how to effectively identify damages using maximum curves of wavelet coefficient differences. Moreover, how to make a recognition based on the wavelet multi-resolution analysis, wavelet packet energy, and fuzzy sets is a meaningful topic that has been addressed in this work. The relative systematic work that compasses algorithms, structures and evaluation paves a way to a framework regarding effective structural health monitoring, orientation, decision and action.

Keywords

mode shape; curvature mode; wavelet coefficient differences; multi-resolution analysis; damage identification; artificial neural network; fuzzy pattern recognition; reinforced concrete beam;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Prasad, B.R., Lakshmanan, N., Muthumani, K. and Gopalakrishnan, N. (2006), "Enhancement of damage indicators in wavelet and curvature analysis", J. Sadhana, 31(4), 463-486. DOI
2	Quek, S.T., Wang, Q., Zhang, L. and Ang, K.K. (2001), "Sensitivity analysis of crack detection in beams by wavelet technique", J. Mech. Sci., 43(12), 2899-2910. DOI
3	Reda Taha, M.M. (2010), "A neural-wavelet technique for damage identification in the ASCE benchmark structure using phase II experimental data", J. Adv. Civil Eng., 2010, ID 675927, 13.
4	Rucka, M. and Wilde, K. (2006), "Crack identification using wavelets on experimental static deflection profiles", J. Eng. Struct., 28(2), 279-288. DOI
5	Rucka, M.A. and Wilde, K.R. (2006), "Application of continuous wavelet transform in vibration based damage detection method for beams and plates", J. Sound Vib., 297(3), 536-50. DOI
6	Taha, M.R. and Lucero, J. (2005), "Damage identification for structural health monitoring using fuzzy pattern recognition", J. Eng. Struct., 27(12), 1774-1783. DOI
7	Walia, S.K., Patel, R.K., Vinayak, H.K. and Parti, R. (2015), "Time-frequency and wavelet-based study of an old steel truss bridge before and after retrofitting", J. Civil Struct. Hlth. Monit., 5(4), 397-414. DOI
8	Wang, Q. and Deng, X. (1999), "Damage detection with spatial wavelets", , J. Solid. Struct., 36(23), 3443-3468. DOI
9	Nikravesh, S.M. and Chegini, S.N. (2013), "Crack identification in double-cracked plates using wavelet analysis", Meccanica, 48(9), 2075-2098. DOI
10	Xu, W., Cao, M., Ostachowicz, W., Radzienski, M. and Xia, N. (2015), "Two-dimensional curvature mode shape method based on wavelets and teager energy for damage detection in plates", J. Sound Vib., 347, 266-78. DOI
11	Cao, M., Radzienski, M., Xu, W. and Ostachowicz, W. (2014), "Identification of Multiple Damage in Beams Based on Robust Curvature Mode Shapes", J. Mech. Syst. Signal Pr., 46(2), 468-480. DOI
12	Xu, Y.F., Zhu, W.D., Liu, J. and Shao, Y.M. (2014), "Identification of embedded horizontal cracks in beams using measured mode shapes", J. Sound Vib., 333(23), 6273-6294. DOI
13	Zhao, Y. and Noori, M. (2017), "Mode shape-based damage identification for a reinforced concrete beam using wavelet coefficient differences and multiresolution analysis", J. Struct. Control Hlth. Monit., DOI: 10.1002/stc.2041 DOI
14	Zhu, F., Deng, Z. and Zhang, J. (2013), "An integrated approach for structural damage identification using wavelet neuro-fuzzy model", J. Expert Syst. Appl., 40(18), 7415-7427. DOI
15	Bedworth, M. and O'Brien, J. (2000), "The omnibus model: a new model of data fusion?", IEEE Aerosp. Elec. Syst. Mag., 15(4), 30-6. DOI
16	Beheshti-Aval, S.B., Taherinasab, M. and Noori, M. (2013), "Some precautions to consider in using wavelet transformation for damage detection analysis of plates", Smart Struct. Syst., 11(1), 35-51. DOI
17	Cao, M.S., Xu, W., Ren, W.X., Ostachowicz, W., Sha, G.G. and Pan, L.X. (2016), "A concept of complex-wavelet modal curvature for detecting multiple cracks in beams under noisy conditions", J. Mech. Syst. Signal Pr., 76, 555-575.
18	Chang, P.C., Flatau, A. and Liu, S.C. (2003), "Health monitoring of civil infrastructure", J. Struct. Hlth. Monit., 2(3), 257-67. DOI
19	Daubechies, I. (1992), Ten Lectures on Wavelets. Philadelphia: Society for Industrial and Applied Mathematics, Rutgers University.
20	Daubechies, I. (1990), "The wavelet transform, time-frequency localization and signal analysis", IEEE Tran. Inform. Theory, 36(5), 961-1005. DOI
21	Farouk, M.H. (2014), "Wavelets, wavelet filters, and wavelet transforms", Appl. Wavel. Speech Pr., https://doi.org/10.1007/978-3-319-02732-6_3. DOI
22	Dawari, V.B. and Vesmawala, G.R. (2013), "Structural damage identification using modal curvature differences", J. Mech. Civil Eng., 4, 33-38.
23	Douka, E., Loutridis, S. and Trochidis, A. (2003), "Crack identification in beams using wavelet analysis", J. Solid. Struct., 40(13), 3557-3569. DOI
24	Escamilla-Ambrosio, P.J., Liu, X., Lieven, N.A. and Ramirez-Cortes JM. (2011), "ANFIS-2D wavelet transform approach to structural damage identification", Fuzzy Information Processing Society (NAFIPS), IEEE, 2011 Annual Meeting of the North American, March..
25	Guo, H., Lin, J. and Li, Z. (2012), "Structural damage localization of steel arch bridge based on wavelet packet transform", Software Engineering and Knowledge Engineering: Theory and Practice 2012, Springer Berlin Heidelberg.
26	Hera, A. and Hou, Z. (2004), "Application of wavelet approach for ASCE structural health monitoring benchmark studies", J. Eng. Mech., 130(1), 96-104. DOI
27	Hong, J.C., Kim, Y.Y., Lee, H.C. and Lee, Y.W. (2002), "Damage detection using the Lipschitz exponent estimated by the wavelet transform: applications to vibration modes of a beam", J. Solid. Struct., 39(7), 1803-1816. DOI
28	Hou, Z., Noori, M. and Amand, R.S. (2000), "Wavelet-based approach for structural damage detection", J. Eng. Mech., 126(7), 677-683. DOI
29	Jiang, X. and Mahadevan, S. (2008), "Bayesian probabilistic inference for nonparametric damage detection of structures", J. Eng. Mech., 134(10), 820-831. DOI
30	Huang, Y., Meyer, D. and Nemat-Nasser S. (2009), "Damage detection with spatially distributed 2D continuous wavelet transform", J. Mech. Mater., 41(10), 1096-1107. DOI
31	Jiang, X. and Mahadevan, S. (2008), "Bayesian wavelet methodology for structural damage detection", J. Struct. Control Hlth. Monit., 15(7), 974-991. DOI
32	Jiang, X., Mahadevan, S. and Adeli, H. (2007), "Bayesian wavelet packet denoising for structural system identification", J. Struct. Control Hlth. Monit., 14(2), 333-356. DOI
33	Lee, D.T. (1994), "Yamamoto a. wavelet analysis: theory and applications", Hewlett Pack. J., 1, 45-44.
34	Loutridis, S., Douka, E. and Trochidis, A. (2004), "Crack identification in double-cracked beams using wavelet analysis", J. Sound Vib., 277(4), 1025-1039. DOI
35	Loutridis, S., Douka, E., Hadjileontiadis, L.J. and Trochidis, A.A. (2005), "Two-dimensional wavelet transform for detection of cracks in plates", J. Eng. Struct., 27(9), 1327-38. DOI
36	Lucero, J. and Taha, M.R. (2005), "A wavelet aided fuzzy damage detection algorithm for structural health monitoring", Proceedings of the 23rd International. Modal Analysis Conference (IMAC), Orlando, Florida.
37	Mallat, S. and Hwang, W.L. (1992), "Singularity detection and processing with wavelets", IEEE Tran. Inform. Theory, 38(2), 617-643. DOI
38	Mallat, S.A. (1999), Wavelet Tour of Signal Processing. Academic Press, 2nd Edition, Elsevier Inc.
39	Masoumi, M.A. and Ashory, M.R. (2014), "Damage identification from uniform load surface using continuous and stationary wavelet transforms", Latin Am. J. Solid. Struct., 11(5), 738-754. DOI

12	(2017) Applied sciences Deep Learning-Based Damage, Load and Support Identification for a Composite Pipeline by Extracting Modal Macro Strains from Dynamic Excitations / 8 (12) , 2564
5	(2017) Structural engineering and mechanics : An international journal Damage assessment based on static and dynamic responses applied to foundation beams / 72 (5) , 585
13	(2017) Applied sciences Deep Learning-Based Crack Identification for Steel Pipelines by Extracting Features from 3D Shadow Modeling / 11 (13) , 6063