[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/smm.2020.7.3.261

Assessment of sensitivity-based FE model updating technique for damage detection in large space structures

Razavi, Mojtaba (Department of Civil Engineering, University of Tabriz)
Hadidi, Ali (Department of Civil Engineering, University of Tabriz)

Publication Information

Structural Monitoring and Maintenance / v.7, no.3, 2020 , pp. 261-281 More about this Journal

Abstract

Civil structures may experience progressive deterioration and damage under environmental and operational conditions over their service life. Finite element (FE) model updating method is one of the most important approaches for damage identification in structures due to its capabilities in structural health monitoring. Although various damage detection approaches have been investigated on structures, there are limited studies on large-sized space structures. Thus, this paper aims to investigate the applicability and efficiency of sensitivity-based FE model updating framework for damage identification in large space structures from a distinct point of view. This framework facilitates modeling and model updating in large and geometric complicated space structures. Considering sensitivity-based FE model updating and vibration measurements, the discrepancy between acceleration response data in real damaged structure and hypothetical damaged structure have been minimized through adjusting the updating parameters. The feasibility and efficiency of the above-mentioned approach for damage identification has finally been demonstrated with two numerical examples: a flat double layer grid and a double layer diamatic dome. According to the results, this method can detect, localize, and quantify damages in large-scaled space structures very accurately which is robust to noisy data. Also, requiring a remarkably small number of iterations to converge, typically less than four, demonstrates the computational efficiency of this method.

Keywords

model updating; damage detection; structural health monitoring; space structures; sensitivity analysis; vibration measurements;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Gholizad, A. and Safari, H. (2017), "Damage identification of structures using experimental modal analysis and continuous wavelet transform", Numerical Methods in Civil Engineering.
2	Gomes, H. and Silva, N. (2008), "Some comparisons for damage detection on structures using genetic algorithms and modal sensitivity method", Appl. Math. Model., 32(11), 2216-2232. DOI
3	Jaishi, B. and Ren, W.X. (2005), "Structural finite element model updating using ambient vibration test results", J. Struct. Eng., 131(4), 617-628. DOI
4	Kim, H. and Bartkowicz, T. (1993), "Damage detection and health monitoring of large space structures", Paper presented at the 34th Structures, Structural Dynamics and Materials Conference.
5	Lopez, F. and Zimmerman, D.C. (2002), "Nonlinear damage detection using a time-domain minimum rank perturbation theory", Paper presented at the Smart Nondestructive Evaluation for Health Monitoring of Structural and Biological Systems.
6	Majumder, L. and Manohar, C. (2003), "A time-domain approach for damage detection in beam structures using vibration data with a moving oscillator as an excitation source", J. Sound Vib., 268(4), 699-716. DOI
7	Malekzehtab, H., Golafhani, A. and Mohajeri, S. (2011), "Application of Genetic Algorithm Based Finite Element Model Updating in Damage Detection of Offshore Jacket Platforms", Paper presented at the Second International Conference on Recent Trends in Transportation, Environmental and Civil Engineering, Bangalore, India.
8	Marwala, T. (2010a), "Finite-element-model Updating Applied in Damage Detection", Finite-element-model updating using computional intelligence techniques: Applications to structural dynamics, 203-223.
9	Marwala, T. (2010b), "Finite element model updating using computational intelligence techniques: applications to structural dynamics", Springer Science & Business Media.
10	Mottershead, J. E., Link, M., & Friswell, M. I. (2011), "The sensitivity method in finite element model updating: a tutorial", Mech. Syst. Signal Pr., 25(7), 2275-2296. DOI
11	Nguyen, C.U., Huynh, T.C. and Kim, J.T. (2018), "Vibration-based damage detection in wind turbine towers using artificial neural networks", Struct. Monit. Maint., 5(4), 507-519. DOI
12	Park, J.H., Lee, J.M., Kim, J.T. and Ryu, Y.S. (2006), "Genetic Algorithm-based damage detection method using natural frequency and modal strain energy", Paper presented at the Symposium on Optimization of Structural and Mechanical Systems, China.
13	Sun, H. and Buyukozturk, O. (2016), "Probabilistic updating of building models using incomplete modal data", Mech. Syst. Signal Pr., 75, 27-40. DOI
14	Saberi, M. and Kaveh, A. (2015), "Damage detection of space structures using charged system search algorithm and residual force method", Iranian J. Sci. Technol. T. Civil Eng., 39(C2), 215-229.
15	Savadkoohi, A.T., Molinari, M., Bursi, O.S. and Friswell, M.I. (2011), "Finite element model updating of a semi-rigid moment resisting structure", Struct. Control Health Monit., 18(2), 149-168. DOI
16	Shahidi, S.G. and Pakzad, S.N. (2013), "Generalized response surface model updating using time domain data", J. Struct. Eng., 140(8), A4014001.
17	Sun, H., Lus, H. and Betti, R. (2013), "Identification of structural models using a modified Artificial Bee Colony algorithm", Comput. Struct., 116, 59-74. DOI
18	Meruane Naranjo, V. and Heylen, W. (2008), "Damage detection by a real-parameter hybrid genetic algorithm", Paper presented at the Proceedings of the European Workshop on Structural Health Monitoring.
19	Wan, H.P. and Ni, Y.Q. (2018), "Bayesian modeling approach for forecast of structural stress response using structural health monitoring data", J. Struct. Eng., 144(9), 04018130. DOI
20	Trickey, S., Todd, M.D., Seaver, M.E. and Nichols, J.M. (2002), "Geometric time-domain methods of vibration-based damage detection", Paper presented at the Smart Nondestructive Evaluation for Health Monitoring of Structural and Biological Systems.
21	Wan, H.P. and Ren, W.X. (2014), "Parameter selection in finite-element-model updating by global sensitivity analysis using Gaussian process metamodel", J. Struct. Eng., 141(6), 04014164. DOI
22	Weber, B. and Paultre, P. (2009), "Damage identification in a truss tower by regularized model updating", J. Struct. Eng., 136(3), 307-316. DOI
23	Xu, Z.D. and Wu, K.Y. (2012), "Damage detection for space truss structures based on strain mode under ambient excitation", J. Eng. Mech., 138(10), 1215-1223. DOI
24	Yang, J. N., & Lin, S. (2005), "Identification of parametric variations of structures based on least squares estimation and adaptive tracking technique", J. Eng. Mech., 131(3), 290-298. DOI
25	Zhang, X., Sim, S., & Spencer Jr, B. (2008), "Finite element model updating of a truss model using incomplete modal data", Paper presented at the Proc. World Forum on Smart Materials and Smart Structures Technology.
26	Zimin, V. and Zimmerman, D. (2009), "Structural damage detection using time domain periodogram analysis", Struct. Health Monit., 8(2), 125-135. DOI
27	Choi, S. and Stubbs, N. (2004), "Damage identification in structures using the time-domain response", J. Sound Vib., 275(3-5), 577-590. DOI
28	Bakir, P.G., Reynders, E. and De Roeck, G. (2007), "Sensitivity-based finite element model updating using constrained optimization with a trust region algorithm", J. Sound Vib., 305(1-2), 211-225. DOI
29	Cattarius, J. and Inman, D. (1997), "Time domain analysis for damage detection in smart structures", Mech. Syst. Signal Pr., 11(3), 409-423. DOI
30	Cha, Y.J. and Buyukozturk, O. (2015), "Structural damage detection using modal strain energy and hybrid multiobjective optimization", Comput.-Aided Civil Infrastruct. Eng., 30(5), 347-358. DOI
31	Chou, J.H. and Ghaboussi, J. (2001), "Genetic algorithm in structural damage detection", Comput. Struct., 79(14), 1335-1353. DOI
32	Friswell, M. and Mottershead, J.E. (2013), "Finite element model updating in structural dynamics", (Vol. 38): Springer Science & Business Media.
33	Ghaffarzadeh, H. and Raeisi, F. (2016), "Damage identification in truss structures using finite element model updating and imperialist competitive algorithm", Jordan J. Civil Eng., 159(3317), 1-12.
34	Ghiasi, R., Fathnejat, H. and Torkzadeh, P. (2019), "A three-stage damage detection method for large-scale space structures using forward substructuring approach and enhanced bat optimization algorithm", Eng. with Comput., 35(3), 857-874. DOI