[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2012.41.1.025

Crack identification based on Kriging surrogate model

Gao, Hai-Yang (State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology)
Guo, Xing-Lin (State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology)
Hu, Xiao-Fei (State Key Laboratory of Structural Analysis for Industrial Equipment, Dalian University of Technology)

Publication Information

Structural Engineering and Mechanics / v.41, no.1, 2012 , pp. 25-41 More about this Journal

Abstract

Kriging surrogate model provides explicit functions to represent the relationships between the inputs and outputs of a linear or nonlinear system, which is a desirable advantage for response estimation and parameter identification in structural design and model updating problem. However, little research has been carried out in applying Kriging model to crack identification. In this work, a scheme for crack identification based on a Kriging surrogate model is proposed. A modified rectangular grid (MRG) is introduced to move some sample points lying on the boundary into the internal design region, which will provide more useful information for the construction of Kriging model. The initial Kriging model is then constructed by samples of varying crack parameters (locations and sizes) and their corresponding modal frequencies. For identifying crack parameters, a robust stochastic particle swarm optimization (SPSO) algorithm is used to find the global optimal solution beyond the constructed Kriging model. To improve the accuracy of surrogate model, the finite element (FE) analysis soft ANSYS is employed to deal with the re-meshing problem during surrogate model updating. Specially, a simple method for crack number identification is proposed by finding the maximum probability factor. Finally, numerical simulations and experimental research are performed to assess the effectiveness and noise immunity of this proposed scheme.

Keywords

Kriging surrogate model; crack identification; stochastic particle swarm optimization; probability factor;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)
Times Cited By Web Of Science : 0 (Related Records In Web of Science)
Times Cited By SCOPUS : 1

Reference
Cited By KSCI

1	Atalla, M.J. and Inman, D.J. (1998), "On model updating using neural networks", Mech. Syst. Signal Pr., 12(1), 135-161. DOI
2	Casciati, S. (2010), "Response surface models to detect and localize distributed cracks in a complex continuum", J. Eng. Mech. ASCE, 136(9), 1131-1142. DOI
3	Casciati, S. (2010), "Statistical approach to a SHM benchmark problem", Smart Struct. Syst., 6(1), 17-27. DOI
4	Chaudhari, T.D. and Maiti, S.K. (2000), "A study of vibration of geometrically segmented beams with and without crack", Int. J. Solids Struct., 37(5), 761-779. DOI
5	Cundy, A.L. (2002), "Use of response surface metamodels in damage identification of dynamic structures", Master Thesis, Virgina Polytechnic Institute and State University, Virginia, US.
6	Dimarogonas, A.D. and Paipetis, S.A. (1983), Analytical Methods in rotor dynamics, Elsevier Applied Science, London.
7	Doebling, S.W., Farrar, C.R. and Prime, M.B. (1998), "A summary review of vibration-based damage identification methods", Shock. Vib., 30(2), 91-105. DOI
8	Fang, S.E. and Perera, R. (2011), "Damage identification by response surface based model updating using Doptimal design", Mech. Syst. Signal Pr., 25(2), 717-733. DOI
9	Faravelli, L. and Casciati, S. (2004), "Structural damage detection and localization by response change diagnosis", Prog. Struct. Eng. Mater., 6(2), 104-115. DOI
10	Forrester, A.I.J. and Keane, A.J. (2009), "Recent advances in surrogate-based optimization", Prog. Aerosp. Sci., 45(1-3), 50-79. DOI
11	Gao, Y.H. (2008), "Optimization methods based on Kriging surrogate model and their application in injection molding", Ph. D. Thesis, Dalian University of Technology, Dalian, PRC.
12	GaoY.H., Turng, L.S. and Wang, X.C. (2008), "Adaptive geometry and process optimization for injection molding using the Kriging surrogate model trained by numerical simulation", Adv. Poly. Tech., 27(1), 1-16. DOI
13	Gao, Y.H. and Wang, X.C. (2008), "An effective warpage optimization method in injection molding based on the Kriging model", Int. J. Adv. Manuf. Tech., 37(9-10), 953-960. DOI
14	Gudmundson, P. (1982), "Eigenfrequency changes of structures due to cracks, notches or other geometrical changes", J. Mech. Phys. Solids., 30(5), 339-353. DOI
15	Gudmundson, P. (1983), "The dynamic behaviour of slender structures with cross-sectional cracks", J. Mech. Phys. Solids., 31(4), 329-345. DOI
16	Hu, J. and Liang, R.Y. (1993), "An integrated approach to detection of cracks using vibration characteristics", J. Frankin Institute, 330(5), 841-853. DOI
17	Huang, Z., Wang, C., Chen, J. and Tian, H. (2011), "Optimal design of aeroengine turbine disc based on Kriging surrogate models", J. Comput. Struct., 89(1-2), 27-37 DOI
18	Jones, D.R., Schonlau, M. and Welch, W.J. (1998), "Efficient global optimization of expensive black-box functions", J. Glob. Optim., 13(4), 455-492. DOI
19	Lam, H.F. and Ng, C.T. (2008), "A probabilistic method for the detection of obstructed cracks of beam-type structures using spatial wavelet transform", Probab. Eng. Mech., 23(2-3), 237-245. DOI
20	Kisa, M. and Brandon, J.A (2000), "Free vibration analysis of multiple open-edge cracked beams by component mode synthesis", Struct. Eng. Mech., 10(l), 81-92. DOI
21	Lee, J. (2009a), "Identification of multiple cracks in a beam using vibration amplitudes", J. Sound Vib., 326(1-2), 205-212. DOI
22	Lee, J. (2009b), "Identification of multiple cracks using natural frequencies", J. Sound Vib., 320(3), 482-490. DOI
23	Lee, J.J., Lee, J.W., Yi, J.H., Yun, C.B. and Jung, H.Y. (2005), "Neural networks-based damage detection for bridges considering errors in baseline finite element models", J. Sound Vib., 280(3-5), 555-578. DOI
24	Lele, S.P. and Maiti, S.K. (2002), "Modelling of transverse vibration of short beams for crack detection and measurement of crack extension", J. Sound Vib., 257(3), 559-583. DOI
25	Liang, R.Y., Choy, F.K. and Hu, J. (1991), "Detection of cracks in beam structures using measurements of natural frequencies", J. Frankin Institute, 328(4), 505-518. DOI
26	Nandwana, B.P. and Maiti, S.K. (1997), "Detection of the location and size of a crack in stepped cantilever beams based on measurements of natural frequencies", J. Sound Vib., 203(3), 435-446. DOI
27	Ostachowicz, W.M. and Krawczuk, M. (1991), "Analysis of the effect of cracks on the natural frequencies of a cantilever beam", J. Sound Vib., 150(2), 191-201. DOI
28	Patil, D.P. and Maiti, S.K. (2003), "Detection of multiple cracks using frequency measurements", Eng. Fract. Mech., 70(12), 1553-1572. DOI
29	Perera, R. and Ruiz, A. (2008), "A multistage FE updating procedure for damage identification in large-scale structures based on multiobjective evolutionary optimization", Mech. Syst. Signal Pr., 22(4), 970-991. DOI
30	Qi, H., Ruan, L.M., Zhang, H.C., Wang, Y.M. and Tan, H.P. (2007), "Inverse radiation analysis of a onedimensional participating slab by stochastic particle swarm optimizer algorithm", Int. J. Therm. Sci., 46(7), 649-661. DOI
31	Ren, W.X. and Chen, H.B. (2010), "Finite element model updating in structural dynamics by using the response surface method", Eng. Struct., 32(8), 2455-2465. DOI
32	Sacks, J., Welch, W.J., Mitchell, T.J. and Wynn, H.P. (1989), "Design and analysis of computer experiments", Stat. Sci., 4(4), 409-435. DOI
33	Sakata, S., Ashida, F. and Zako, M. (2003), "Structural optimization using Kriging approximation", Comput. Methods Appl. Mech. Eng., 192(7-8), 923-939. DOI
34	Sakata, S., Ashida, F. and Zako, M. (2004), "An efficient algorithm for Kriging approximation and optimization with large-scale sampling data", Comput. Methods Appl. Mech. Eng., 193(3-5), 385-404. DOI
35	Sakata, S., Ashida, F. and Zako, M. (2007), "On applying Kriging-based approximate optimization to inaccurate data", Comput. Meth. Appl. Mech. Eng., 196(13-16), 2055-2069. DOI
36	Shifrin, E.I. and Ruotolo, R. (1999), "Natural frequencies of a beam with an arbitrary number of cracks", J. Sound Vib., 222(3), 409-423. DOI
37	Shyy, W., Papila, N., Vaidyanathan, R. and Tucker, K. (2001), "Global design optimization for aerodynamics and rocket propulsion components", Prog. Aerosp. Sci., 37(1), 59-118. DOI
38	Simpson, T.W., Poplinski, J.D., Koch, P.N. and Allen, J.K. (2001), "Meta-models for computer-based engineering design: survey and recommendations", Eng. Comput., 17(2), 129-150. DOI
39	Zheng, D.Y. and Fan, S.C. (2001a), "Natural frequencies of a non-uniform beam with multiple cracks via modied Fourier series", J. Sound Vib., 242(4), 701-717. DOI
40	Zheng, D.Y. and Fan, S.C. (2001b), "Natural frequency changes of a cracked Timoshenko beam by modied Fourier series", J. Sound Vib., 246(2), 297-317. DOI
41	Zitzler, E. and Thiele, L. (1999), "Multiobjective evolutionary algorithms: a comparative case study and the strength Pareto approach", IEEE T. Evolut. Comput., 3(4), 257-271. DOI

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	J. Zhang. (2014) Finite Elements in Analysis and Design Calibration of initial cable forces in cable-stayed bridge based on Kriging approach / 92 , 80
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2	(2012) Water science & technology--water supply Adaptive Kriging surrogate model for the optimization design of a dense non-aqueous phase liquid-contaminated groundwater remediation process / 15 (2) , 263
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