[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/sem.2016.60.4.729

Structural damage identification using gravitational search algorithm

Liu, J.K. (Department of Applied Mechanics, Sun Yat-sen University)
Wei, Z.T. (Department of Applied Mechanics, Sun Yat-sen University)
Lu, Z.R. (Department of Applied Mechanics, Sun Yat-sen University)
Ou, Y.J. (Department of Mechanics and Civil Engineering, Jinan University)

Publication Information

Structural Engineering and Mechanics / v.60, no.4, 2016 , pp. 729-747 More about this Journal

Abstract

This study aims to present a novel optimization algorithm known as gravitational search algorithm (GSA) for structural damage detection. An objective function for damage detection is established based on structural vibration data in frequency domain, i.e., natural frequencies and mode shapes. The feasibility and efficiency of the GSA are testified on three different structures, i.e., a beam, a truss and a plate. Results show that the proposed strategy is efficient for determining the locations and the extents of structural damages using the first several modal data of the structure. Multiple damages cases in different types of structures are studied and good identification results can be obtained. The effect of measurement noise on the identification results is investigated.

Keywords

damage identification; gravitational search algorithm; vibration data; frequency domain; modal assurance criteria;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Rashedi, E., Nezamabadi-Pour, H. and Saryazdi, S. (2011), "Filter modeling using gravitational search algorithm", Eng. Appl. Artif. Intel., 24(1), 117-122. DOI
2	Sahoo, B. and Maity, D. (2007), "Damage assessment of structures using hybrid neuro-genetic algorithm", Appl. Soft Comput., 7(1), 89-104. DOI
3	Sarafrazi, S. and Nezamabadi-pour, H. (2013), "Facing the classification of binary problems with a GSASVM hybrid system", Math. Comput. Model., 57(1), 270-278. DOI
4	Shi, Y.H. and Eberhart, R. (1998), "A modified particle swarm optimizer", Evolutionary Computation Proceedings of the IEEE World Congress on Computational Intelligence, 69-73.
5	Su, Z.K. and Wang H.L. (2015), "A novel robust hybrid gravitational search algorithm for reusable launch vehicle approach and landing trajectory optimization", Nerocomput., 162, 116-127. DOI
6	Vakil-Baghmisheh, M.T., Peimani, M., Sadeghi, M.H. and Ettefagh, M.M. (2008), "Crack detection in beam-like structures using genetic algorithms", Appl. Soft Comput., 8(2), 1150-1160. DOI
7	Vakil Baghmisheh, M.T., Peimani, M., Sadeghi, M.H., Ettefagh, M.M. and Tabrizi, A.F. (2012), "A hybrid particle swarm-Nelder-Mead optimization method for crack detection in cantilever beams", Appl. Soft Comput., 12(8), 2217-2226. DOI
8	Xu, H.J., Ding, Z.H., Lu, Z.R. and Liu, J.K. (2015), "Structural damage detection based on Chaotic Artificial Bee Colony algorithm", Struct. Eng. Mech., 55(6), 1223-1235. DOI
9	Xu, B.C. and Zhang, Y.Y. (2014), "An improved gravitational search algorithm for dynamic neural network identification", Int. J. Automat. Comput., 11(4), 434-440. DOI
10	Yuan, X.H., Chen, Z.H. Yuan, Y.B. (2015), "A strength Pareto Gravitational Search Algorithm for multiobjective optimization problems", Int. J. Patt. Recog. Artif. Intel., 29(6), 1559010. DOI
11	Bahrololoum, A., Nezamabadi-Pour, H., Bahrololoum, H. and Saeed, M. (2012), "A prototype classifier based on gravitational search algorithm", Appl. Soft Comput., 12(2), 819-825. DOI
12	Begambre, O. and Laier, J.E. (2009), "A hybrid Particle Swarm Optimization-Simplex algorithm (PSOS) for structural damage identification", Adv. Eng. Softw., 40(9), 883-891. DOI
13	Buezas, F.S., Rosales, M.B. and Filipich, C.P. (2011), "Damage detection with genetic algorithms taking into account a crack contact model", Eng. Fract. Mech., 78(4), 695-712. DOI
14	Chou, J.H. and Ghaboussi, J. (2001), "Genetic algorithm in structural damage detection", Comput. Struct., 79(14), 1335-1353. DOI
15	Doebling, S.W., Farrar, C.R. and Prime, M.B. (1998), "A summary review of vibration-based damage identification methods", Shock Vib. Dig., 30(2), 91-105. DOI
16	Eberhart, R.C. and Kennedy, J. (1995), "A new optimizer using particle swarm theory". Proceedings of the sixth International Symposium on Micro Machine and Human Science, New York, NY.
17	Farivar, F. and Shoorehdeli, M.A. (2016), "Stability analysis of particle dynamics in gravitation search optimization algorithm", Inform. Sci., 337-338, 25-43. DOI
18	He, R.S. and Hwang, S.F. (2006), "Damage detection by an adaptive real-parameter simulated annealing genetic algorithm", Comput. Struct., 84(31), 2231-2243. DOI
19	Ghorbani, F. and Nezamabadi-pour, H. (2012), "On the convergence analysis of gravitational search algorithm", J. Adv. Comput. Res., 3(2), 45-51.
20	Hao, H. and Xia, Y. (2002), "Vibration-based damage detection of structures by genetic algorithm", J. Comput. Civil Eng., 16(3), 222-229. DOI
21	Housner, G.W., Bergman, L.A., Caughey, T., Chassiakos, A., Claus, R., Masri, S. and Yao, J.T. (1997), "Structural control: past, present, and future", J. Eng. Mech., 123(9), 897-971. DOI
22	Kang, F., Li, J.J. and Xu, Q. (2012), "Damage detection based on improved particle swarm optimization using vibration data", Appl. Soft Comput., 12(8), 2329-2335. DOI
23	Kennedy, J. and Eberhart, R. (1995), "Particle swarm optimization", Proceedings of IEEE International Conference on Neural Networks, Perth, Australia.
24	Khatibinia, M. and Naseralavi, S.S. (2014), "Truss optimization on shape and sizing with frequency constraints based on orthogonal multi-gravitational search algorithm", J. Sound Vib., 333(24), 6349-6369. DOI
25	Li, C. and Zhou, J. (2011), "Parameters identification of hydraulic turbine governing system using improved gravitational search algorithm", Energy Convers. Manag., 52(1), 374-381. DOI
26	Li, S. and Lu, Z.R. (2015), "Multi-swarm fruit fly optimization algorithm for structural damage identification", Struct. Eng. Mech., 56(3), 409-422. DOI
27	Mohan, S., Maiti, D.K. and Maity, D. (2013), "Structural damage assessment using FRF employing particle swarm optimization", Appl. Math. Comput., 219(20), 10387-10400. DOI
28	Poli, R., Kennedy, J. and Blackwell, T. (2007), "Particle swarm optimization", Swarm Intel., 1(1), 33-57. DOI
29	Rashedi, E., Nezamabadi-pour, H. and Saryazdi, S. (2009), "GSA: a gravitational search algorithm", Inform. Sci., 179(13), 2232-2248. DOI