On model-based damage detection by an enhanced sensitivity function of modal flexibility and LSMR-Tikhonov method under incomplete noisy modal data (original) (raw)
Farrar CR, Worden K (2007) An introduction to structural health monitoring. Philos Trans R Soc A Math, Phys Eng Sci 365(1851):303–315 Article Google Scholar
Farrar CR, Lieven NA (2007) Damage prognosis: the future of structural health monitoring. Philos Trans R Soc London A Math Phys Eng Sci 365(1851):623–632 Google Scholar
Ghiasi R, Fathnejat H, Torkzadeh P (2019) A three-stage damage detection method for large-scale space structures using forward substructuring approach and enhanced bat optimization algorithm. Eng Comput 35(3):857–874. https://doi.org/10.1007/s00366-018-0636-0 Article Google Scholar
Sehgal S, Kumar H (2016) Structural dynamic model updating techniques: a state of the art review. Arch Comput Methods Eng 23(3):515–533 Article Google Scholar
Entezami A, Shariatmadar H, Karamodin A (2019) Data-driven damage diagnosis under environmental and operational variability by novel statistical pattern recognition methods. Struct Health Monit 18(5–6):1416–1443. https://doi.org/10.1177/1475921718800306 Article Google Scholar
Sarmadi H, Entezami A, Daneshvar Khorram M (2020) Energy-based damage localization under ambient vibration and non-stationary signals by ensemble empirical mode decomposition and Mahalanobis-squared distance. J Vib Control 26(11–12):1012–1027. https://doi.org/10.1177/1077546319891306 ArticleMathSciNet Google Scholar
Sarmadi H, Karamodin A (2020) A novel anomaly detection method based on adaptive Mahalanobis-squared distance and one-class kNN rule for structural health monitoring under environmental effects. Mech Syst Signal Process 140:106495. https://doi.org/10.1016/j.ymssp.2019.106495 Article Google Scholar
Mishra M, Bhatia AS, Maity D (2019) A comparative study of regression, neural network and neuro-fuzzy inference system for determining the compressive strength of brick–mortar masonry by fusing nondestructive testing data. Eng Comput. https://doi.org/10.1007/s00366-019-00810-4 Article Google Scholar
Worden K, Farrar C, Manson G, Park G (2007) The fundamental axioms of structural health monitoring. Proc R Soc A Math Phys Eng Sci 463(2082):1639 Google Scholar
Rahai A, Bakhtiari-Nejad F, Esfandiari A (2007) Damage assessment of structure using incomplete measured mode shapes. Struct Control Health Monit 14(5):808–829. https://doi.org/10.1002/stc.183 Article Google Scholar
Esfandiari A, Bakhtiari-Nejad F, Rahai A (2013) Theoretical and experimental structural damage diagnosis method using natural frequencies through an improved sensitivity equation. Int J Mech Sci 70:79–89. https://doi.org/10.1016/j.ijmecsci.2013.02.006 Article Google Scholar
Zhao J, DeWolf JT (1999) Sensitivity study for vibrational parameters used in damage detection. J Struct Eng 125(4):410–416 Article Google Scholar
Sung S, Koo K, Jung H (2014) Modal flexibility-based damage detection of cantilever beam-type structures using baseline modification. J Sound Vib 333(18):4123–4138 Article Google Scholar
Bernal D, Gunes B (2004) Flexibility based approach for damage characterization: benchmark application. J Eng Mech 130(1):61–70 Article Google Scholar
Duan Z, Yan G, Ou J, Spencer BF (2007) Damage detection in ambient vibration using proportional flexibility matrix with incomplete measured DOFs. Struct Control Health Monit 14(2):186–196 Article Google Scholar
Zare Hosseinzadeh A, Ghodrati Amiri G, Seyed Razzaghi SA, Koo KY, Sung SH (2016) Structural damage detection using sparse sensors installation by optimization procedure based on the modal flexibility matrix. J Sound Vib 381((Supplement C)):65–82. https://doi.org/10.1016/j.jsv.2016.06.037 Article Google Scholar
Yang Q (2009) A mixed sensitivity method for structural damage detection. Int J Numer Methods Biomed Eng 25(4):381–389 MATH Google Scholar
Li J, Wu B, Zeng Q, Lim CW (2010) A generalized flexibility matrix based approach for structural damage detection. J Sound Vib 329(22):4583–4587 Article Google Scholar
Yan W-J, Ren W-X (2014) Closed-form modal flexibility sensitivity and its application to structural damage detection without modal truncation error. J Vib Control 20(12):1816–1830 ArticleMathSciNet Google Scholar
Titurus B, Friswell M (2008) Regularization in model updating. Int J Numer Meth Eng 75(4):440–478 ArticleMathSciNet Google Scholar
Weber B, Paultre P, Proulx J (2009) Consistent regularization of nonlinear model updating for damage identification. Mech Syst Signal Process 23(6):1965–1985 Article Google Scholar
Hou R, Xia Y, Zhou X (2018) Structural damage detection based on _l_1 regularization using natural frequencies and mode shapes. Struct Control Health Monit 25(3):e2107. https://doi.org/10.1002/stc.2107 Article Google Scholar
O’Callahan JC, Avitabile P, Riemer R (1989) System equivalent reduction expansion process. Paper presented at the Seventh international modal analysis conference, Las Vegas, Nevada, USA