A SUMMARY REVIEW OF RECENT ADVANCES IN RESEARCH ON STRUCTURAL HEALTH MONITORING FOR CIVIL ENGINEERING INFRASTRUCTURES
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摘要: 对于大量进入老龄和维护期的土木工程结构,其安全性倍受重视,而具有多学科交叉特点的结构健康监测技术则是支撑土木工程基础设施安全运行和适时维护的一个有力工具。首先对各种结构损伤检测方法和无线智能传感技术的最新研究成果进行了回顾和评述;讨论了在线结构健康监测系统的关键问题;最后对结构健康监测和损伤检测领域今后的发展方向进行了展望。Abstract: The structural health monitoring (SHM) with the characteristic of multidisciplinary is a powerful tool to support the operational safety and appropriate maintenance for civil engineering infrastructures. The recent advances in research on varieties of damage detection methods and wireless smart sensing technology are stated. The focuses of the online SHM are discussed and the potential challenges in the future to SHM and damage detection are addressed.
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.Doebling S W, Farrar C R, Prime M B. A Summary Review of Vibration based Damage Identification method [J]. The Shock and Vibration Digest, 1998, 30(2): 91-105. [2] .Sohn H, Farrar C R, Hemez F M. A Review of Structural Health Monitoring Literature: 1996-2001 [R]. Los Alamos National Laboratory Report , LA-13976??MS, 2004. [3] .宗周红, 任伟新, 阮毅. 土木工程结构损伤诊断研究进展[J]. 土木工程学报, 2003, 36(5): 105-110. [4] .Rytter A. Vibration Based Inspection of Civil Engineering Structures[D]. [Ph. D. dissertation] :Aalborg University, Denmark, 1993. [5] .Farrar C R, Worden K. An Introduction to Structural Health Monitoring[J]. Phil.Trans. R. Soc. , 2007, 365: 303-315. [6] .Giraldo D F. A Structural Health Monitoring Frame??work for Civil Structures[D]: [Ph. D. dissertation]. Washington University, Saint Louis, Missouri, USA, 2006. [7] .Humar J , Bagchi A, Xu H. Performance of Vibration??based Techniques for the Identification of Structural Damage[J]. Structural Health Monitoring, 2006, 5(3): 215-241. [8] .Yan Y J, Cheng L, Wu Z Y, et al. Develoment in Vibration based Structural Damage Detection Technique[J]. Mechanical Systems and Signal Processing, 2007, 21: 2198-2211. [9] .Sophia H, Karolos H. Damage Detection Using Impulse Response[J]. Nonlinear Analysis, Theory, Methods Applications, 1997, 30(8): 4 757-4 764. [10] .Pandey A K, Biswas M, Samman M M. Damage Detection from Changes in Curvature Model Shapes [J]. Journal of Sound and Vibration, 1991, 145(2): 321-332. [11] .Pandey A K, Biswas M. Damage Detection in Structures Using Changes in Flexibility. Journal of Sound and Vibration, 1994, 169(1): 3-17. [12] .Bernal D. Load Vectors for Damage Localization [J]. Journal of Engineering Mechanics,ASCE, 2002, 128(1): 7-14. [13] .Gao Y, Spencer Jr B F, Bernal D. Experimental Verification of the Flexibility??based Damage Locating Vector Method [J]. Journal of Engineering Mechanics, ASCE, 2007, 133(10): 1043-1049. [14] .Hadjileontiadis L J, Douka E, Trochidis A. Fractal Dimension Analysis for Crack Identification in Beam Structures [J]. Mechanical Systems and Signal Processing, 2005, 19(3): 659-674. [15] .Zhang Z, Aktan A E. Application of Modal Flexibility and its Derivatives in Structural Identification[J]. Research in Nondestructive Evaluation, 1998, 10(1): 43-61. [16] .Wu D, Law S S. Damage localization in Plate Structures from Uniform Load Surface Curvature [J]. Journal of Sound and Vibration, 2004, 276: 227-244. [17] .Wang J, Qiao P. Improved Damage Detection for Beam-type Structures Using a Uniform Load Structure [J]. Structural Health monitoring, 2007, 6(2): 99-110. [18] .Yang J N, Lei Y, Lin S, et al. Hilbert-Huang Based Approach for Structural Damage Detection[J]. Journal of Engineering Mechanics, ASCE, 2004, 130(1): 85-95. [19] .Ma T W, Yang H T, Chang C C. Structural Damage Diagnosis and Assessment under Seismic Excitations [J]. Journal of Engineering Mechanics, ASCE, 2005, 131(10): 1036-1045. [20] .Park S, Bolt on R W, Stubbs N. Blind Test Results for Nondestructive Damage Detection in a Steel Frame [J]. Journal of Structural Engineering, ASCE, 2006, 132(5): 800-809. [21] .Jaishi B, Ren W X. Damage Detection by Finite Element Model Updating Using Modal Flexibility Residual [J]. Journal of Sound and Vibration, 2006, 290: 369-387. [22] .Yuen K, Beck J L, Kat afygiotis L S. Efficient Model Updating and Health Monitoring Methodology using Incomplete Modal Data Without Mode Matching [J]. Structural Control and Health Monitoring, 2006, 13: 91-107. [23] .Messina A, Williams E J, Contursi T. Structural Damage Detection by a Sensitivity and Statistical??basedMethod[J]. Journal of Sound and Vibration, 1998, 216(5): 791-808. [24] .SohnH, Czarnecki J A, Farrar C R. Structural Health Monitoring Using Statistical Process Control [J]. Journal of Structural Engineering, ASCE, 2000, 126(11): 1356-1363. [25] .Bodeux J B, Golinval J C. Application of ARMAV Models to the Identification and Damage Detection of Mechanical and Civil Engineering Structures[J]. Smart Materials and Structures, 2001, 10: 479-489. [26] .Lam H F, Katafygiotis L S, Mickleborough N C. Application of Statistical Model Updat ing Approach on Phase I of the IASC??ASCE Structural Health Monitoring Benchmark Study [J]. Journal of Engineering Mechanics, ASCE, 2004, 130(1): 34-48. [27] .Erdogan A, Mahmoud M R T, David S E, et al. Damage Pattern Recognition for Structural Health Monitoring Using Fuzzy Similarity Prescription[J]. Computer??Aided Civil and Infrastructure Engineering, 2006, 21: 549-560. [28] .Newland D E. Wavelet Analysis of Vibration. Part 1: theory [J]. Journal of Vibration and Acoustics, 1994, 116: 409-416. [29] .Staszewski W J. Structural and Mechanical Damage Detection Using Wavelets[J]. The Shock and Vibration Digest, 1998, 30 (6): 457-472. [30] .Wang Q, Deng X. Damage Detection with Spatial Wavelets [J]. Insternational Journal of Solids and Structures, 1999, 36: 3443-3468. [31] .李宏男, 孙鸿敏. 小波分析在土木工程领域中的应用[J]. 世界地震工程, 2003, 19(2): 16-22. [32] .Sun Z, Chang C C. Structural Damage Assessment Based on Wavelet Packet Transform[J]. Journal of Structural Engineering, ASCE, 2002, 128(10): 1354-1361. [33] .Barai S V, Pandey P C. Time delay Neural Networks in Damage Detection of Railway Bridges [J]. Advances in Engineering Software, 1997, 28: 1-10. [ 34].Masri S F, Smyth A W, Chassiakos A G, et al. Application of Nueural Networks for Detection of Changes in Nonlinear Systems[J]. Journal of Engineering Mechani cs,ASCE, 2000, 126(7): 666-676. [35] .Fang X, Luo H, Tang J. Structural Damage Detection Using Neural Network with Learning Rate Improvement [J]. Computers and Structures, 2005, 83: 2150-2161. [36] . Adeli H, Jiang X. Dynamic Fuzzy Wavelet Neural NetworkModel for Structural System Identification[J]. Journal of Structural Engineering, ASCE, 2006, 132(1): 102-111. [37] .Perera R, Torres R. Structural Damage Detection Via Modal Data with Genetic Algorithms[J]. Journal of Structural Engineering, ASCE, 2006, 132(9): 1491-1501. [38] .Sanayei M, Onipede O. Damage Assessment of Structure Using Static Test Data[J]. AIAA Journal, 1991, 29(7): 1174-1179. [39] .banan Mo R, Banan Ma R, Hjelmstad K D. Parameter Estimation of Structures from Static Response. Ⅰ: Computational aspects [J]. Journal of Structural Engineering, 1994, 120(11): 3243-3258. [40] .Hjelmstad K D, Shin S. Damage Detection and Assessment of Structures from Static Response [J]. Journalf of Engineering Mechanics, 1997, 123(6): 568-576. [41] .Sanayei M, Saletnik M J. Parameter Estimation of Structures from Static Strain Measurements. I: Formulation[J]. Journal of Structural Engineering, 1996, 122(5), 555-562. [42] .Sanayei M, Saletnik M J. Parameter Estimation of Structures from Static Strain Measurements. Ⅱ: Error Sensitivity Analysis[J]. Journal of Structural Engineering, 1996, 122(5): 563-572. [43] .Liu P L, Chian C C. Parameteric Identification of Truss Structures Using Static Strains[J]. Journal of Engineering Mechanics, 1997, 123(7): 927-933. [44] .Chou J H, Ghaboussi J. Genetic Algorithm in Structural Damage Detection[J]. Computers Structures, 2001, 79(14): 1335-1353. [45] .ShentonH W, Hu X. Damage Identification Based on Dead Load Redistribution: Methodology [J]. Journal of Structural Engineering, ASCE, 2006, 132(8): 1254-1263. [46] .Park H S, Lee H M, Adeli H. A New Approach for Health Monitoring of Structures: Terrestrial Laser Scanning [J]. Computer Aided Civil and Infrastructure Engineering, 2007, 22: 19-30. [47] .Shah S P, Popovics J S, Subramaniam K V, et al. New Directions in Concrete Health Monitoring Technology [J]. Journal of Engineering Mechanics, ASCE, 2000, 126(7): 754-760. [48] .Victor G, Adrian C. Embedded Nondestructive Evaluation for Structural Health Monitoring, Damage Detection, and Failure Prevention[J]. The Shock and Vibration Digest, 2005, 37 (2): 83-105. [49] .Raghavan A, Cesnik C E S. Review of Guided??wave Structural Health Monitoring[J]. The Shock and Vibration Digest, 2007, 39 (2): 91-114. [50] .Gao Y, Spencer Jr B F, Ruiz Sandoval M E. Distributed COmputing Strategy for Structural Health Monitoring[J]. Structural COntrol and Health Monitoring, 2006, 13: 488- 507. [51] .Ruiz??sandoval M, nagyama T, Spencer Jr B F. Sensor Development Using Berkeley Mote Platform [J]. Journal of Earthquake Engineering, 2006, 10(2): 289-309. [52] .Spencer Jr B F, Ruiz Sandoval M E, Kurata N. Smart Sensing Technology: Opportunit ies and Challenges[J]. Structural Control and Health Monitoring, 2004, 11: 349-368. [53] .Lynch J P, Loh K J. A Summary Review of Wireless Sensors and Sensor Networks for St ructural Health Monit oring[J]. The Shock and Vibration Digest, 2006, 38(2): 91-128. [54] .Gu H, Zhao Y, Wang M L. A Wireless Smart PVDF Sensor for Structural Health Monitoring [J]. Structural Control and Health Monitoring, 2005, 12: 329-343. [55] .Sodano H A, Inman D J, Part G. A Review of Power Harvesting from Vibration Using Piezoelectric Materials[J]. The Shock and Vibration Digest, 2004, 36(3): 197-205. [56] .Farrar C R, Lieven N A J. Damage Prognosis: the Future of Structural Health Monitoring[J]. Phil.Trans. R. Soc., 2007, 365: 623-632.
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