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Leveraging Technology for Performance Based Bridge Engineering

In this Back to Basics, the authors discuss the challenging task of performing structural health monitoring (SHM) in the civil constructed environment. The paper describes the application of SHM to bridges for the objective analysis of lifecycle benefit/cost or performance based engineering of the system.

References
Aktan, A.E. and F.L. Moon, “ASCE-SEI Performance of Structures Track Technical Committee: Structural Identification of Constructed Systems,” www.di3.drexel.edu, 2005. Aktan, A.E., B.R. Ellingwood and B. Kehoe, “Performance- Based Engineering of Constructed Systems,” Journal of Structural Engineering, Vol. 133, 2007, pp. 311–323. Andersen, P. and P.H. Kirkegaard, “Statistical Damage Detection of Civil Engineering Structures Using ARMAV Models,” Proceedings of the 16th International Modal Analysis Conference (IMAC), Santa Barbara, California, 1998, pp. 356–362. Bodeux, J.B. and J.C. Golinval, “Application of ARMAV Models to Identification and Damage Detection of Mechanical and Civil Engineering Structures,” Smart Materials and Structures, Vol. 10, 2001, pp. 479–489. Chang, C.C., T.Y.P Chang and Q.W. Zhang, “Ambient Vibration of Long-Span Cable-Stayed Bridge,” Journal of Bridge Engineering, Vol. 6, 2001, pp. 46–53. de Neufville, R., Applied Systems Analysis, Engineering Planning and Technology, New York, McGraw-Hill, 1990. de Neufville, R. and A.R. Odoni, Airport Systems: Planning, Design, and Management, New York, McGraw- Hill, 2003. Doebling, S.W., C.R. Farrar, M.B. Prime and D.W. Shevitz, “Damage Identification and Health Monitoring of Structural and Mechanical Systems from Changes in Their Vibration Characteristics: A Literature Review,’’ Report No. LA-13-70-MS, Los Alamos, Los Alamos National Laboratory, 1996. Federal Highway Administration, Life-Cycle Cost Analysis, RealCost, User Manual, Washington, FHWA, 2004. Ghanem, R. and M. Shinozuka, “Structural-System Identification I: Theory,” Journal of Engineering Mechanics, Vol. 121, 1995, pp. 255–264. Hart, G.C. and J.T.P. Yao, “System Identification in Structural Dynamics,” Journal of Engineering Mechanics, Vol. 103, 1977, pp. 1089–1104. Jin, S. and R.A. Livingston, “Chaos Theory Analysis of a Cable-Stayed Bridge: Part I — Modeling of the Bill Emerson Cable-Stayed Bridge,” SPIE International Symposium: Smart Structures & Materials/NDE for Health Monitoring and Diagnostics, San Diego, March 2006. Liu, S.C. and J.T.P. Yao, “Structural Identification Concept,” Journal of the Structural Division (ASCE), Vol. 104, 1978, pp. 1845–1858. Livingston, R.A., S. Jin and G. Chen, “Chaos Theory Analysis of a Cable-Stayed Bridge: Part II — Analysis of Monitoring Data for Base-Line Conditions, SPIE International Symposium: Smart Structures & Materials/NDE for Health Monitoring and Diagnostics, San Diego, March 2006. Masri, S.F., M. Nakamura, A.G. Chassiakos and T.K. Caughey, “Neural Network Approach to Detection of Changes in Structural Parameters,” Journal of Engineering Mechanics, Vol. 122, 1996, pp. 350–360. Moon, F.L. and A.E. Aktan, “Impacts of Epistemic Uncertainty on Structural Identification of Constructed Systems,” Shock and Vibration Digest, Vol. 38, 2006. Mottorshead, J.E. and M.I. Friswell, “Model Updating in Structural Dynamics: A Survey,” Journal of Sound and Vibration, Vol. 167, 1993, pp. 347–375. Nakamura, M., S.F. Masri, A.G.M. Chassiakos and T.K. Caughey, “Method for Nonparametric Damage Detection through the Use of Neural Networks,” Earthquake Engineering and Structural Dynamics, Vol. 27, 1998, pp. 997–1010. National Cooperative Highway Research Program, Report 551, Performance Measures and Targets for Transportation Asset Management, Washington, Transportation Research Board, 2002. National Cooperative Highway Research Program, Project 20-68, U.S. Domestic Scan Program Progress Summary, Washington, Transportation Research Board, 2006. National Research Council, National Academies Workshop, “Sustainable Critical Infrastructure Systems — A Framework for Meeting 21st Century Imperatives,” www.nap.edu, 2007. Nervi, Pier Luigi and R. Einaudi, Aesthetics and Technology in Building, Cambridge, Harvard, 1965. Shinozuka, M. and R. Ghanem, “Structural-System Identification II: Experimental Verification,” Journal of Engineering Mechanics, Vol. 121, 1995, pp. 265–273. Thompson, P., Bridge Management Systems: Where Should We Go from Here?,” Bridge Maintenance, Safety, Management and Cost Conference, 2004. US Department of Transportation, Asset Management Primer, Washington, Office of Asset Management, US Department of Transportation, 1999. US Government Accountability Office, Transportation Infrastructure: States’ Implementation of Transportation Management Systems, Washington, US General Accounting Office, 1997. US Government Accounting Standards Board, Statement 34, www.gasb.org/repmodel, 1999. Zapico, J.L., M.P. Gonzalez and K. Worden, “Damage Assessment Using Neural Networks,” Mechanical Systems and Signal Processing, Vol. 17, 2003, pp. 119–125.
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