Graduate researcher: Beliz Ugurhan
Project sponsors: Pacific Earthquake Engineering Research Center, National Science Foundation
Collaborators: Greg Deierlein, Stanford; Abbie Liel, University of Colorado; Curt Haselton, California State University, Chico, Michael Faber, Technical University of Denmark; Yahya Bayraktarli, BKW FMB Energy
An alternate fragility function definition that facilitates correlation of component damage (from Baker, 2008).
Assessing reliability analysis of engineered systems generally requires consideration of model uncertainty due to lack of knowledge (also known as epistemic uncertainty). Quantifying this uncertainty, and capturing its effect as it propagates through the reliability analysis procedure, is important if one wants an accurate picture of the reliability of the system being studied. The publications listed below show a variety of quantification and propagation approaches for characterizing model uncertainty.
|Ugurhan, B., Baker, J. W., and Deierlein, G. G. (2013). “Incorporating model uncertainty in collapse reliability assessment of buildings.” 11th International Conference on Structural Safety & Reliability, New York, NY, 8p.|
|Bayraktarli, Y. Y., Baker, J. W., and Faber, M. H. (2011). “Uncertainty treatment in earthquake modeling using Bayesian probabilistic networks.” GeoRisk, 5(1), 44–58.|
|Liel A., Haselton C., Deierlein G.G., and Baker J.W. (2009). "Incorporating modeling uncertainties in the assessment of seismic collapse risk of buildings," Structural Safety, 31 (2), 197-211.|
|Baker J.W. and Cornell C.A. (2008). Uncertainty Propagation in Probabilistic Seismic Loss Estimation, Structural Safety, 30 (3), 236-252.|
|Baker J.W. (2008). Introducing correlation among fragility functions for multiple components, in 14th World Conference on Earthquake Engineering, Beijing, China. 8 pp.|
|Baker, J.W. and Cornell, C.A. (2003). Uncertainty Specification and Propagation for Loss Estimation Using FOSM Methods. Proceedings, Ninth International Conference on Applications of Statistics and Probability in Civil Engineering (ICASP9). San Francisco, California: Millpress. 8p.|
|Baker, J.W. and Cornell, C.A. (2003). Uncertainty Specification and Propagation for Loss Estimation Using FOSM Methods, PEER Technical Report 2003/07. Berkeley, California. 89p.|