PROJECT INFORMATION Project Title: Harmonized approach to stress tests for critical infrastructures against natural hazards Acronym: STREST
暂无分享,去创建一个
[1] Keith Smith. Environmental Hazards: Assessing Risk and Reducing Disaster , 1991 .
[2] Steven G. Wesnousky,et al. Displacement and Geometrical Characteristics of Earthquake Surface Ruptures: Issues and Implications for Seismic-Hazard Analysis and the Process of Earthquake Rupture , 2008 .
[3] W. Marzocchi,et al. BET_EF: a probabilistic tool for long- and short-term eruption forecasting , 2008 .
[4] L. Faenza,et al. Regression analysis of MCS intensity and ground motion parameters in Italy and its application in ShakeMap , 2010 .
[5] W. Marzocchi,et al. Operational eruption forecasting at high-risk volcanoes: the case of Campi Flegrei, Naples , 2012, Journal of Applied Volcanology.
[6] K. Pitilakis,et al. SYNER-G: Typology Definition and Fragility Functions for Physical Elements at Seismic Risk: Buildings, Lifelines, Transportation Networks and Critical Facilities , 2014 .
[7] Luis G. Vargas,et al. The theory of ratio scale estimation: Saaty's analytic hierarchy process , 1987 .
[8] Paolo Franchin,et al. A Computational Framework for Systemic Seismic Risk Analysis of Civil Infrastructural Systems , 2014 .
[9] Gregory C. Beroza,et al. Source Scaling Properties from Finite-Fault-Rupture Models , 2000 .
[10] Simona Esposito,et al. PGA and PGV Spatial Correlation Models Based on European Multievent Datasets , 2011 .
[11] Karl Raimund Sir Popper,et al. Realism and the aim of science , 1983 .
[12] David R. Anderson,et al. Model selection and multimodel inference : a practical information-theoretic approach , 2003 .
[13] Thorne Lay,et al. Depth Dependent Rupture Properties in Circum‐Pacific Subduction Zones , 2013 .
[14] C. Allin Cornell,et al. The Case for Using Mean Seismic Hazard , 2005 .
[15] Steven M. Day,et al. The 1999 İzmit, Turkey, Earthquake: A 3D Dynamic Stress Transfer Model of Intraearthquake Triggering , 2002 .
[16] W. Aspinall,et al. Developing an Event Tree for probabilistic hazard and risk assessment at Vesuvius , 2008 .
[17] D. L. Anderson,et al. Preliminary reference earth model , 1981 .
[18] Pitilakis Kyriazis,et al. Systemic Seismic Vulnerability and Risk Analysis for Buildings, Lifeline Networks and Infrastructures Safety Gain. SYNER-G Synthetic Document , 2013 .
[19] Julian J. Bommer,et al. The Use and Misuse of Logic Trees in Probabilistic Seismic Hazard Analysis , 2008 .
[20] Warner Marzocchi,et al. Testing for ontological errors in probabilistic forecasting models of natural systems , 2014, Proceedings of the National Academy of Sciences.
[21] R. Sparks,et al. Risk and Uncertainty Assessment for Natural Hazards , 2013 .
[22] Steven G. Wesnousky,et al. Predicting the endpoints of earthquake ruptures , 2006, Nature.
[23] Roger M. Cooke,et al. Fifteen years of expert judgement at TUDelft , 2008 .
[24] J. Bommer,et al. Empirical Equations for the Prediction of PGA, PGV, and Spectral Accelerations in Europe, the Mediterranean Region, and the Middle East , 2010 .
[25] Robert L. Winkler,et al. Uncertainty in probabilistic risk assessment , 1996 .
[26] Jack W. Baker,et al. Efficient sampling and data reduction techniques for probabilistic seismic lifeline risk assessment , 2010 .
[27] Klaus D. Goepel,et al. Implementing the Analytic Hierarchy Process as a Standard Method for Multi-Criteria Decision Making in Corporate Enterprises – a New AHP Excel Template with Multiple Inputs , 2013 .
[28] Enrico Zio,et al. On the use of the analytic hierarchy process in the aggregation of expert judgments , 1996 .
[29] Jacopo Selva,et al. Long-term multi-risk assessment: statistical treatment of interaction among risks , 2013, Natural Hazards.
[30] Jacopo Selva,et al. Probabilistic Seismic Hazard Assessment: Combining Cornell-Like Approaches and Data at Sites through Bayesian Inference , 2013 .
[31] U. Jensen. Probabilistic Risk Analysis: Foundations and Methods , 2002 .
[32] Warner Marzocchi,et al. Accounting for Epistemic Uncertainty in PSHA: Logic Tree and Ensemble Modeling , 2014 .
[33] Simona Esposito,et al. Framework for Seismic Hazard Analysis of Spatially Distributed Systems , 2014 .
[34] Julian J. Bommer,et al. Probability and Uncertainty in Seismic Hazard Analysis , 2005 .
[35] Chia-Chien Hsu,et al. The Delphi Technique: Making Sense of Consensus , 2007 .
[36] Farrokh Nadim,et al. A three-level framework for multi-risk assessment , 2015 .
[37] Ivan Vrbanić,et al. PSA in the Context of "Stress Tests" , 2011 .
[38] Steven G. Wesnousky,et al. Earthquake size as a function of fault slip rate , 1996, Bulletin of the Seismological Society of America.
[39] D. Lindley. The Philosophy of Statistics , 2000 .
[40] Stefan Wiemer,et al. The quantification of low-probability–high-consequences events: part I. A generic multi-risk approach , 2014, Natural Hazards.
[41] C. Mallows,et al. Exchangeability and data analysis , 1993 .
[42] Nobuki Kame,et al. Effects of prestress state and rupture velocity on dynamic fault branching , 2002 .
[43] Barbara Romanowicz,et al. On moment‐length scaling of large strike slip earthquakes and the strength of faults , 2002 .
[44] J. Q. Smith. Decision Analysis: A Bayesian Approach , 1988 .
[45] Thomas C. Hanks,et al. A Bilinear Source-Scaling Model for M-log A Observations of Continental Earthquakes , 2002 .
[46] Warner Marzocchi,et al. Project number: 265138 Project name: New methodologies for multi-hazard and multi-risk assessment methods for Europe , 2013 .
[47] Paolo Franchin,et al. SYNER-G: Systemic Seismic Vulnerability and Risk Assessment of Complex Urban, Utility, Lifeline Systems and Critical Facilities: Methodology and Applications , 2014 .
[48] E. Jaynes. Probability theory : the logic of science , 2003 .
[49] Pierre Gehl,et al. Specification of the vulnerability of physical systems , 2014 .
[50] Domenico Giardini,et al. Reassessment of the Maximum Fault Rupture Length of Strike‐Slip Earthquakes and Inference on Mmax in the Anatolian Peninsula, Turkey , 2015 .
[51] J. Matthews,et al. An application of Bradley-Terry-type models to the measurement of pain , 1995 .
[52] Nitin Gupta,et al. Hazard Calculations for the WGCEP-2002 Earthquake Forecast Using OpenSHA and Distributed Object Technologies , 2005 .
[53] Phadeon-Stelios Koutsourelakis,et al. Assessing structural vulnerability against earthquakes using multi-dimensional fragility surfaces: A Bayesian framework , 2010 .
[54] Christopher G Newhall,et al. Constructing event trees for volcanic crises , 2002 .
[55] Julian J. Bommer,et al. Modelling Seismic Hazard in Earthquake Loss Models with Spatially Distributed Exposure , 2006 .
[56] R. A. Bradley,et al. Rank Analysis of Incomplete Block Designs: I. The Method of Paired Comparisons , 1952 .
[57] Steven G. Vick. Degrees of Belief: Subjective Probability and Engineering Judgment , 2002 .
[58] Andrzej Kijko,et al. Estimation of earthquake hazard parameters from incomplete data files. Part II. Incorporation of magnitude heterogeneity , 1992 .
[59] D. Wells,et al. New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement , 1994, Bulletin of the Seismological Society of America.
[60] Warner Marzocchi,et al. Probabilistic tsunami hazard assessment for Messina Strait Area (Sicily, Italy) , 2012, Natural Hazards.
[61] T. Saaty,et al. Ranking by Eigenvector Versus Other Methods in the Analytic Hierarchy Process , 1998 .
[62] K. Coppersmith,et al. Methodology and main results of seismic source characterization for the PEGASOS Project, Switzerland , 2009 .
[63] Tom Parsons,et al. Probabilistic Analysis of Tsunami Hazards* , 2006 .
[64] Daniel Straub,et al. Improved seismic fragility modeling from empirical data , 2008 .
[65] H. Crowley,et al. Seismic Hazard Assessment (2003–2009) for the Italian Building Code , 2011 .
[66] Enrico Zio,et al. A framework for the system-of-systems analysis of the risk for a safety-critical plant exposed to external events , 2013, Reliab. Eng. Syst. Saf..
[67] J. Baker,et al. Correlation model for spatially distributed ground‐motion intensities , 2009 .
[68] Joel C. Gill,et al. Reviewing and visualizing the interactions of natural hazards , 2014 .
[69] Stefan Wiemer,et al. Induced seismicity risk analysis of the 2006 Basel, Switzerland, Enhanced Geothermal System project: Influence of uncertainties on risk mitigation , 2015 .
[70] Maria Laura Mastellone,et al. Basic principles of multi-risk assessment: a case study in Italy , 2012, Natural Hazards.
[71] Bernard Dost,et al. Implications of salt-related propagation and mode conversion effects on the analysis of induced seismicity , 2012, Journal of Seismology.
[72] Anne S. Kiremidjian,et al. Treatment of uncertainties in seismic risk analysis of transportation systems , 2006 .
[73] T. Saaty. How to Make a Decision: The Analytic Hierarchy Process , 1990 .
[74] Roberto Basili,et al. The European Database of Seismogenic Faults (EDSF) compiled in the framework of the Project SHARE. , 2013 .
[75] Tatiana Goded,et al. Selection of Earthquake Scaling Relationships for Seismic‐Hazard Analysis , 2013 .
[76] Thierry Yalamas,et al. A Bayesian Methodology Applied to the Estimation of Earthquake Recurrence Parameters for Seismic Hazard Assessment , 2014, Qual. Reliab. Eng. Int..
[77] David M. Boore,et al. Implementation of the SSHAC Guidelines for Level 3 and 4 PSHAs - Experience Gained from Actual Applications , 2009 .
[78] A. Pfister,et al. AP1000{sup R} design robustness against extreme external events - Seismic, flooding, and aircraft crash , 2012 .
[79] W. Marzocchi,et al. BET_VH: a probabilistic tool for long-term volcanic hazard assessment , 2010 .
[80] Ryan T. Coppersmith,et al. A SSHAC Level 3 Probabilistic Seismic Hazard Analysis for a New-Build Nuclear Site in South Africa , 2015 .
[81] M. Leonard. Earthquake Fault Scaling: Self‐Consistent Relating of Rupture Length, Width, Average Displacement, and Moment Release , 2010 .
[82] H. Dreyfus. Mind Over Machine , 1986 .
[83] F. Scherbaum,et al. Logic Tree Branch Weights and Probabilities: Summing up to One is not Enough , 2011 .