PAGER Data, Products and References

Products with References

Overview

Database/Product	Description	Use	References
PAGER Overview			Wald, D.J. et al (2010, 2008) Earle, P.S. et al (2009, 2009) Wald, D. J (2010) Jaiswal, K. S., and Wald, D. J. (2010c) Jaiswal, K.S. and Wald, D.J. (2011)

Earthquake Source

Database/Product	Description	Use	References
Fast Finite Faults	Rapid (few hours) slip models for major earthquakes	Constrain shaking, tsunami generation, stress changes	Hayes, G.P. et al (in prep, 2009) Hayes, G. P., and D. J. Wald (2009) Ji, C. et al (2004)
Subduction Slab Geometry Database	Online daabase of slab interface geometries	Constrain source geomery of major subduction earthquakes	Hayes, G. P., and D. J. Wald (2009) Hayes, G.P. et al (2009) Hayes, et al (2012)
PAGER-CAT	Quality composite earthquake catalog (1900-2006)	Source input for ShakeMap Atlas, ExposureCat	Allen, T. I. et al (2009)

Shaking Distribution

Database/Product	Description	Use	References
Global Slope Data	Topographic slope	Landslides, Vs30	Verdin, K. et al (2007)
Global Vs30 Server	Vs30 values for the globe	Estimating site amplification	Allen, T.I., and D.J. Wald (2009, 2007)
Site Amplification	Vs30 Maps	Estimating site amplification	Thompson et al (2012)
Global "Did You Feel It?" Intensities	Rapid intensities from Internet users	Constrains ShakeMap and event bias	Atkinson, G. M., and D. J. Wald (2007) Wald, D. J. et al (2006) Wald, D., and J. Dewey (2005)
ShakeMap Uncertainty	Quantitative and qualitative shaking values	Computing loss uncertainty	Wald, D. J. et al (2008) Worden et al. (2010)
ShakeMap Atlas	ShakeMap's important global earthquakes (1970-present)	Scenarios, planning, hazard calculations	Allen, T. I. et al (2009, 2008) Garcia et al (2012)
Rapid Global ShakeMaps (GSM)	Estimated ShakeMaps for all global earthquakes (M > 5.5)	Shaking input for loss estimation, decision making	Wald, D.J. et al (2006) Worden et al. (2010)
Ground Motion Modeling	Comparison of ground motion prediction equations	Improvement of ShakeMap	Allen, T.I., and D.J. Wald (2009)
GMPE Selection	Automatic GMPE selection based on source and tectonic regime	Selecting appropriate GMPE for global earthquakes	Garcia et al (2012)

Loss And Impact Estimation

Database/Product	Description	Use	References
EXPO-CAT	Population exposure to intensity for each Atlas ShakeMap	Fatality rates calculations	Allen, T. I. et al (2009)
Global Building Inventory	Country-based data on buildings and collapse rates	Country-specific loss estimation	Jaiswal, K. S. et al (2010a) Jaiswal, K. S., and Wald, D. J. (2008b, 2008a) Porter, K. et al (2008)
Empirical Fatality Model	Country-specific fatality rates	Fatality estimates given exposure	Jaiswal, K. S., and Wald, D. J. (2010c) Jaiswal, K. S. et al (2009a) Porter, K. et al (2008)
Empirical Economic Loss Model	Country-specific economic loss ratios	Economic loss estimates given exposure	Jaiswal, K.S. and Wald, D.J. (2011)
Semi-Empirical Loss Model	Country-specific building vulnerability	Fatality estimates based on structures	Jaiswal, K. S., Wald, D. J. (in prep) Jaiswal, K.S., Wald, D.J., D’Ayala, D. (2011) Jaiswal, K. S., and Wald, D. J. (2010b)
Analytical Loss Model	HAZUS vulnerability functions	Structure-dependent loss computations	Porter, K. A. (2009)
Loss Modeling Overviews	Overview(s) of loss modeling	Generation of loss estimates	Jaiswal, K. S. et al (2009b) Wald, D.J. et al (2009)

Secondary Hazards

Database/Product	Description	Use	References
Landslide Hazard	Spatial probability of landslides	Secondary loss assessments	Marano, K. D. et al (2009)
Landslide Hazard	Near Real-Time Estimates of Seismically Induced Landslides	Estimating landslide hazards	Godt, J. et al (2008) Nowicki (2013) Nowicki et al. (2014)
Liquefaction Hazard	Spatial probability of liquefaction	Estimating liquefaction hazards	Zhu et al. (2013)

Reporting And Notifications

Database/Product	Description	Use	References
OnePAGER	Population exposure notifications	Post-earthquake decision making	Wald, D.J. et al (2010, 2009)
Alert Protocols	Earthquake Impact Scale	Alert content and criteria	Wald, D.J. et al (2011, 2009)

Alphabetical Reference List

Allen, T. I., and D. J. Wald (2007). Topographic slope as a proxy for seismic site-conditions (VS30) and amplification around the globe. U.S. Geological Survey Open-File Report 2007-1357, 69 p.
Allen, T. I., D. J. Wald, A. J. Hotovec, K. Lin, P. S. Earle, and K. D. Marano (2008). An Atlas of ShakeMaps for selected global earthquakes. U.S. Geological Survey Open-File Report 2008-1236, 47 p.
Allen, T. I., Wald, D.J, Earle, P. S., Marano, K. D., Hotovec, A.J., Lin, K., and Hearne, M (2009). An Atlas of ShakeMaps and population exposure catalog for earthquake loss modeling. Bull. Earthq. Eng., v. 7, DOI: 10.1007/s10518-009-9120-y.
Allen, T. I., K. D. Marano, P. S. Earle, and D. J. Wald (2009). PAGER-CAT: A composite earthquake catalog for calibrating global fatality models. Seism. Res. Lett 80(1), 57-62. DOI:10.1785/gssrl.80.1.57
Allen, T.I., and D.J. Wald (2009). Evaluation of ground-motion modeling techniques for use in Global ShakeMap – A critique of instrumental ground-motion prediction equations, peak ground motion to macroseismic intensity conversions and macroseismic intensity predictions in different tectonic settings. U.S. Geological Survey Open-File Report 2009-1047, 114 p.
Atkinson, G. M., and D. J. Wald (2007). "Did You Feel It?" intensity data: A surprisingly good measure of earthquake ground motion. Seism. Res. Lett. 78, 362-368.
Earle, P.S., Wald, D.J., Jaiswal, K.S., Allen, T.I., Marano, K.D., Hotovec, A.J., Hearne, M.G., and Fee, J.M (2009). Prompt Assessment of Global Earthquakes for Response (PAGER): A system for rapidly determining the impact of global earthquakes worldwide. U.S. Geological Survey Open-File Report 2009-1131
Earle, P. S., D. J. Wald, T. I. Allen, K. S. Jaiswal, K. A. Porter, and M. G. Hearne (2009). Rapid exposure and loss estimates for the May 12, 2008 MW 7.9 Wenchuan earthquake provided by the U.S. Geological Survey's PAGER system. Proc. 14th World Conf. Earthqu. Eng. Beijing, China, Paper, 8 pp.
Garcia, D., D. J. Wald, and M. G. Hearne (2012). A Global Earthquake Discrimination Scheme to Optimize Ground-Motion Prediction Equation Selection. Bull Seism. Soc. Am., 102, 185-203.
Godt, J., B. Sener, K. Verdin, D. Wald, P. Earle, E. Harp, and R. Jibson (2008). Rapid assessment of earthquake-induced landsliding. Proceedings of the First World Landslide Forum, United Nations University, Tokyo, Japan, 4 p.
Hayes, G. P., Wald, D. J., and Keranen, K (2009). Advancing techniques to constrain the geometry of the seismic rupture plane on subduction interfaces a priori: highest order functional fits. Geochem. Geophys. Geosyst., 10, Q09006, doi:10.1029/ 2009GC002633.
Hayes, G. P., and D. J. Wald (2009). Developing framework to constrain the geometry of the seismic rupture plane in subduction zones a priori — a probabilistic approach. Geophys. J. Int., v. 176, p. 951-964.
Hayes, G. P., D. J. Wald, and R. L. Johnson (2012). Slab1.0: A three-dimensional model of global subduction zone geometries. J. Geophys. Res., 117, doi:10.1029/2011JB008524.
Hayes, G.P., Wald, D.J., and Johnson, R.L (in prep). Introducing Slab1.0, a three-dimensional model of global subduction zone geometries.
Jaiswal, K. S., and Wald, D. J. (2008a). Developing a global building inventory for earthquake loss assessment and risk management. Proc. 14th World conf. Earthq. Eng., Beijing, China, 8 p.
Jaiswal, K. S., and Wald, D. J. (2008b). Creating a global building inventory for earthquake loss assessment and risk management. U.S. Geological Survey Open-File Report 2008-1160, 103 p.
Jaiswal, K. S., Wald, D. J., and Hearne, M. (2009a). Estimating casualties for large worldwide earthquakes using an empirical approach. U.S. Geological Survey Open-File Report 2009-1136
Jaiswal, K. S., Wald, D. J., Earle, P. S., Porter, K. A., and Hearne, M. (2009b). Earthquake Casualty Models Within the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System. Proceedings of the 2nd International Disaster Casualty Workshop, Cambridge, England, 8 pp.
Jaiswal, K. S., Wald, D. J., and Porter, K. A. (2010a). A Global Building Inventory for Earthquake Loss Estimation and Risk Management. Earthquake Spectra.
Jaiswal, K. S., and Wald, D. J. (2010b). Development of a semi-empirical loss model within the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System. Proc. of the 9th US and 10th Canadian Conference on Earthquake Engineering: Reaching Beyond Borders, July 25-29, 2010, Toronto, Canada.
Jaiswal, K. S., and Wald, D. J. (2010c). An Empirical Model for Global Earthquake Fatality Estimation. Earthquake Spectra, 26, No. 4, 1017-1037
Jaiswal, K. S., Wald, D. J., and D’Ayala, D. (2011). Developing Empirical Collapse Fragility Functions for Global Building Types. Earthquake Spectra, 27, No. 3, 775-795
Jaiswal, K. S., and Wald, D. J. (2011). Rapid estimation of the economic consequences of global earthquakes. U.S. Geological Survey Open-File Report 2011-1116, 47p.
Jaiswal, K. S., Wald, D. J. (in prep). A semi-empirical approach for rapid earthquake casualty and damage estimation. U.S. Geological Survey Open-File Report
Ji, C., V. Helmberger, and D. J. Wald (2004). A teleseismic study of the 2002, Denali, Alaska, earthquake and implications for rapid strong motion estimation. Earthq. Spectra 20, 617-637.
Marano, K. D., D. J. Wald, and T. I. Allen (2009). Global earthquake casualties due to secondary effects: a quantitative analysis for improving rapid loss analyses. Nat. Hazards., v. 49, DOI: 10/1007/s11069-009-9372-5.
Nowicki, M. A. (2013). Development of a Globally Applicable Model for Near Real-Time Prediction of Seismically Induced Landslides. M.S. Thesis, Univ. of Indiana, Bloomington, 69 pp.
Nowicki, M. A., D. J. Wald, M. W. Hamburger, M. Hearne, and E. M. Thompson (2014). Development of a Globally Applicable Model for Near Real-Time Prediction of Seismically Induced Landslides. submitted to Engineering Geology.
Porter, K. A., K. S. Jaiswal, D. J. Wald, M. Green, and C. Comartin (2008). WHE-PAGER Project: a new initiative in estimating global building inventory and its seismic vulnerability. Proc. 14th World Conf. Earthq. Eng., Beijing, China, 8 pp.
Porter, K., K. Jaiswal, D. Wald, P. Earle, and M. Hearne (2008). Fatality models for the U.S. Geological Survey's Prompt Assessment of Global Earthquakes for Response (PAGER) system. Proc. 14th World Conf. Earthq. Eng., Beijing, China, 8 pp.
Porter, K. A. (2009). Cracking an open safe: HAZUS vulnerability functions in terms of structure—independent spectral acceleration. Earthq. Spectra., v. 25, n. 2, p. 361-378.
Thompson, E, and D. J Wald (2012). Developing Vs30 Site-Condition Maps By Combining Observations With Geologic And Topographic Constraints. Proc. 15th World Conf. on Eq. Eng., Lisbon, 9 pp.
Verdin, K. L., J. Godt, C. Funk, D. Pedredos, B. Worstell, and J. Verdin (2007). Development of a global slope dataset for estimation of landsllide occurrence resulting from earthquakes. U.S. Geological Survey Open-File Report 2007-1188, 25 p.
Wald, D., and J. Dewey (2005). Did You Feel It? Citizens contribute to earthquake science. U.S. Geological Survey Fact Sheet FS-2005-3016, 4p.
Wald, D. J., V. Quitoriano, and J. W. Dewey (2006). USGS "Did you feel it?" community internet intensity maps: macroseismic data collection via the internet. First European Conference on Earthquake Engineering and Seismology. Geneva, Switzerland, 10 p.
Wald, D. J., P. S. Earle, K. Lin, V. Quitoriano, and B. Worden (2006). Challenges in rapid ground motion estimation for the prompt assessment of global urban earthquakes. Bull. Earthq. Res. Inst. 81, 272-281.
Wald, D. J., and T. I. Allen (2007). Topographic slope as a proxy for seismic site conditions and amplification. Bull. Seism. Soc. Am. 97, 1379-1395.
Wald, D. J., K. Lin, and V. Quitoriano (2008). Quantifying and qualifying ShakeMap uncertainty. U.S. Geological Survey Open-File Report 2008-1238, 27 p.
Wald, D. J., P. S. Earle, T. I. Allen, K. Jaiswal, K. Porter, and M. Hearne (2008). Development of the U.S. Geological Survey's PAGER system (Prompt Assessment of Global Earthquakes for Response). Proc. 14th World Conf. Earthq. Eng., Beijing, China, 8 pp.
Wald, D. J., K. Jaiswal, K. Marano, P. Earle, and T. I. Allen (2009). Advancements in Casualty Modeling Facilitated by the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System. Proceedings of the 2nd International Disaster Casualty Workshop, Cambridge, England. 8 pp.
Wald, D. J., Jaiswal, K. S., Marano, K. D., and Bausch, D (2009). Developing Casualty and Impact Alert Protocols Based on the USGS Prompt Assessment of Global Earthquakes for Response (PAGER) System. Proceedings of the 1st International Disaster Casualty Workshop, Cambridge, England. 10 pp.
Wald, D.J., Jaiswal, K.S., Marano, K.D., Bausch, D.B., and Hearne, M.G (2010). PAGER — Rapid assessment of an earthquake’s impact. U.S. Geological Survey Fact Sheet 2010–3036, 4 p.
Wald, D. J (2010). PAGER-Rapid Assessment of an Earthquakes Impact. in Encyclopedia of solid Earth Geophysics, Harsh Gupta(Ed.),Springer, Part 5, 243-245, DOI: 10.1007/978-90-481-8702-7 183.
Wald, D. J., Jaiswal, K. S., Marano, K. D., and Bausch, D. B. (2011). An Earthquake Impact Scale. Natural Hazards Review, v. 12, 125-139.
Worden, C. B., D. J. Wald, K. Lin, G. Cua, and D. Garcia (2010). A revised ground-motion and intensity interpolation scheme for ShakeMap. Bull. Seism. Soc. Am., 100, 3083-3096.
Zhu, J., L.G. Baise, & E.M. Thompson, D. J. Wald & K. Knudsen (2013). Predicting the spatial extent of liquefaction from geospatial and earthquake specific parameters. , International Conference on Structural Safety and Reliability (ICOSSAR) June 16-20, 2013 at Columbia University, New York, NY, 8 pp