NEHRP Clearinghouse

displaying 1 - 10 results in total 10

• Hein, K. H.; Whitman, R. V.
  Effects of Earthquakes on System Performance of Water Lifelines. Seismic Design Decision Analysis.
  National Science Foundation, Washington, DC., May 1976, 84 p.
  Identifying Number(s): R76-23
  Keywords: Ground motion; Urban planning; Earthquake engineering; Water services; Risk analysis; Earthquakes; Pipelines; Water supply; Earth movements; Massachusetts; Probability; Soil mechanics; Disasters; Seismic risk

• Geist, E. L.
  Local Tsunami Hazards in the Pacific Northwest from Cascadia Subduction Zone Earthquakes. (Earthquake Hazards of the Pacific Northwest Coastal and Marine Regions).
  January 2005, 26 p.
  Identifying Number(s): PP-1661-B
  Keywords: Hazard analysis; Tsunamis; Calculations; Earthquakes; Probability; Seismology; Cascadia subduction zone; Pacific northwest

• Whitman, R. V.; Biggs, J. M.; Brennan, J.; Cornell, C. A.; de Neufville, R.
  Seismic Design Decision Analysis.
  National Science Foundation, Washington, D.C. Applied Science and Research Applications., March 1974, 33 p.
  Identifying Number(s): ['P74-1', 'STRUCTURES PUB-381']
  Keywords: Ground motion; Building codes; Earthquake resistant structures; Earthquake engineering; Boston (Massachusetts); Seismic design; Structural design; Earthquakes; Earth movements; Massachusetts; Concrete construction; Probability; Design standards; Seismic risk

• Ellsworth, W. L.; Matthews, M. V.; Nadeau, R. M.; Nishenko, S. P.; Reasenberg, P. A.
  Physically-Based Earthquake Recurrence Model for Estimation of Long-Term Earthquake Probabilities.
  January 1999, 26 p.
  Keywords: Earthquakes; Recurrence; San Andreas Fault; Probability; Parkfield (California); Mathematical models; Brownian motion

• Stein, R. S.
  Earthquake Rate Model 2.2 of the 2007 Working Group for California Earthquake Probabilities. Appendix D. Magnitude-Area Relationships.
  January 2007, 13 p.
  Identifying Number(s): USGS-OFR-2007-1162
  Keywords: ; Ground motion; Geologic faults; Meetings; Earthquakes; Estimation; Seismic events; Magnitude; Probability; California; Mathematical models

• Earthquake Probabilities in the San Francisco Bay Region: 2000 to 2030. A Summary of Findings.
  January 1999, 60 p.
  Identifying Number(s): USGS-OFR-99-517
  Keywords: Ground motion; Damage assessment; Risk assessment; Geologic faults; Emergency preparedness; Earthquakes; San Francisco Bay (California); Seismic events; Methodology; Probability; California; Disaster planning; Geologic history; Tectonics; Suburban areas; Urbanized areas

• Whitman, R. V.; Cornell, C. A.; Vanmarcke, E. H.; Reed, J. W.
  Methodology and Initial Damage Statistics. Optimum Seismic Protection and Building Damage Statistics, Report Number 1.
  National Science Foundation, Washington, DC. Applied Science and Research Applications., March 1972, 31 p.
  Identifying Number(s): ['STRUCTURES PUB-339', 'R72-17']
  Keywords: Dynamic response; Buildings; Damage assessment; Earthquake engineering; Boston (Massachusetts); Earthquake resistant structures; Seismic design; Soil dynamics; Massachusetts; Probability; Tall buildings; Seismic risk

• Wen, Y. K.; Hwang, H.; Shinozuka, M.
  Development of Reliability-Based Design Criteria for Building under Seismic Load.
  National Science Foundation, Arlington, VA.; New York State Science and Technology Foundation, Albany., August 1, 1994, 176 p.
  Identifying Number(s): NCEER-94-0023
  Keywords: Reliability analysis; Building codes; Buildings; Earthquake resistant structures; Earthquake engineering; Structural design; Structural engineering; Reliability-based design; Design criteria; Probability; Displacement; Mathematical models; Dynamic loads; Structural analysis; Nonlinear systems

• Singhal, A.; Kiremidjian, A. S.
  Method for Earthquake Motion-Damage Relationships with Application to Reinforced Concrete Frames.
  National Center for Earthquake Engineering Research, Buffalo, NY.; National Science Foundation, Arlington, VA., September 10, 1997, 256 p.
  Keywords: ; Dynamic response; Ground motion; Earthquake damage; Damage assessment; Earthquake engineering; Structural components; Fragility; Monte Carlo method; Autoregressive processes; Sensitivity analysis; Frames; Bayes theorem; Reinforced concrete; Soil-structure interactions; Structural failure; Seismic effects; Gaussian processes; Probability; Concrete structures; Mathematical models

• Earthquake Probabilities in the San Francisco Bay Region: 2002-2031.
  January 2003, 235 p.
  Identifying Number(s): USGS/OFR-03-214
  Keywords: Ground motion; Risk assessment; Geologic faults; Emergency preparedness; Earthquakes; San Francisco Bay (California); Seismic events; Methodology; Probability; Damagement assessment; California; Disaster planning; Geologic history; Tectonics; Suburban areas; Urbanized areas