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Ellis, G. W.; Cakmak, A. S.
Modelling Earthquake Ground Motions in Seismically Active Regions Using Parametric Time Series Methods.
National Science Foundation, Washington, DC., August 25, 1987, 158 p.
Identifying Number(s): NCEER-87-0014
Keywords: ; Ground motion; Earthquake engineering; Graphs (Charts); Multivariate analysis; Mathematical models; AccelerometersJournal of Research of the National Institute of Standards and Technology, July/August 1994. Volume 99, Number 4. Special Issue: Extreme Value Theory and Applications. Proceedings of the Conference on Extreme Value Theory and Applications, Volume 2. Held at Gaithersburg, Maryland, in May 1993.
May 1993, 302 p.
Keywords: Uses; Bayesian analysis; Aerosols; Ozone; Weibull density functions; Extreme-value problems; Fatigue limit; Extremum values; Seismic risk; Ground motion; Ocean waves; Meetings; Spacecraft electronic equipment; Failure analysis; Wind velocity; Corrosion; Floods; Radiation damage; Loads (Forces); Risk analysis; Sequences (Mathematics); Multivariate analysis; Extreme value theory; MicroelectronicsEarle, T. C.
Role of Information in the Judgment of Risks from Natural Hazards: Technical Description of Project and Results.
National Science Foundation, Washington, DC. Directorate for Engineering., January 1987, 67 p.
Keywords: Washington (State); Hazards; Risk; Seismic detection; Earthquakes; Whatcom County (Washington); Decision making; Water supply; Multivariate analysis; Mass communication; Water pollution; Attitudes; Design; Seismic waves