Designing for a World of Multiple Hazards
Applied Technology Council's Role in Wind and Coastal Flood Hazard Mitigation
Overcoming Barriers
Lifeline Seismic Improvement Programs
Prepared by the Technical Council on Lifeline Earthquake Engineering of ASCE. This TCLEE Monograph studies seven large lifeline organizations that...
Evaluation of Landslide Hazards with Ground-Penetrating Radar, Lake Michigan Coast
Treatment of Nitrocellulose by Thermal Decomposition
Risk Based Corrective Action at a Former Military Site
A Leadtime Driven Flood Warning Response Plan Design
(No paper) The paper examines the optimal combination of predictive and detective capabilities in the development of the Wickenburg Flood Response Plan and extrapolates those findings...
Lessons Learned in a Level-Two HAZUS Analysis for Buildings and Lifelines in the Portland, Oregon, Metropolitan Region
Modeling Post-Disaster Urban Lifeline Restoration
Multi-Hazard Analysis of Utility Lifeline Systems
Multi-Hazard Risk Assessment for Lifelines, Part 1: Overview and Approach
Multi-Hazard Risk Assessment for Lifelines, Part 2: Case Study for the Portland, Oregon, Water Supply System
Catastrophic Risk Financing and Multi-Hazard Study for BC Hydro
Extreme Event Loading and Cascading Failure Risk Assessment for Electric Power Lines
Learning from Disaster
After each earthquake, civil engineers learn more about what can be done to minimize the damage to infrastructure from seismic events. The recent large earthquakes that struck Izmit, Turkey,...
Effect of Geomorphic Hazards on Bridge Reliability
Super-Dense Real-Time Disaster Mitigation System
Investigation of Engineered Building Wind Failures
Analysis of the Catastrophic Failure of the Support Structure of a Changeable Message Sign
Hazardous Harbor Seiches, Tides, Wind and Baroclinicity
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