Sea Level Rise and Flood Analysis.- Modeling Sea-Level Rise and Surge in Low-Lying Urban Areas Using Spatial Data, Geographic Information Systems, and Animation Methods.- Urban Expansion and Sea-Level Rise Related Flood Vulnerability for Mumbai (Bombay), India Using Remotely Sensed Data.- A GIS for Flood Risk Management in Flanders.- Using Geographic Information Science to Estimate Vulnerable Urban Populations for Flood Hazard and Risk Assessment in New York City.- Geo-Information Technology for Infrastructural Flood Risk Analysis in Unplanned Settlements: A Case Study of Informal Settlement Flood Risk in the Nyabugogo Flood Plain, Kigali City, Rwanda.- Metropolitan Case Studies.- A Respiratory Riskscape for Texas Cities: A Spatial Analysis of Air Pollution, Demographic Attributes and Deaths from 2000 Through 2004.- Spatial Distribution of Toxic Release Inventory Sites in Chicago Area: Is There Environmental Inequity?.- Risk and Exposure to Extreme Heat in Microclimates of Phoenix, AZ.- Wildfire Risk Analysis at the Wildland Urban Interface in Travis County, Texas.- Early Warning of Food Security Crises in Urban Areas: The Case of Harare, Zimbabwe, 2007.- Earthquakes, Tsunamis, and International Applications.- Spatial Information Technologies for Disaster Management in China.- A Cybercartographic Tool for Supporting Disaster Prevention Planning Processes and Emergency Management in Mexico City.- Integration of Tsunami Analysis Tools into a GIS Workspace - Research, Modeling, and Hazard Mitigation efforts Within NOAA's Center for Tsunami Research.- Utilizing New Technologies in Managing Hazards and Disasters.- Hurricane Response/Recovery.- Remote Sensing and GIS Data/Information in the Emergency Response/Recovery Phase.- Investigating Recovery Patterns in Post Disaster Urban Settings: Utilizing Geospatial Technology to Understand Post-Hurricane Katrina Recovery in New Orleans, Louisiana.- Space and Time Changes in Neighborhood Recovery After a Disaster Using a Spatial Video Acquisition System.- Evacuation Studies.- Pre-evacuation Trip Behavior.- Micro-Level Emergency Response: 3D Geometric Network and an Agent-Based Model.- A Planning Support System for Terror-Resistant Urban Communities.
[1]
M. Goodchild,et al.
Successful Response Starts with a Map: Improving Geospatial Support for Disaster Management
,
2007
.
[2]
S. Zlatanova,et al.
Geomatics Solutions for Disaster Management
,
2010
.
[3]
Borden D. Dent,et al.
Interpreting the City: An Urban Geography
,
1980
.
[4]
Siyka Zlatanova,et al.
Geospatial Information Technology for Emergency Response
,
2009
.
[5]
J. R. Jensen.
Remote Sensing of the Environment: An Earth Resource Perspective
,
2000
.
[6]
Graham A. Tobin,et al.
Natural Hazards: Explanation and Integration
,
1997
.
[7]
Michael N. DeMers,et al.
Fundamentals of Geographic Information Systems
,
1996
.
[8]
Susan L. Cutter,et al.
GI Science, Disasters, and Emergency Management
,
2003,
Trans. GIS.
[9]
M. Goodchild,et al.
Geographic Information Systems and Science (second edition)
,
2001
.
[10]
S. Zlatanova,et al.
Remote Sensing and GIS Technologies for Monitoring and Prediction of Disasters
,
2008
.
[11]
R. A. Stallings,et al.
Methods of Disaster Research
,
2003
.
[12]
N Dash,et al.
The Use of Geographic Information Systems in Disaster Research
,
1997,
International Journal of Mass Emergencies & Disasters.
[13]
Craig Laben.
Integration of remote sensing data and geographic information system technology for emergency managers and their applications at the Pacific Disaster Center
,
2002
.
[14]
Charles K. Huyck,et al.
The Emerging Role of Remote Sensing Technology in Emergency Management
,
2006
.
[15]
Ranjani Wasantha Kulawardhana.
Remote sensing and GIS technologies for monitoring and prediction of disasters
,
2012,
Int. J. Digit. Earth.
[16]
Shattri Mansor,et al.
Spatial technology for natural risk management
,
2004
.
[17]
P. V. Oosterom,et al.
GEO-INFORMATION FOR DISASTER MANAGEMENT
,
2008
.