F
Faisal Hossain
Researcher at University of Washington
Publications - 246
Citations - 6396
Faisal Hossain is an academic researcher from University of Washington. The author has contributed to research in topics: Precipitation & Flood forecasting. The author has an hindex of 38, co-authored 230 publications receiving 5251 citations. Previous affiliations of Faisal Hossain include University of Chittagong & Tennessee Technological University.
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Evaluation of surface properties and atmospheric disturbances caused by post-dam alterations of land use/land cover
TL;DR: In this article, a differential land-use/land-cover analysis was performed to evaluate dam-triggered land-atmosphere interactions for a number of LULC scenarios.
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Case Study: Rapid Urban Inundation Forecasting Technique Based on Quantitative Precipitation Forecast for Houston and Harris County Flood Control District
TL;DR: The authors explored the operational feasibility of an empirical approach to flood inundation forecasting using quantitative precipitation forecasting (QPF) from high-resolution numerical weather models, and showed that QPF can be used to forecast flood inundations.
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Monitoring Variations in Lake Water Storage with Satellite Imagery and Citizen Science
Sarina Little,Tamlin M. Pavelsky,Faisal Hossain,Sheikh K. Ghafoor,Grant M. Parkins,Sarah Yelton,Megan Rodgers,Xiao Yang,Jean-François Crétaux,Catherine Hein,Mohammad Arman Ullah,Debolina Halder Lina,Hanne Thiede,Darren Kelly,Donald Wilson,S. Topp +15 more
TL;DR: In this paper, the authors study groups of small, unregulated lakes in North Carolina, Washington, Illinois, and Wisconsin, USA using lake level measurements gathered by citizen scientists and lake surface area measurements from optical satellite imagery.
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Assessment of water quality conditions in the St. Louis Bay watershed
Zhijun Liu,William L. Kingery,David H. Huddleston,Faisal Hossain,Noor Baharim Hashim,Janna M. Kieffer +5 more
TL;DR: The results indicated that fecal coliform was the primary cause for water quality impairment of the study area, and the dominant sources of bio-chemical oxygen demand could be from the failing septic system.
Dealing with Complexity and Extreme Events Using a Bottom-up, Resource-based
Robert L. Wilby,Faisal Hossain,Koji Dairuku,Tennodai Tsukuba Ibaraki,Jimmy O. Adegoke,George Kallos +5 more
TL;DR: In this article, the authors discuss the adoption of a bottom-up, resource-based vulnerability approach in evaluating the effect of climate and other environmental and societal threats to societally critical resources.