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Full-Text Articles in Physical Sciences and Mathematics
'Catch The King' Tide Thank You And Review, Jon Derek Loftis
'Catch The King' Tide Thank You And Review, Jon Derek Loftis
Presentations
"Catch the King" was a citizen science GPS data collection effort centered in Hampton Roads, VA, that mapped the King Tide's maximum inundation extents to validate and improve predictive models for future forecasting of increasingly pervasive "nuisance" flooding. GPS data points collected by volunteers effectively breadcrumbed/traced the high water line by pressing the 'Save Data' button in the Sea Level Rise App every few steps along the water's edge during the high tide on the morning of Nov. 5th, 2017.
Response from the event's dedicated volunteers, fueled by the local media partners' coverage leading up to the event, and over …
'Catch The King' Tide With Stormsense On Nov. 5th: How You Can Help Crowd-Source Tidal Flood Event Calibrations For Hampton Roads' Newest Water Level Sensors, Jon Derek Loftis, Harry Wang, David R. Forrest
'Catch The King' Tide With Stormsense On Nov. 5th: How You Can Help Crowd-Source Tidal Flood Event Calibrations For Hampton Roads' Newest Water Level Sensors, Jon Derek Loftis, Harry Wang, David R. Forrest
Presentations
Dr. Derek Loftis presented his recent research related to installing new water level sensors (and some of the early event data the network has captured during Hurricanes Jose and Maria) in many Hampton Roads municipalities with the StormSense Smart Cities project. This presentation also introduces information related VIMS efforts with the CCRFR and local news media in the organization of the 'Catch the King' Tide crowd-sourcing data event using the Sea Level Rise App.
Stormsense Project: Forecasting Flooding From Storm Surge, Rain, And Tide, Jon Derek Loftis, David R. Forrest, Kyle Spencer
Stormsense Project: Forecasting Flooding From Storm Surge, Rain, And Tide, Jon Derek Loftis, David R. Forrest, Kyle Spencer
Presentations
The objective of StormSense is to enhance the capability of communities to prepare and respond to the disastrous impacts of sea level rise and coastal flooding in ways that are replicable, scalable, measurable, and make a comparable difference worldwide. The StormSense Project is an inundation forecasting research initiative partially funded by the National Institute of Standards and Technology to advance the field of emergency preparedness for flooding resulting from storm surge, rain, and tides. The scope of the project encompasses the interests of coastal local governments wishing to enhance their emergency preparedness via a network of 'Internet of Things' (IoT)-enabled …
Street-Level Inundation Modeling Of Hurricanes Matthew And Hermine And Emerging Flood Monitoring Methods In Hampton Roads, Jon Derek Loftis, H. V. Wang, D R. Forrest
Street-Level Inundation Modeling Of Hurricanes Matthew And Hermine And Emerging Flood Monitoring Methods In Hampton Roads, Jon Derek Loftis, H. V. Wang, D R. Forrest
Presentations
No abstract provided.
Street-Level Predictive Modeling Of Nuisance Flooding Verified Via Crowdsourced App Data In Norfolk, Va, J. D. Loftis, H. V. Wang, D R. Forrest
Street-Level Predictive Modeling Of Nuisance Flooding Verified Via Crowdsourced App Data In Norfolk, Va, J. D. Loftis, H. V. Wang, D R. Forrest
Presentations
No abstract provided.
Estuarine Sediment Dynamics, C. T. Friedrichs
Estuarine Sediment Dynamics, C. T. Friedrichs
Estuarine Sediment Dynamics, C T. Friedrichs
Simple Parameterized Models For Predicting Mobility, Burial, And Re-Exposure Of Underwater Munitions, C. T. Friedrichs
Simple Parameterized Models For Predicting Mobility, Burial, And Re-Exposure Of Underwater Munitions, C. T. Friedrichs
Presentations
No abstract provided.
Estuarine Sediment Transport And Sedimentation, Carl T. Friedrichs
Estuarine Sediment Transport And Sedimentation, Carl T. Friedrichs
Presentations
No abstract provided.
Transitioning A Chesapeake Bay Ecological Prediction System To Operations, D. Green
Transitioning A Chesapeake Bay Ecological Prediction System To Operations, D. Green
Presentations
No abstract provided.
Overview Of The Ioos/Sura Super-Regional Coastal Modeling Testbed, D. Wright
Overview Of The Ioos/Sura Super-Regional Coastal Modeling Testbed, D. Wright
Presentations
No abstract provided.
Use Of Tide Stakes To Interpret Flow Pathways And Elevation Patterns In A Ditched New England Salt Marsh, L. E. Lemay, Carl T. Friedrichs
Use Of Tide Stakes To Interpret Flow Pathways And Elevation Patterns In A Ditched New England Salt Marsh, L. E. Lemay, Carl T. Friedrichs
Presentations
No abstract provided.
Assessment Of Dispersant Effectiveness Using Ultrasound To Measure Oil Droplet Particle Size Distributions, P. Panetta, Carl T. Friedrichs
Assessment Of Dispersant Effectiveness Using Ultrasound To Measure Oil Droplet Particle Size Distributions, P. Panetta, Carl T. Friedrichs
Presentations
No abstract provided.
Estuarine Hypoxia Team, Carl T. Friedrichs
Improved Observation, Analysis, And Modeling Of Fine Sediment Dynamics In Turbid, Biologically Active Coastal Environments: A New Nsf-Funded Study Taking Place In The York River Estuary, Carl T. Friedrichs
Presentations
No abstract provided.
Mudbed: Multi-Disciplinary Benthic Exchange Dynamics, Carl T. Friedrichs
Mudbed: Multi-Disciplinary Benthic Exchange Dynamics, Carl T. Friedrichs
Presentations
No abstract provided.
Estuarine Sediment Dynamics, Carl T. Friedrichs