WE2.R15.4

COMBINING SAR IMAGERY AND TOPOGRAPHY FOR THE AUTOMATIC RETRIEVAL OF FLOODWATER DEPTH MAPS

Renaud Hostache, UMR Espace-DEV / Institut de Recherche pour le Développement, France; Vita Ayoub, Ramona Pelich, Marco Chini, Patrick Matgen, Luxembourg Institute of Science and Technology, Luxembourg; Carole Delenne, UMR-HSM / Université Montpellier, Luxembourg

Session:
WE2.R15: Advanced Flood Monitoring and Prediction for Disaster Risk Reduction and Resilient Infrastructure Oral

Track:
Community-Contributed Sessions

Location:
Mercury Hall

Presentation Time:
Wed, 10 Jul, 12:22 - 12:36

Session Co-Chairs:
Ramona Pelich, UN Agency and Young-Joo Kwak, i-4X Inc.
Presentation
Discussion
Resources
No resources available.
Session WE2.R15
WE2.R15.1: A MULTI-SENSOR SYSTEM FOR SURFACE WATER EXTRACTION: APPLICATION EXAMPLES IN THE CONTEXT OF DISASTER MANAGEMENT
Sandro Martinis, Marc Wieland, Sandro Groth, German Aerospace Center, Germany
WE2.R15.2: DAILY MONITORING OF THE MAY 2023 EMILIA-ROMAGNA FLOOD USING COSMO-SKYMED DATA
Luca Pulvirenti, Giuseppe Squicciarino, Luca Cenci, CIMA Research foundation, Italy; Maria Virelli, Laura Candela, Italian Space Agency, Italy; Silvia Puca, Italian Department of Civil Protection, Italy
WE2.R15.3: MODEL CONSTRUCTION AND EVALUATION OF FLOOD AREA ESTIMATION BASED ON SAR AND GPS DATA
Yifan Yang, Naoki Ohira, Hideomi Gokon, Japan Advanced Institute of Science and Technology, Japan
WE2.R15.4: COMBINING SAR IMAGERY AND TOPOGRAPHY FOR THE AUTOMATIC RETRIEVAL OF FLOODWATER DEPTH MAPS
Renaud Hostache, UMR Espace-DEV / Institut de Recherche pour le Développement, France; Vita Ayoub, Ramona Pelich, Marco Chini, Patrick Matgen, Luxembourg Institute of Science and Technology, Luxembourg; Carole Delenne, UMR-HSM / Université Montpellier, Luxembourg
WE2.R15.5: ADVANCED OPERATIONAL FLOOD MONITORING IN THE NEW ERA: HARNESSING HIGH-RESOLUTION, EVENT BASED, AND MULTI-SOURCE REMOTE SENSING DATA FOR FLOOD EXTENT DETECTION AND DEPTH ESTIMATION
Qing Yang, Xinyi Shen, University of Wisconsin-Milwaukee, United States; Qingyuan Zhang, University of Maryland, United States; Sean Helfrich, National Oceanic and Atmospheric Administration, United States; Josef M. Kellndorfer, Earth Big Data LLC, United States; William Straka III, University of Wisconsin-Madison, United States; Wei Hao, Global Science and Technology, Inc., United States; Nicholas C. Steiner, The City College of New York, United States; Marcelo Villa, Earth Big Data LLC, United States; Tyler Ruff, Jessie C. Moore Torres, Rachel Lazzaro, Global Science and Technology, Inc., United States; Cora Jackson, Vanderbilt University, United States
WE2.R15.6: AN AIRBORNE GNSS-R DRIVEN LOW-LATENCY FLOOD ASSESSMENT DEVELOPMENT
Delwyn Moller, Restore Lab, New Zealand; Konstantinos Andreadis, University of Massachusetts, United States; Matthew Wilson, University of Canterbury, New Zealand; Krzysztof Orzel, Restore Lab, New Zealand
WE2.R15.7: RECONSTRUCTION OF FLOOD EVENT OCCURRED IN TEESTA BASIN, SIKKIM STATE, EASTERN HIMALAYA: COMBINING HYDRODYNAMICAL AND HYDROLOGICAL MODELLING
Deepali Gaikwad, Vikas Singh Jadoun, Reet Kamal Tiwari, Indian Institute of Technology Ropar, India
Resources
No resources available.