Michael Durand

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    A[Michael Durand]
    AC["Associated Concepts (23)"]
    AW["Authored Works (28)"]
    CA["Linked Co-Authors (48)"]
    CI["Linked Collaborating Institutions (46)"]
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ORCiD

https://orcid.org/0000-0003-2682-6196

OpenAlex ID

https://openalex.org/A5033174571 (API record)

Associated Concepts [?]

• Geology
• Geography
• Environmental science
• Physics
• Engineering
• Computer science
• Biology
• Remote sensing
• Astronomy
• Meteorology
• Cartography
• Mathematics
• Oceanography
• Ecology
• Aerospace engineering
• Quantum mechanics
• Geomorphology
• Paleontology
• Hydrology (agriculture)
• Geotechnical engineering
• Climatology
• Economics
• Telecommunications

Authored Works

sorted by decreasing year, and then by display-name

• Super-Resolution Deep Neural Networks for Water Classification at 2-m Resolution from Sentinel-2 Satellite Imagery
• Snow Specific Surface Area: Margins of Error, Best Methods, and Interpretation of In-Situ Measurements Using the IceCube, an Integrating Sphere
• Plan for Assessing SWOT Discharge Accuracy
• Mission Ready - Global Snow Water Equivalent from Space
• Harmonized Sentinel-1 SAR Global River geometry and Inundation database
• Comparison of snow water equivalent estimates from merging remote sensing observations with inputs from different weather and land simulation models
• Assessing the Accuracy of Discharge Estimates Made from Satellite Remote Sensing Observations
• Analysis of Remotely Sensed Channel Width Observations Using High-Accuracy Shoreline Tracking on Alaskan Rivers
• Analysis of Airborne and Tower-Based Cross-Polarization Backscatter Data at X- and Ku- Bands for SWE Retrieval Algorithms.
• An Improved X and Ku Band SWE Retrieval Algorithm and Validation Analysis Using Airborne Data
• A global framework for SWOT discharge with examples from the Ohio River
• A Comparison of Constrained Least Squares Adjustment and Non-Linear Solvers to Estimate Snow Water Equivalent from Regional Climate Models and Remote Sensing Observations
• 2023 SnowEx field campaign in Alaska, U.S.
• SnowEx Snow Microstructure for Simulation of Microwave Scattering
• Process-level controls on snow microstructure spatial variability from the SnowEx 2020 Grand Mesa dataset
• Preliminary results for Lakeflow, an algorithm to improve SWOT flow-law parameters through integrating river-lake mass conservation
• Predicting surface density using snow models and assimilation for wildlife applications
• Observations of depth, SWE, and stratigraphy using FMCW radar and machine learning, during the NASA SnowEx 2020 Grand Mesa Campaign
• Merging regional climate models and remote sensing observations to better estimate snow water equivalent in the Tuolumne River watershed
• Mapping Flow-obstructing Structures on Global Rivers
• Filling in the Discontinuous Global River Gauge Record Using Satellite Observations.
• Deep Learning of River Width Changes from Ultra-High-Resolution Commercial Satellite Imagery
• Constructing the SWOT Mission Prior Discharge Database and Assessing its Discharge Components
• Confluence: An open-source framework for SWOT discharge estimation and value-added products
• Combining satellite imagery and flow laws to evaluate discharge accuracy
• Combining Optical Imagery and Altimetry to Test SWOT Discharge Algorithms
• Advancing Global SWE Observations Through the NASA SnowEx Campaign
• Advances in Inversion of Microwave Snowpack Emission Models for Simultaneous Retrieval of Depth, Density and Grain Size

Linked Co-Authors

• A. W. Nolin
• Ana P. Barros
• Angelica Tarpanelli
• Ardeshir M. Ebtehaj
• Augusto Getirana
• Bidhyananda Yadav
• C. Gangodagamage
• C. J. Gleason
• Craig Brinkerhoff
• Cédric H. David
• D. Gómez
• Dai Chang-lei
• Dorothy K. Hall
• Edward Kim
• Elizabeth H. Altenau
• George H. Allen
• Hans‐Peter Marshall
• I. M. Howat
• James L. Garrison
• Jeff Dozier
• Jessica D. Lundquist
• Jida Wang
• Joachim Moortgat
• Konstantinos M. Andreadis
• Kristine M. Larson
• Laura M. Hinkelman
• Luciana Fenoglio-Marc
• M. S. Raleigh
• Matthew Sturm
• Melissa L. Wrzesien
• Melody Sandells
• Michael A. Goldstein
• Mohammad J. Tourian
• Paul Bates
• Peirong Lin
• Raphael M. Tshimanga
• Renato Prata de Moraes Frasson
• Robert W. Dudley
• Ryan M. Riggs
• S. A. Margulis
• S. P. Coss
• Safat Sikder
• Sujay V. Kumar
• Svetlana Stuefer
• T. Pavelsky
• Theodore Langhorst
• Wei Ji Leong
• Xiao Yang

Linked Collaborating Institutions

• Boise State University, Idaho
• Cold Regions Research and Engineering Laboratory
• Colorado School of Mines
• Colorado State University
• Columbia University, New York
• DTU Physics, Lyngby
• Environment Canada
• George Mason University, Virginia
• Italian National Research Council, Perugia
• Jet Propulsion Laboratory
• Kansas State University
• Mississippi State University
• NASA Goddard Space Flight Center, Maryland
• North Carolina State University
• Northumbria University, UK
• Occidental College, California
• Oregon State University, Corvallis
• Peking University, China
• Portland State University, Oregon
• Purdue University, Indiana
• Rheinische Friedrich Wilhelms University of Bonn, Germany
• Stanford University, California
• Swiss Federal Institute for Forest Snow and Landscape Research
• Technical University of Darmstadt, Germany
• Texas A&M University, College Station
• The Ohio State University
• U.S. Department of Agriculture
• UMass Amherst
• University College London, UK
• University College of Swansea, UK
• University of Alabama, Tuscaloosa
• University of Alaska, Fairbanks
• University of Bristol, UK
• University of California, Los Angeles
• University of Colorado, Boulder
• University of Florida
• University of Illinois, Urbana-Champaign
• University of Michigan
• University of Minnesota, Twin Cities
• University of Nevada, Reno
• University of North Carolina, Chapel Hill
• University of Northern British Columbia, Canada
• University of Stuttgart, Institute for Geodesy
• University of Texas, Austin
• University of Washington, Seattle
• Virginia Polytechnic Institute and State University

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