Ewing, Ryan
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Overview
Publications
Research
principal investigator on
NSF - Division of Earth Sciences 1948660 Collaborative Research: Community tools for automated paleoenvironmental interpretation from sedimentary field data ($897,739) TAMU PIs Ryan Ewing and Tracy Hammond ($589,480), Penn State PI: Liz Hajek ($308,359)
awarded by National Science Foundation - (Arlington, Virginia, United States)
2020 - 2023
SAND-E: Semi-Autonomous Navigation for Detrital Environments - Integrating Robotic Terrain Analysis, Geochemistry, and Sedimentology to Assess Sediment Transport Pathways
awarded by National Aeronautics and Space Administration - (Washington D.C., District of Columbia, United States)
2019 - 2021
Improving Vsitor Understanding of Changes in Dunes Characteristics Over Time at White Sands National Monument
awarded by National Park Service - (Washington D.C., District of Columbia, United States)
2018 - 2020
X-Ray Florescence (XRF) Technologies For Biosignature Screening In Aeolian Environments
awarded by National Aeronautics and Space Administration - (Washington D.C., District of Columbia, United States)
2017 - 2020
Characterizing Titan's dunes and dune-topography interactions: Implications for climate change in Titan's equatorial region
awarded by Johnson Space Center - (Houston, Texas, United States)
2014 - 2019
Characterizing Titan's dunes and dune-topography interactions: Implications for climate change in Titan's equatorial region
awarded by Johnson Space Center - (Houston, Texas, United States)
2014 - 2019
Characterizing Titan's dunes and dune-topography interactions: Implications for climate change in Titan's equatorial region
awarded by Johnson Space Center - (Houston, Texas, United States)
2014 - 2019
Intermittent aeolian bedload transport on Mars
awarded by National Aeronautics and Space Administration - (Washington D.C., District of Columbia, United States)
2014 - 2017
DETERMINING RATES OF RESURFACING BY WIND ON MARS HINGES UPON OUR UNDERSTANDING OF HOW SAND MOVES UNDER MARTIAN SURFACE CONDITIONS. THE CURRENT UNDERSTANDING OF AEOLIAN SEDIMENT TRANSPORT ON MARS LARGELY RELIES ON AEOLIAN SEDIMENT TRANSPORT MODELS FOR ESTI
awarded by National Aeronautics and Space Administration - (Washington D.C., District of Columbia, United States)
2014 - 2016
Mobility of dust, sand and dunes on different geomorphic surfaces of the Chihuahuan Desert
awarded by National Park Service - (Washington D.C., District of Columbia, United States)
2015
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chaired theses and dissertations
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