CS
Member Since 2008
Chelsea Scott
Assistant Research Professor, Arizona State University
AGU Research
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Advancing Geospatial Data Accessibility and Reuse by Adoption of FAIR Principles in OpenTopography
APPLYING COMMUNITY-DEVELOPED PRINCIPLES AND GUIDANCE TO IMPROVE OPEN-SCIENCE CAPABILITIES OF SCIENTIFIC DATA REPOSITORIES AND SERVICE PROVIDERS I POSTER
informatics | 14 december 2023
Viswanath Nandigam, Christopher J. Crosby, Chelsea...
The ability to discover, access and reuse scholarly data efficiently is critical for reproducible research and scientific discoveries. In the Earth sc...
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Reflections on 15 years of OpenTopography: The Power of Topographic Data for Open Science
OPEN SCIENCE RECOGNITION PRIZE
union sessions | 12 december 2023
Christopher J. Crosby, Chelsea Scott, Viswanath Na...
On our dynamic and changing planet, topographic data serves as a three-dimensional reference for understanding the Earth's surface, including its topo...
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Segmenting geologic landforms using zero-shot deep learning and lidar topography
PROGRESS ON SCIENCE AND TECHNOLOGY TOWARD ACHIEVING A SURFACE TOPOGRAPHY AND VEGETATION STRUCTURE OBSERVING SYSTEM II POSTER
earth and planetary surface processes | 11 december 2023
Zhiang Chen, Chelsea Scott, Madeline F. Schwarz, S...
Motivated by the advancement of deep learning in image processing, we present our efforts towards developing open-source, easy-to-use tools that enabl...
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Remote Sensing of Fault Slip, Fault Creep, and Landscape Change: Implications for Surface Topography and Vegetation Measurement Needs.
SCIENCE AND TECHNOLOGY TOWARD ACHIEVING SURFACE TOPOGRAPHY AND VEGETATION STRUCTURE MEASUREMENTS III ORAL
global environmental change | 12 december 2022
Stephen DeLong, Chelsea Scott, Andrea Donnellan, J...
Repeat collection of high-resolution topographic data provides unprecedented insight into solid-Earth and Earth-surface processes. Results from these ...
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Creep along the Central San Andreas Fault from Surface Fractures, Topographic Differencing, and InSAR
INTEGRATING RELATED EARTHQUAKE DATA SETS: HOW TO COMBINE GEODESY, SEISMOLOGY, AND GEOLOGY IN INFORMATIVE WAYS I
tectonophysics | 16 december 2020
Chelsea Scott, Michael P. Bunds, Manoochehr Shirza...
Imaging tectonic deformation along creeping faults is critical for measuring strain rates and ultimately understanding the physical processes that gui...
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Robotics and AI weave surface process narratives from rock geomorphology
EXTRACTING INFORMATION FROM GEOPHYSICAL SIGNALS WITH MACHINE LEARNING III
seismology | 15 december 2020
Jnaneshwar Das, Zhiang Chen, Tyler Scott, Chelsea ...
We share our experiences with data-driven discovery for geomorphology, enabled by robotics and AI. Motivated by our prior work in automated fruit coun...
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Relative Slip in Damage Zones: Insights from Bishop Tuff Normal Faults
SPATIAL AND TEMPORAL HETEROGENEITIES ON FAULTS: DOES COMPLEXITY REVEAL EARTHQUAKE PROCESSES? III POSTERS
tectonophysics | 14 december 2020
Tiziano Giampietro, Yves Gaudemer, Isabelle Manigh...
Faults are embedded in damage zones where rocks are intensely fractured. Greater compliance in these zones impacts earthquake behavior on master fault...
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Regional-Scale Landscape Change: Data Preparation and Two Examples Using Object-Based Image Analysis and Windowed Iterative Closest Point Algorithm to Interrogate Results
MONITORING GEOMORPHIC CHANGE: STRENGTHS AND WEAKNESSES OF DIFFERENT REMOTE SENSING METHODOLOGIES TO SUPPORT REGIONAL GEOHAZARD AND RISK ASSESSMENTS I POSTERS
natural hazards | 08 december 2020
Stephen DeLong, Zachary T. Engle, Morena Hammer, C...
As lidar and other high-resolution topographic data availability expands, and is increasingly collected repeatedly to monitor landscape change, method...
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