D. Mencin
- ORCiD
- https://orcid.org/0000-0001-9984-6724
- OpenAlex ID
- https://openalex.org/A5022781198 (API record)
Associated Concepts [?]
- Geology
- Physics
- Engineering
- Geography
- Seismology
- Biology
- Computer science
- Astronomy
- Paleontology
- Operating system
- Geodesy
- Telecommunications
- Aerospace engineering
- Global Positioning System
- Astrophysics
- Remote sensing
- Geotechnical engineering
- Observatory
- Satellite
- Mathematics
- GNSS applications
- Borehole
- Tectonics
Authored Works
sorted by decreasing year, and then by display-name
- Thinking with Data Ergonomically (with Observable)
- The Possibility of a Geodetic-Based Earthquake Early Warning System for Colombia and Ecuador Using Existing Infrastructure.
- Supervised Machine Learning of High Rate GNSS Velocities for Earthquake Strong Motion Signals
- Preliminary calibration and analysis of data from the Alto Tiburina Near Fault Observatory Strainmeter Array (TABOO-STAR)
- Improving Space Weather Nowcast and Forecast capabilities using the real-time high-resolution UNAVCO GPS TEC observations.
- Identity Management for Data Access at UNAVCO and IRIS
- GeoCrate: Modern Data Containers For Geophysical Data in the Cloud
- Building an Integrated Geophysical Data Platform in the Cloud
- Automated DInSAR + GNSS Integrated Time Series and Deformation Maps for Machine Learning and Volcanic Early Warning Applications
- UNAVCOs Geophysical Event Response as a Containerized Jupyter Notebook
- UNAVCO GNSS data operations modernization and uplift to the cloud: real-time and archiving.
- Quantitative Comparison of UNAVCOs real-time, 1 Hz GNSS Position Estimates for Earthquake Early Warning
- Preparation of automated, real-time DInSAR time series for machine learning and hazard early warning applications
- Modern Seismogeodetic System for Mitigating Natural Hazards
- Incorporating Real-time GNSS into ShakeAlert: Improving Telemetry and Upgrading to Multi-Constellation GNSS with On-Board Positioning at Existing NOTA Stations
- Developing Next Generation Geophysical Data Services to Support the SAGE and GAGE Communities
- Developing Low-Cost, Low-Power Field Computers for Multi-Sensor Applications and Edge Processing
- Detecting Earthquakes in Noisy Real-Time GNSS Data with Machine Learning
- Coseismic and post-seismic deformation associated with the January 7, 2020 Mw6.4 earthquake derived from the Puerto Rico - Virgin Islands campaign and continuous GPS network
- Common Data and Metadata Models for Geophysical Data in the Cloud
Linked Co-Authors
- Adriano Gualandi
- Alberto López‐Venegas
- Amanda Thomas
- Catherine Hanagan
- Chad Trabant
- D. Golriz
- Diego Melgar
- G. S. Mattioli
- H. T. Berglund
- Jerry Carter
- K. F. Tiampo
- L. Chiaraluce
- P. B. Dandenault
- Patricia Mothes
- R. K. Schaefer
- T. Dittmann
- Ted Habermann
- Timothy J. Ronan
- Tzu‐Wei Fang
- Walter Szeliga
- Y. Jade Morton
- Yehuda Bock
Linked Collaborating Institutions
- Central Washington University
- Comprehensive Test-Ban Treaty Organization, Austria
- Incorporated Research Institutions for Seismology, Washington DC
- Johns Hopkins University, Applied Physics Laboratory
- National Autonomous University of Mexico
- National Institute of Geophysics and Volcanology, Italy
- National Oceanic and Atmospheric Administration, Boulder
- National Polytechnic School, Ecuador
- University of Arizona
- University of Bath, UK
- University of Bologna, Italy
- University of California, San Diego, Scripps Institution of Oceanography
- University of Colorado, Boulder
- University of Oregon
- University of Puerto Rico, Mayaguez
- University of Texas, Arlington
- University of Utah
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