HelioWebE. C. Pavlis
flowchart
A[E. C. Pavlis]
AC["Associated Concepts (22)"]
AW["Authored Works (54)"]
CA["Linked Co-Authors (4)"]
CI["Linked Collaborating Institutions (32)"]
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AW== author ==>CA
AW== affil ==>CI
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click AW "#authored-works"
click CA "#co-authors"
click CI "#collaborating-institutions"
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- ORCiD
- https://orcid.org/0000-0002-9726-7064
- OpenAlex ID
- https://openalex.org/A5044153156 (API record)
Associated Concepts [?]
- Geology
- Physics
- Geography
- Computer science
- Geodesy
- Engineering
- Astronomy
- Quantum mechanics
- Remote sensing
- Aerospace engineering
- Satellite
- Telecommunications
- Optics
- Mathematics
- Laser
- Laser ranging
- Operating system
- Satellite laser ranging
- Cartography
- Classical mechanics
- Biology
- Geodetic datum
Authored Works
sorted by decreasing year, and then by display-name
- LARES 2 is in Orbit: a New Laser Ranging Target for Fundamental Physics and Earth Science.
- International Laser Ranging Service: Recent Progress and Plans.
- ITRF2020: The ILRS Contribution and Operational Implementation
- An Addition to the Suite of Geodetic Satellites Supporting the ITRF: LARES-2
- ITRF2020: The International Laser Ranging Service (ILRS) Contribution
- The ILRS ASC Contribution to ITRF2020: A Sneak Preview
- SLR Tracking of GNSS Targets for Improved Operational Products
- The NASA Space Geodesy Network
- Systematic Error Monitoring and Modeling in ILRS Data and Products for ITRF2020 Development
- Recent Progress and Plans for the ILRS
- JCET Web Tools for the Assessment of the ILRS Network's Performance
- Expanded SLR Target Constellation for Improved Future ITRFs
- ILRS Activities in Monitoring Systematic Errors in SLR Data
- Analysis of the DORIS, GNSS, SLR, VLBI and gravimetric time series at the GGOS core sites
- ILRS: Current Status and Future Challenges
- GGOS2020 Space Geodesy Network: Variations in System Deployment Scenarios
- Analysis of Differences Between VLBI, GNSS and SLR Earth Orientation Series
- ITRF2014 Evaluation with ILRS Data and Products
- The ILRS Contribution to ITRF2013 and the Status of Future ILRS Products
- The GGOS Global Space Geodesy Network and its Evolution
- Systematic Errors and SLR Tracking System Performance Over the Past Two Decades
- NASA's Space Geodesy Project
- Technique-dependent Errors in the Realization of the ITRF Origin From Satellite Laser Ranging
- Next Generation NASA Initiative for Space Geodesy
- Space Geodetic Technique Co-location in Space: Simulation Results for the GRASP Mission
- Multi-satellite Mission Products for GGOS
- Eastern Mediterranean Altimeter Calibration Network - eMACnet
- The Eastern Mediterranean Altimeter Calibration Network - eMACnet: Anticipating JASON-3 and SWOT
- Modern Ground Space Geodetic Network for Space Geodesy Applications
- Current Trends in Satellite Laser Ranging
- Accuracy of SLR Observations and Stability of its Analysis Products
- VLBI-SLR Combination Solution Using GEODYN
- The ILRS Reanalysis 1983 - 2009 Contributed To ITRF2008
- Proposed Space Geodetic Project
- The Future Global Geodetic Networks to Support GGOS
- Loading effects on time-variable gravity and surface displacements
- Investigation of low-degree gravitational changes from GRACE, Earth rotation, climate models, and satellite laser ranging
- Earth System Center to TRF Origin Weekly Series From SLR Analysis
- The Origin and Scale of the Terrestrial Reference Frame From Laser Ranging
- Designing a Global Geodetic Network to Support GGOS
- Improvement of Current Refraction Models in Satellite Laser Ranging (SLR) by Ray Tracing through Meteorological Data
- ITRF2005: The Good, the Bad, and the Unexpected
- GRACE-enabled Space Geodetic Experiments for Fundamental Physics
- First and Second Degree Gravitational Variations From Satellite Laser Ranging
- Altimeter Calibration and Regional Tectonics From the GAVDOS Network
- A Weekly-Updated TRF From Satellite Laser Ranging
- Validation of Atmospheric Refraction Modeling Improvements in Satellite Laser Ranging.
- Tectonic Motion Monitoring at the Altimeter Calibration Facility on Gavdos, Crete, Greece.
- TRF Kinematics From Satellite Laser Ranging.
- Sea Level, Tectonics, Environmental Monitoring and Altimeter Calibration in Eastern Mediterranean
- Satellite Laser Ranging Observations of the TRF Origin
- Comparison of Geometric and Gravimetric Estimates of Surface Mass Transfer: Constraints on Geocenter Motion and Low-degree Love Numbers
- Absolute Sea-level Monitoring and Altimeter Calibration Facility at Gavdos, Crete, Greece
- New Satellite Laser Ranging TRF and EOP Series for Mass Transport Studies in the Earth System
Linked Co-Authors
Linked Collaborating Institutions
- Austrian Institute of Space Science Research
- CAS, Shanghai Observatory
- China Geological Survey
- Ecole et Observatoire des Sciences de la Terre, Strasbourg
- Enrico Fermi Research Center, Rome, Italy
- Goddard Space Flight Center, Planetary and Geophysics Divisions
- Haystack Observatory
- Hitotsubashi University, Japan
- Honeywell International Inc.
- Institut National de l'Information Geographique et Forestiere, France
- Institute of Earth Sciences of Andalusia
- Italian Space Agency
- Jet Propulsion Laboratory
- Leibniz University, Hannover, Germany
- Munich University of Technology, Germany
- NASA Goddard Space Flight Center, Maryland
- Natural Environment Research Council, UK
- Observatoire de la Cote d'Azur, Calern
- Observatoire de la Cote d'Azur, France
- Raytheon Corporation, Maryland
- Sapienza University, Rome, Italy
- Technical University of Athens, Greece
- Technical University of Crete, Greece
- U.S. Department of the Navy, Naval Research Laboratory, Washington DC
- University of California, San Diego
- University of Crete, Greece
- University of Lisbon, Portugal
- University of Maryland, Baltimore
- University of Maryland, Baltimore County
- University of Nevada, Reno
- University of Salento, Lecce, Italy
- University of Texas, Austin, Center for Space Research
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