HelioWebDraper Laboratory, Inc., Massachusetts
flowchart
I[Draper Laboratory, Inc., Massachusetts]
PI["Parent Institutions (0)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (16)"]
CA["Linked Collaborating Authors (0)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- NASA's New Millennium ST6 Project
- Operational Use of EPOS to Increase the Science Value of EO-1 Observation Data
- GEOScan: A Geoscience Facility from Space
- CEOS: A Small, Low Cost Spectrometer for Use on the Iridium NEXT Constellation
- GEOScan: A GEOScience Facility From Space
- Predictive Analysis of Landslide Activity Using Remote Sensing Data
- The Earth Phenomena Observation System (EPOS): A Coordination Manager for Enhanced Hurricane Data Collection
- Assessing the Impact of Changes in Extreme Precipitation Events on Landslide Occurrence and Resultant Human Cost (Invited)
- Energy cascade in the magnetosphere-ionosphere system: A case study
- Measuring Earth's radiation imbalance with RAVAN: A CubeSat mission to measure the driver of global climate change
- Solving climate uncertainty one tiny satellite at a time: Earth's Radiation Imbalance System
- A new multi-angle remote sensing framework for scaling vegetation properties from tower-based spectro-radiometers to next generation "CubeSat"-satellites.
- Penn State Radar Systems: Implementation and Observations
- The RAVAN CubeSat mission: Progress toward a new measurement of Earth outgoing radiation
- Learning-based Wind Estimation using Distant Soundings for Unguided Aerial Delivery
- Measuring Earth's Radiation Imbalance using Cubesat Constellations