Last Name |
Description |
Abrahamsson |
An integrated in-situ organic biosignature analysis instrument based on supercritical CO2 and subcritical H2O |
Adam |
Kinetx Space Navigation, Flight Dynamics, and Planetary Science Services |
Ahmed |
Low SWaP, High performance, 94GHz RF- photonic radar receiver |
Anyszka |
Designing rubber for long-term Mars exploration |
Baldwin |
SLEGO Architecture Enabled Missions |
Barnhardt |
Entry Systems Modeling and Ground Test Capabilities |
Bayandor |
Fully-Actuated Tension Adjustable Novel Deployable Entry Mechanism |
Bedford |
Astrobotic Griffin and Peregrine Lunar Landers |
Bedford |
Astrobotic NITE Lunar Night Survival |
Bedford |
Astrobotic Xodiac VTVL Rocket Testbed |
Blake |
In-Situ Mineralogical Analysis of the Venus Surface Using X-Ray Diffraction and X-Ray Fluorescence (Xrd/Xrf) |
Blake |
In-Situ Mineralogical and Geochemical Analysis on Mercury With X-Ray Diffraction and X-Ray Fluorescence |
Blake |
Lunapix & Mapx: Particle Induced X-Ray Emission — X-Ray Fluorescence (Pixe-Xrf) Instruments for Lunar and Planetary Science |
Blaze |
Micro-electro-mechanical system (MEMS) gas chromatography (GC) and comprehensive two- dimensional MEMS gas chromatography (GC×GC) coupled with mass spectrometry (MS) |
Blinn |
Astrobotic Lunar Mission Simulation Software Suite |
Bone |
Ruggedized Infrared Camera |
Bowman |
Exploring the Outer Planets Sooner with SLS |
Boyd |
Lightweight Deployable Integrable Antenna (LiDIA) |
Bradburne |
Microfluidic sample preparation for collection, desalination/purification, derivatization, and delivery of biomolecules at ocean worlds. |
Brandon |
High Specific Energy Primary Batteries for NASA Missions |
Burt |
High Performance Trapped Mercury Ion Atomic Clocks |
Cameron |
A Compact Drone-Based Instrument Sonde For Venus Balloon Missions |
Cassell |
Small Spacecraft Sample Return Mission Concept to Support Gateway and Lunar Science |
Chandra |
Inflatable Antenna System for Planetary Exploration |
Crandall |
SLEGO Architecture Enabled Missions |
Da Poian |
Machine learning and data science for the future of planetary science missions exploring our outer solar system |
Duerr |
Technology for optical communications |
Eckard |
Astrobotic CubeRover |
Eckard |
Astrobotic Ultra Fast Proximity Charger |
Ellis/Tarau |
Advanced Cooling Technologies |
Elizabeth |
In-space refueling technologies |
Eshelman |
PERISCOPE: Technology for organic detection in the near subsurface |
Finley |
Mission planning and flight dynamics analysis and operational tools |
Gaskin |
Variable Pressure – Scanning Electron Microscopy (VP-SEM) |
Goel |
Ocean World Lander Autonomy Testbed |
Gomez |
Active and Passive Storage Solutions for Low Temperature Lunar Sample Return |
Greg |
Automated Reconfigurable Mission Adaptive Digital Assembly Systems (ARMADAS)- Cost-effective Instrumentation for Planetary Science |
Haddox |
SUPERIOR ATTITUDE CONTROL |
Hegedus |
Filling Technological Gaps for Planetary Science Missions with Customized SRI Solutions |
Hergenrother |
Ant Ascending Node Technologies |
Horchler |
Astrobotic Terrain Relative Navigation |
Horchler |
Astrobotic UltraNav |
Houts |
High Performance Nuclear Thermal Propulsion |
Hovarter |
Lockheed Martin Technologies |
M. Johnson |
Lockheed Martin Technologies |
L. Johnson |
Solar Sail Propulsion for Planetary Missions |
Jones |
Snapdragon chipset technology |
Kataria |
SwRI Electrostatic Probe (EsP), a modified version of the Electron Spectrometer (ELS) recently flown at Venus |
Kenyon |
Next-Generation Cold Object Radiometer (COBRA) |
Kim |
Microfabricated Organic Analyzer for Biosignatures (MOAB) |
Kriechbaum |
CITADEL: An Icy Worlds Simulation Testbed |
Kremic |
Status of Technologies that can Enable High-Temperature Lander Operations |
Lambert |
High Performance in Situ Raman Instruments for Landed Planetary Missions |
Mann |
A compact spectral imager for small platforms |
Matthews |
FLEX Payload Interface Guide |
McClelland |
Evolved Structures: Using AI and robots to build lightweight spaceflight structures |
Melcher |
Satellite Conjunction Processing/Orbit Propagation, Estimation, and Visualization |
Miles |
Next Generation Fluxgate Magnetometers |
Myers |
Ruggedized Infrared Camera |
Newman |
Radioisotope Generators |
Noell |
The Organic Capillary Electrophoresis Analysis System (OCEANS) — A Wet Chemistry Biosignature Analyzer for Potential Future Ocean Worlds Missions |
Ono |
EELS (Exobiology Extant Life Surveyor): A Snake-like Robot for Enabling Enceladus Ocean Access |
Petro |
A gently ionizing electrospray ionization mass spectrometer for high mass organic and biomolecule detection |
Pickett |
Composites technologies |
Polzin |
Space Nuclear Propulsion For Deep Space Science Missions |
Probe |
Modular, open systems architecture (MOSA) FSW for multi-satellite missions |
Ricco |
SPLIce: Sample Processor for Life on Icy Worlds, a Microfluidic Front-end for Bio/Organic Analytical Instrumentation |
Rodriguez Monje |
Titan Radar Altimeter and Cloud/precipitation Explorer (TRACE) |
Sanchez |
A Demand Access System for Deep Space Operations |
Sauder |
Starburst: A Revolutionary Under-Constrained Adaptable Deployable Structure Architecture |
Schapiro |
Astrobotic System on Module (SOM) |
Schilffarth |
Nuclear Thermal Propulsion for High Delta-V Science Missions |
Schilffarth |
Starburst: A Revolutionary Under-Constrained Adaptable Deployable Structure Architecture |
Schindhelm |
Commercially Available Radioisotope Systems for Extreme Environments, Primary Power, and Electric Propulsion |
Schunk |
Active and Passive Storage Solutions for Low Temperature Lunar Sample Return |
Schwartz |
The Deep Space Solar Array: A Power-Source Technology for Missions to Saturn and Beyond |
Shariff |
MDA Robotics & Space Operations Division technologies |
Shaw |
Lockheed Martin Technologies |
Shoer |
Lockheed Martin Technologies |
Six |
Lockheed Martin Technologies |
Sposato |
Improving Mass and Efficiency in Space Power Systems for Enhanced Science Return |
Stackpoole |
Conformal PICA TPS – Enabling Future NASA Planetary Science Missions |
Tackett |
Aerocapture as an Enabling Technology for Planetary Missions |
Van Hoesen |
Back illuminated Surface Enhanced Raman Spectroscopy |
Venkatapathy |
3-D Woven Thermal Protection System |
Yant |
Lockheed Martin Technologies |
Yew |
Landing Manuevers to Minimize Surface Alterations |
Zanetti |
The Kinematic Navigation and Cartography Knapsack |
Zoughi |
Rover-Mounted, Real-Time and High-Resolution Microwave SAR Imaging System for Evaluation of Shallow Martian and Lunar Regolith |