Showing 359 technologies
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Flyover Mapping and Modeling of Terrain Features
PI: William "Red" Whittaker, Carnegie Mellon University- 1 sRLV
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Microgravity Experiment on Accretion in Space Environments
PI: Josh Colwell, University of Central Florida- 1 Parabolic
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Microgravity Propellant Gauging Using Modal Analysis
PI: Kevin Crosby, Carthage College- 2 Parabolic
- 0 sRLV
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Gannon University's Cosmic-Ray Calorimeter (GU-CRC)
PI: Nicholas Conklin, Gannon University- 1 Balloon
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Human Exploration Telerobotics (HET) Smartphone
PI: Terry Fong, NASA/Ames Research Center- 1 Parabolic
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Validating Microgravity Mobility Models for Hopping/Tumbling Robots
PI: Issa Nesnas, NASA/Jet Propulsion Laboratory- 1 Parabolic
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Reduced Gravity Flight Demonstration of Synchronized Position Hold Engage Reorient Experimental Satellites (SPHERES) Universal Docking Ports
PI: Alvar Saenz Otero, Massachusetts Institute of Technology- 1 Parabolic
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Testing of a Microgravity Rock Coring Drill Using Microspines
PI: Aaron Parness, NASA/Jet Propulsion Laboratory- 1 Parabolic
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Reinventing the wheel: parabolic flight validation of reaction spheres
PI: Alvin Yew, NASA/Goddard Space Flight Center- 1 Parabolic
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Enhanced Dynamic Load Sensors for ISS (EDLS-ISS) Operational Feasibility for Advanced Resistive Exercise Device (ARED)
PI: Christopher Krebs, Aurora Flight Sciences Corp. - Cambridge- 1 Parabolic
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Effects of Microgravity on Intracranial Pressure
PI: Benjamin Levine, University of Texas Southwestern Medical Center - Dallas- 2 Parabolic
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Payload Separation Performance of a New 6U CubeSat Canisterized Satellite Dispenser
PI: Hans-Peter Dumm, Air Force Research Laboratory - Kirtland- 1 Parabolic
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Noninvasive Hemodynamic Monitoring in Microgravity, Phase II (Arterial Stiffness)
PI: Gregory Kovacs, Stanford University- 1 Parabolic
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Testing ON-OFF Gecko Adhesive Grippers in Microgravity
PI: Aaron Parness, NASA/Jet Propulsion Laboratory- 2 Parabolic
Platform Type
Status
Selection Date
- TechFlights21 (Dec 2021) (9)
- EPSCoR22 (Aug 2022) (3)
- TechLeap21 (Sep 2021) (4)
- FlightsofOpportunity (4)
- TechLeap22 (3)
- INTERNAL2021 (19)
- INTERNAL2020 (6)
- SBIR-STTR (4)
- ISS JSC/OZ (3)
- DEVELOPMENT (6)
- INTERNAL2022 (2)
- TechFlights20 (Sep 2020) (35)
- TechFlights19 (Oct 2019) (26)
- REDDI-F1-18 (Aug 2018) (15)
- REDDI-F1-17B (Apr 2018) (6)
- REDDI-F1-17A (Nov 2017) (9)
- NASA Internal (Apr 2017) (2)
- REDDI-F1-16B (Jan 2017) (5)
- NASA Internal (Oct 2016) (2)
- NASA Internal (Jul 2016) (2)
- REDDI-F1-16 (Jul 2016) (11)
- USIP-15 (Apr 2016) (2)
- NASA Internal (Mar 2016) (1)
- REDDI-F1-15 (Nov 2015) (7)
- REDDI-F1-14 (Apr 2015) (6)
- AFO8 (Apr 2014) (13)
- USIP-13 (Aug 2013) (4)
- NRA-2-APP-E (Aug 2013) (11)
- AFO6 (Jun 2013) (21)
- AFO5 (Jan 2013) (13)
- AFO4 (Aug 2012) (2)
- NRA-1-APP-A (Jul 2012) (14)
- AFO3 (Mar 2012) (24)
- AFO2 (Oct 2011) (9)
- AFO1 (May 2011) (16)
- NASA Directed (40)
Technology Areas
- TA01 Launch Propulsion Systems (10)
- TA02 In-Space Propulsion Technologies (41)
- TA03 Space Power & energy Storage (10)
- TA04 Robotics, Tele-Robotics and Autonomous Systems (35)
- TA05 Communication and Navigation (25)
- TA06 Human Health, Life Support and Habitation Systems (64)
- TA07 Human Exploration Destination Systems (22)
- TA08 Science Instruments, Observations and Sensor Systems (54)
- TA09 Entry, Descent and Landing Systems (25)
- TA10 Nanotechnology (8)
- TA11 Modeling, Simulation, Information Technology and Processing (13)
- TA12 Materials, Structures, Mechanical Systems and Manufacturing (20)
- TA13 Ground and Launch Systems Processing (9)
- TA14 Thermal Management Systems (28)