Showing 105 technologies
Browse All »
-
Investigation to Determine Rotational Stability of On-Orbit Propellant Storage and Transfer Systems Undergoing Operational Fuel Transfer Scenarios
PI: Sathya Gangadharan, Zero Gravity Horizons- 2 Parabolic
- 0 sRLV
-
Electromagnetic Field Measurements on sRLV
PI: H. Todd Smith, Johns Hopkins University / Applied Physics Lab- 3 sRLV
-
Microgravity Multi-Phase Flow Experiment for Suborbital Testing (MFEST)
PI: Kathryn M. Hurlbert, NASA/Johnson Space Center- 4 Parabolic
- 2 sRLV
-
Application of controlled vibrations to multiphase systems
PI: Ricard Gonzalez-Cinca, Universitat Politecnica de Catalunya- 3 sRLV
-
Environment monitoring suite on suborbital Reusable Launch Vehicle (sRLV)
PI: H. Todd Smith, Johns Hopkins University / Applied Physics Lab- 0 sRLV
-
Measurement of the Atmospheric Background in the Mesosphere
PI: Sean Casey, Silicon Valley Space Center- 0 sRLV
-
Collisions Into Dust Experiment on a Commercial Suborbital Vehicle
PI: Josh Colwell, University of Central Florida- 3 sRLV
-
Collection of Regolith Experiment (CORE) on a Commercial Suborbital Vehicle
PI: Josh Colwell, University of Central Florida- 1 sRLV
-
Validating Telemetric Imaging Hardware for Crew-Assisted and Crew-Autonomous Biological Imaging in Suborbital Applications
PI: Rob Ferl, University of Florida - Gainesville- 1 Parabolic
- 3 sRLV
-
Flight Testing of a Universal Access Tranceiver (UAT) Automatic Dependent Surveillance Broadcast (ADS-B) Transmitter Prototype for Commercial Space Transportation Using Reusable Launch Vehicles
PI: Richard Stansbury, Embry-Riddle Aeronautical University- 2 sRLV
- 1 Balloon
-
Demonstration of Vertically Aligned Carbon Nano-tubes for Earth Climate Remote Sensing
PI: H. Todd Smith, Johns Hopkins University / Applied Physics Lab- 0 sRLV
-
Facility for Microgravity Research and Submicroradian Stabilization using sRLVs
PI: Scott Green, Controlled Dynamics Inc.- 7 sRLV
-
Technology Demonstration of Graphene Ion Membranes for Earth and Space Applications
PI: H. Todd Smith, Johns Hopkins University / Applied Physics Lab- 0 sRLV
-
Entry Descent and Landing (EDL) Technology Development for the Maraia Earth Return Capsule
PI: Alan Strahan, NASA/Johnson Space Center- 1 sRLV
Platform Type
< All Platform Types- sRLV (105)
Status
< All Status- Active (105)
Selection Date
- TechFlights21 (Dec 2021) (5)
- FlightsofOpportunity (1)
- TechLeap22 (3)
- INTERNAL2021 (12)
- INTERNAL2020 (5)
- SBIR-STTR (2)
- TechFlights20 (Sep 2020) (11)
- TechFlights19 (Oct 2019) (17)
- REDDI-F1-18 (Aug 2018) (7)
- REDDI-F1-17B (Apr 2018) (2)
- REDDI-F1-17A (Nov 2017) (4)
- REDDI-F1-16B (Jan 2017) (1)
- NASA Internal (Oct 2016) (1)
- NASA Internal (Jul 2016) (1)
- REDDI-F1-16 (Jul 2016) (2)
- USIP-15 (Apr 2016) (2)
- REDDI-F1-15 (Nov 2015) (2)
- AFO8 (Apr 2014) (1)
- USIP-13 (Aug 2013) (1)
- NRA-2-APP-E (Aug 2013) (2)
- AFO5 (Jan 2013) (1)
- AFO4 (Aug 2012) (1)
- NRA-1-APP-A (Jul 2012) (2)
- AFO3 (Mar 2012) (2)
- AFO2 (Oct 2011) (4)
- AFO1 (May 2011) (2)
- NASA Directed (11)
Technology Areas
- TA01 Launch Propulsion Systems (3)
- TA02 In-Space Propulsion Technologies (15)
- TA03 Space Power & energy Storage (1)
- TA04 Robotics, Tele-Robotics and Autonomous Systems (3)
- TA05 Communication and Navigation (3)
- TA06 Human Health, Life Support and Habitation Systems (14)
- TA07 Human Exploration Destination Systems (6)
- TA08 Science Instruments, Observations and Sensor Systems (19)
- TA09 Entry, Descent and Landing Systems (7)
- TA10 Nanotechnology (1)
- TA11 Modeling, Simulation, Information Technology and Processing (2)
- TA12 Materials, Structures, Mechanical Systems and Manufacturing (2)
- TA13 Ground and Launch Systems Processing (2)
- TA14 Thermal Management Systems (6)