Assessment of Forward Sensing Turbulence Detection Strategies for Stratospheric Flight
PI: Sean Bailey, University of Kentucky, Qamar Shams (Co-I), NASA/Langley Research Center
PI: Sean Bailey, University of Kentucky, Qamar Shams (Co-I), NASA/Langley Research Center
- TA08 Science Instruments, Observations and Sensor Systems
Currently, significant gaps exist in the forward detection of turbulence, impacting commercial use of suborbital and low-Earth orbit vehicles and aviation generally. In this demonstration, researchers will assess the feasibility of detecting the infrasonic signature of turbulence using a single microphone as well as investigate the potential of using an in-situ reduced-order model to forward-predict the presence of turbulence at high altitudes.
Using the stratosphere as an analog for suborbital and low-atmosphere environments, this experiment will launch an unmanned scientific glider from a balloon at altitudes of 30–50 km to test new methods of forward-sensing turbulence detection. The system’s sensors have a TRL of 4 and the unmanned glider platform is at TRL 7. Successful tests will move the sensor technology from TRL 4 to 7.
Aircraft developers, including sub-orbital and hypersonic aircraft.
Commercial passenger carriers seeking to detect and avoid turbulent conditions.
Researchers studying atmospheric fluid dynamic gravity waves and the effects on weather and climate.
Technology Details
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Selection DateTechFlights19 (Oct 2019)
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Program StatusActive
- 0 Balloon
Development Team
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PISean Bailey
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PI Organization
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Co-IQamar Shams
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Co-I Organization
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SponsorNASA