Understanding the transfer of heat and momentum between different layers of the atmosphere and the underlying surface is critical for improving our weather and climate forecasts. Scientists at NOAA’s Physical Sciences Division (PSD) and the University of Colorado’s (CU) Cooperative Institute for Research in Environmental Sciences (CIRES) are working to develop, test, calibrate and deploy the compact, lightweight (1.2 lbs) miniFlux sensor system (Figure 1). This miniaturized instrument, which is supported by NOAA’s UAS Program Office, can reliably collect these measurements from unmanned aircraft systems (UAS).  Deploying this lightweight package on UAS over difficult-to-sample regions of the Earth can provide perspectives on these important processes in ways not previously possible.

The NOAA Remote Sensing Division (RSD) and Hydrographic Services Division (HSD) successfully completed Phase One of a UAS Program Office-funded project to develop the capability and approved documented operating procedures to safely launch and recover an M210RTK UAS from NOAA ships and small boats manually.

The establishment of a fully operational M210RTK system, trained UAS and vessel operators, operations protocols, data management and integration strategy, will allow unmanned rotary wing aerial assets to acquire data supporting NGS roadmap and OCS strategic goals that align with elements of the NOS Program, Line Office and Agency strategic plans. This project furthers the NOS “Safe and Efficient Transportation and Commerce” Priority by exploring and optimizing the use emerging airborne technology for coastal mapping and obstruction investigation surveys and the “Preparedness and Risk Reduction” Priority by investigating the use of UAS as a tool for rapid deployment damage assessment imagery.

Gathering data on the size of marine wildlife populations and better understanding the risks human activities pose to these populations are core responsibilities of NOAA Southwest Fisheries Science Center / Marine Mammal and Turtle Division. In this study, supported by the UAS Program Office, scientists will be evaluating the use of a fixed-wing UAS platform with vertical take-off and landing (VTOL; Firefly6 Pro, BirdsEyeView Aerobotics, Inc.).