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Amanda Grimm, MTRI, Remote Sensing-Based Detection and Monitoring of Dangerous Currents in the State of Michigan
Michigan Tech Research Institute of Ann Arbor September 2013 Recent Projects Poster Presentations
CMDR John Maschke and LCDR Peter Johnson from the RAN Hydrographic Office visited New Zealand at the end of January 1999 to see the American SHOALS laser hydrographic surveying system and aircraft.
Two surveys at once! The magnetometer is very sensitive to metal, so we made sure that the two instruments were never closer than 5m.
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Photo by: Taylor H. Thornton
Copernicus Sentinel2. The image is upside-down and it mainly covers Nicaragua and its Reserva Natural Delta del Estero Real.
Reference: APAAME_20221121_FB-0794
Photographer: Firas Bqa'in
Credit: APAAME
Copyright: Creative Commons Attribution-Noncommercial-NoDerivative Works
The Q-Bot, made in the engineering technology department of UWO to practice using remote sensing technology.
Great teleconference this afternoon discussing Public-Private-Academia Partnerships: today's topic focusing on GPS water vapor observations.
Exciting opportunities for new cos to become involved with CRADAs (Cooperative Research and Development Agreements)
The Q-Bot, made in the engineering technology department of UWO to practice using remote sensing technology.
The Global Fire Emissions Indicators, Grids: 1997-2015 contain a time-series of rasters from 1997 to 2015 for total area burned (hectares) and total carbon content (tons). The data are produced by combining 500m MODIS (Moderate-Resolution Imaging Spectroradiometer) burn area maps with active fire data from ATSR (Along-Track Scanning Radiometer) and TRMM (Tropical Rainfall Measuring Mission) VIRS (Visible and Infrared Scanner). The annual total carbon content is for all fire types (Agricultural, Boreal, Tropical Deforestation, Peat, Savanna, and Temperate forests) and represents the total carbon emissions (tons) in each 0.25 degree x 0.25 degree grid cell.