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Disambiguation of "Wooster, Martin J."

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A Machine Learning Approach to Waterbody Segmentation in Thermal Infrared Imagery in Support of Tactical Wildfire Mapping.

, , , , , and . Remote. Sens., 14 (9): 2262 (2022)

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Martin J Pfeiffer

Fritz J Martin

Martin J Bauer

Martin J Kastrup

Martin J Donougho

 

Other publications of authors with the same name

Orthorectification of Helicopter-Borne High Resolution Experimental Burn Observation from Infra Red Handheld Imagers., , , , , , , , , and 1 other author(s). Remote. Sens., 13 (23): 4913 (2021)A Decade Long, Multi-Scale Map Comparison of Fire Regime Parameters Derived from Three Publically Available Satellite-Based Fire Products: A Case Study in the Central African Republic., , and . Remote Sensing, 6 (5): 4061-4089 (2014)Sensors for Fire and Smoke Monitoring., , and . Sensors, 21 (16): 5402 (2021)Development of the User Requirements for the Canadian WildFireSat Satellite Mission., , , , , , , , , and 5 other author(s). Sensors, 20 (18): 5081 (2020)Shortwave IR Adaption of the Mid-Infrared Radiance Method of Fire Radiative Power (FRP) Retrieval for Assessing Industrial Gas Flaring Output., and . Remote Sensing, 10 (2): 305 (2018)Radiometric Calibration of 'Commercial off the Shelf' Cameras for UAV-Based High-Resolution Temporal Crop Phenotyping of Reflectance and NDVI., , , , and . Remote Sensing, 11 (14): 1657 (2019)An Overview of the Use of the SimSphere Soil Vegetation Atmosphere Transfer (SVAT) Model for the Study of Land-Atmosphere Interactions., , and . Sensors, 9 (6): 4286-4308 (2009)A Machine Learning Approach to Waterbody Segmentation in Thermal Infrared Imagery in Support of Tactical Wildfire Mapping., , , , , and . Remote. Sens., 14 (9): 2262 (2022)New Tropical Peatland Gas and Particulate Emissions Factors Indicate 2015 Indonesian Fires Released Far More Particulate Matter (but Less Methane) than Current Inventories Imply., , , , , , , , , and 3 other author(s). Remote. Sens., 10 (4): 495 (2018)How Well Does the 'Small Fire Boost' Methodology Used within the GFED4.1s Fire Emissions Database Represent the Timing, Location and Magnitude of Agricultural Burning?, , , and . Remote Sensing, 10 (6): 823 (2018)