Glynn C. Hulley

What is he best known for?

The fields of study he is best known for:

• Remote sensing
• Meteorology
• Infrared

Glynn C. Hulley spends much of his time researching Remote sensing, Environmental science, Emissivity, Satellite and Advanced Spaceborne Thermal Emission and Reflection Radiometer. The study incorporates disciplines such as Atmospheric sciences and Imaging spectrometer in addition to Remote sensing. His studies in Emissivity integrate themes in fields like Pixel and Impervious surface.

Glynn C. Hulley combines subjects such as Image resolution and Satellite imagery with his study of Satellite. Glynn C. Hulley has included themes like Meteorology and Surface water in his Advanced Spaceborne Thermal Emission and Reflection Radiometer study. His study looks at the intersection of Moderate-resolution imaging spectroradiometer and topics like Radiometer with Atmospheric Infrared Sounder.

His most cited work include:

• Synergies between VSWIR and TIR data for the urban environment: An evaluation of the potential for the Hyperspectral Infrared Imager (HyspIRI) Decadal Survey mission (166 citations)
• Generating Consistent Land Surface Temperature and Emissivity Products Between ASTER and MODIS Data for Earth Science Research (120 citations)
• Intercomparison of versions 4, 4.1 and 5 of the MODIS Land Surface Temperature and Emissivity products and validation with laboratory measurements of sand samples from the Namib desert, Namibia (111 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Remote sensing, Environmental science, Emissivity, Land surface temperature and Hyperspectral imaging. His study on Advanced Spaceborne Thermal Emission and Reflection Radiometer is often connected to Earth system science as part of broader study in Remote sensing. His Environmental science study spans across into areas like Satellite, Thermal infrared, Radiometer, Remote sensing and Evapotranspiration.

The concepts of his Satellite study are interwoven with issues in Climatology, Atmospheric sciences and Radiative transfer. His Emissivity research includes elements of Image resolution, Atmospheric correction, Aster and Radiance. His studies deal with areas such as Pixel, Multispectral image and Lidar as well as Hyperspectral imaging.

He most often published in these fields:

• Remote sensing (71.79%)
• Environmental science (70.09%)
• Emissivity (41.03%)

What were the highlights of his more recent work (between 2017-2021)?

• Environmental science (70.09%)
• Remote sensing (71.79%)
• Emissivity (41.03%)

In recent papers he was focusing on the following fields of study:

Environmental science, Remote sensing, Emissivity, Hyperspectral imaging and Thermal infrared are his primary areas of study. Many of his Environmental science research pursuits overlap with Land surface temperature, Satellite, Climatology, Atmospheric sciences and Evapotranspiration. When carried out as part of a general Remote sensing research project, his work on Remote sensing, Radiance and Advanced Spaceborne Thermal Emission and Reflection Radiometer is frequently linked to work in Earth system science, therefore connecting diverse disciplines of study.

The Emissivity study combines topics in areas such as Atmospheric radiative transfer codes, Radiative transfer, Infrared and Aster. His study in Hyperspectral imaging is interdisciplinary in nature, drawing from both Lidar and Multispectral image. His Thermal infrared research incorporates elements of Hydrology and High spatial resolution.

Between 2017 and 2021, his most popular works were:

• An Operational Land Surface Temperature Product for Landsat Thermal Data: Methodology and Validation (47 citations)
• ECOSTRESS: NASA's Next Generation Mission to Measure Evapotranspiration From the International Space Station (38 citations)
• Hyperspectral remote sensing of fire: State-of-the-art and future perspectives (37 citations)

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