J
Joseph A. Shaw
Researcher at Montana State University
Publications - 226
Citations - 4670
Joseph A. Shaw is an academic researcher from Montana State University. The author has contributed to research in topics: Radiance & Polarization (waves). The author has an hindex of 28, co-authored 213 publications receiving 4098 citations. Previous affiliations of Joseph A. Shaw include University of Utah & National Oceanic and Atmospheric Administration.
Papers
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Journal ArticleDOI
Review of passive imaging polarimetry for remote sensing applications
TL;DR: The foundations of passive imaging polarimetry, the phenomenological reasons for designing a polarimetric sensor, and the primary architectures that have been exploited for developing imaging polarimeters are discussed.
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Radiometry and the Friis transmission equation
TL;DR: In this paper, the authors developed the Friis transmission equation from the principles of optical radiometry and scalar diffraction, and showed that the wavelength-squared dependence can be attributed to diffraction at the antenna aperture.
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A shallow subsurface controlled release facility in Bozeman, Montana, USA, for testing near surface CO2 detection techniques and transport models
Lee H. Spangler,Laura M. Dobeck,Kevin S. Repasky,Amin R. Nehrir,Seth D. Humphries,Jamie L. Barr,Charlie J. Keith,Joseph A. Shaw,Joshua H. Rouse,Alfred B. Cunningham,Sally M. Benson,Curtis M. Oldenburg,Jennifer L. Lewicki,Arthur W. Wells,J. Rodney Diehl,Brian R. Strazisar,Julianna Fessenden,Thom Rahn,James E. Amonette,Jon L. Barr,William Pickles,James Jacobson,Eli A. Silver,Erin J. Male,Henry W. Rauch,Kadie Gullickson,Robert C. Trautz,Yousif K. Kharaka,Jens Birkholzer,Lucien Wielopolski +29 more
TL;DR: In this paper, a controlled field pilot has been developed in Bozeman, Montana, USA, to study near surface CO2 transport and detection technologies, and a slotted horizontal well divided into six zones was installed in the shallow subsurface.
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Scanning-laser glint measurements of sea-surface slope statistics
TL;DR: A scanning-laser glint meter designed for field measurements of sea-surface slope statistics is described, and under conditions of negative stability, both the mean-square slope and the probability density function kurtosis increase.
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Polarization lidar measurements of honey bees in flight for locating land mines
Joseph A. Shaw,Nathan Seldomridge,Dustin L. Dunkle,Paul W. Nugent,Lee H. Spangler,Jerry J. Bromenshenk,Colin B. Henderson,James H. Churnside,James J. Wilson +8 more
TL;DR: A scanning polarized lidar was used to detect flying honey bees trained to locate buried land mines through odor detection and a lidar map of bee density shows good correlation with maps of chemical plume strength and bee density determined by visual and video counts.