Scott Glenn focuses on Oceanography, Continental shelf, Meteorology, Storm and Stratification. His work carried out in the field of Oceanography brings together such families of science as Phytoplankton and Climatology. His research in Continental shelf intersects with topics in Ocean dynamics, Water mass and Boundary layer.
His Meteorology study combines topics from a wide range of disciplines, such as Radar, Waves and shallow water and Long-term Ecosystem Observatory. His Storm study incorporates themes from Bedform, Glider and Geomorphology. His study looks at the intersection of Stratification and topics like Water column with Winter storm and Ocean current.
His main research concerns Oceanography, Meteorology, Radar, Remote sensing and Glider. His work on Climatology expands to the thematically related Oceanography. His Meteorology research integrates issues from Current, Waves and shallow water, Ocean current and Shore.
When carried out as part of a general Radar research project, his work on Wave radar is frequently linked to work in Search and rescue, therefore connecting diverse disciplines of study. The various areas that Scott Glenn examines in his Remote sensing study include Radar engineering details, Continuous-wave radar, Bistatic radar, Radar tracker and Buoy. Scott Glenn has included themes like Stratification and Sediment transport in his Storm study.
His scientific interests lie mostly in Oceanography, Glider, Radar, Meteorology and Tropical cyclone. His work in the fields of Oceanography, such as Continental shelf and Typhoon, intersects with other areas such as Undergraduate student and Present generation. His study in the fields of Underwater glider under the domain of Glider overlaps with other disciplines such as Oceanic basin.
Scott Glenn has researched Radar in several fields, including Ocean current, Remote sensing, Wave height and Noise. His research integrates issues of Current, Upwelling and Active season in his study of Meteorology. His Tropical cyclone research is multidisciplinary, incorporating elements of Storm, Sea surface temperature and Ocean observations.
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A suspended sediment stratification correction for combined wave and current flows
Scott M. Glenn;William D. Grant.
Journal of Geophysical Research (1987)
Slocum Gliders: Robust and ready
Oscar Schofield;Josh Kohut;David Aragon;Liz Creed.
Journal of Field Robotics (2007)
Modeling stratified wave and current bottom boundary layers on the continental shelf
Richard Styles;Scott M. Glenn.
Journal of Geophysical Research (2000)
Vertical mixing schemes in the coastal ocean: Comparison of the level 2.5 Mellor‐Yamada scheme with an enhanced version of the K profile parameterization
Scott M. Durski;Scott M. Glenn;Dale B. Haidvogel.
Journal of Geophysical Research (2004)
Shallow Water '06: A Joint Acoustic Propagation/Nonlinear Internal Wave Physics Experiment
Dajun Tang;James N. Moum;James F. Lynch;Philip A. Abbot.
Improving HF Radar Surface Current Measurements with Measured Antenna Beam Patterns
Josh T. Kohut;Scott M. Glenn.
Journal of Atmospheric and Oceanic Technology (2003)
A regional ocean modeling system for the Long-term Ecosystem Observatory
John L. Wilkin;Hernan G. Arango;Dale B. Haidvogel;C. Sage Lichtenwalner;C. Sage Lichtenwalner.
Journal of Geophysical Research (2005)
Long-term Real-time Coastal Ocean Observation Networks
Scott M. Glenn;Tommy D. Dickey;Bruce Parker;William Boicourt.
Storm‐dominated bottom boundary layer dynamics on the Northern California Continental Shelf: Measurements and predictions
David A. Cacchione;William D. Grant;David E. Drake;Scott M. Glenn.
Journal of Geophysical Research (1987)
Routes and rates of larval fish transport from the southeast to the northeast United States continental shelf
Jonathan A. Hare;James H. Churchill;Robert K. Cowen;Thomas J. Berger.
Limnology and Oceanography (2002)
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