F2.2
Identifying Regions of Large Propagation Variability via Principal Component Analysis
Douglas Pastore, Naval Surface Warfare Center Dahlgren Division, United States; Zach Beever, Johns Hopkins University Applied Physics Laboratory, United States
Session:
F2: Atmospheric Propagation and Remote Sensing Lecture
Track:
Commission F: Wave Propagation and Remote Sensing
Location:
Room 245
Presentation Time:
Thu, 9 Jan, 08:40 - 09:00 MT (UTC -7)
Session Chair:
Daniel P. Greenway, Coastal Carolina University
Presentation
Discussion
Resources
No resources available.
Session F2
F2.1: Remote Sensing of Humidity and Temperature from X-band Radar Measurements in the Marine Atmospheric Surface Layer
Erin E. Hackett, Douglas M. Pastore, Daniel P. Greenway, Alexis E. Vaughan, Caleb R. Sease, Coastal Carolina University, United States
F2.2: Identifying Regions of Large Propagation Variability via Principal Component Analysis
Douglas Pastore, Naval Surface Warfare Center Dahlgren Division, United States; Zach Beever, Johns Hopkins University Applied Physics Laboratory, United States
F2.3: A Quantitative Method for Comparing RF Propagation Model Output
Zach Beever, Johns Hopkins University Applied Physics Laboratory, United States; Abby Anderson, Naval Research Laboratory DC, United States; Jonathan Gehman, Johns Hopkins University Applied Physics Laboratory, United States; Douglas Pastore, Naval Surface Warfare Center Dahlgren Division, United States
F2.4: Viability of a Ground-Based Wind Profiling Radar Remote Sensing Methodology for Application in the Marine Atmospheric Surface Layer
Caleb R. Sease, Daniel P. Greenway, Erin E. Hackett, Coastal Carolina University, United States
F2.5: Statistical Distributions of Evaporation Duct Height and Strength Over Range and the Diurnal Cycle
Sarah Wessinger, Naval Research Lab, United States; Andrew Kammerer, Devine Consulting, United States; David Flagg, Qingfang Jiang, Naval Research Lab, United States
F2.6: Assessment of a Humidity and Temperature Retrieval Technique Using Refractivity Measurements
Daniel P. Greenway, Caleb R. Sease, Coastal Carolina University, United States; Qing Wang, Ryan Yamaguchi, Naval Postgraduate School, United States; Erin E. Hackett, Coastal Carolina University, United States
F2.7: Impact of surface temperature representation in a mesoscale numerical weather prediction model on electromagnetic propagation modeling over an inland water body
Andrew Kammerer, DeVine Consulting Inc, United States; Sarah Wessinger, Naval Research Laboratory, United States; Jacob Yung, Bay Systems Consulting, Inc, United States; David Flagg, Naval Research Laboratory, United States
Contacts