Poster Session 10 |
| | Advanced Radar Technologies II |
| | P10.1 | Automatic Detection of Wind Turbine Clutter Using Doppler Spectral Features 
Kenta T. Hood, University of Oklahoma, Norman, OK; and S. M. Torres and R. D. Palmer |
| | P10.2 | A technique for wind turbine Radar Cross Section (RCS) characterization through electromagnetic models
Andrew Huston, Atmosphere Radar Research Center, Norman, OK; and Y. Zhang, S. Wang, F. Kong, and R. D. Palmer |
| | P10.3 | Wind turbine clutter mitigation for weather radar by means of telemetry
Fanxing Kong, University of Oklahoma, Norman, OK; and Y. Zhang, R. Palmer, A. Huston, and S. Wang |
| | P10.4 | Wind Turbine Clutter Detection in Surveillance Meteorological Radar Tasks
Beatriz Gallardo, Technical University of Madrid / Spanish Meteorological Agency, Madrid, Spain; and F. Aguado and F. Pérez |
| | P10.5 | NASA's Radar Software Library (RSL) and RSL in IDL
David B. Wolff, NASA/GSFC and SSAI, Greenbelt, MD; and B. L. Kelley |
| | P10.6 | A Free Software available for displaying Radar Data in netCDF format
Roberto Vicente Calheiros, MRI/IPMet/UNESP, Bauru, Brazil |
| | P10.7 | The impact of closely spaced elevation scans on observations obtained using the NWRT Phased Array Radar
Adam J. Smith, University of Oklahoma, Norman, OK; and P. L. Heinselman and P. B. Chilson |
| | P10.8 | Mode of dual polarization: phased array versus parabolic dish
Svetlana M. Bachmann, Lockheed Martin MS2, Syracuse, NY; and Y. Al-Rashid and M. D. Tracy |
| | P10.9 | NEXRAD Product Improvement—Update 2009
Michael J. Istok, NOAA/NWS, Silver Spring, MD; and R. E. Saffle and G. S. Cate |
| | P10.10 | Improvements to the National Weather Radar Testbed Radar Control Interface
David Priegnitz, NOAA/NSSL and CIMMS/Univ. of Oklahoma, Norman, OK; and P. L. Heinselman, S. M. Torres, and R. Adams |
| | P10.11 | Automatic detection and removal of ground clutter contamination on weather radars
David A. Warde, CIMMS/Univ. of Oklahoma, Norman, OK; and S. M. Torres |
| | P10.12 | An update on the RF and digital components of the multi-channel receiver development at the National Weather Radar Testbed
Mark Yeary, University of Oklahoma, Norman, OK; and J. E. Crain, A. Zahrai, R. Kelley, I. Ivic, J. Meier, C. D. Curtis, Y. Zhang, R. D. Palmer, T. Y. Yu, G. Zhang, R. J. Doviak, P. B. Chilson, M. Xue, and Q. Xu |
| | P10.13 | Task prioritization on phased-array radar scheduler for adaptive weather sensing
Ricardo Reinoso-Rondinel, University of Oklahoma, Norman, OK; and T. Y. Yu and S. M. Torres |
| | P10.14 | Analysis and potential improvements to the WSR-88D storm cell tracking algorithm
Benjamin Root, University of Oklahoma, Norman, OK; and M. Yeary and T. Y. Yu |
| | P10.15 | Spectral characterization of ground clutter using the NWRT
Christopher D. Curtis, CIMMS/Univ. of Oklahoma, Norman, OK; and D. S. Zrnic and T. Y. Yu |
| | P10.16 | Staggered PRT beam multiplexing on the NWRT: comparisons to existing scanning strategies
Christopher D. Curtis, CIMMS/Univ. of Oklahoma, Norman, OK; and D. S. Zrnic and T. Y. Yu |
| | P10.17 | Can RAdio Detection And Ranging be passive? First looks at measurements from a prototype “mesoscale radiometer”
Veronique Meunier, McGill University, Montreal, QC, Canada; and F. Fabry |
| | P10.18 | Waveguide Fibre Optic Rotary Joint for Antenna Mounted Radar Receivers
Dennis Vollbracht Sr., Selex Sistemi Integrati GmbH, Gematronik Weather Radar Systems, Neuss, Germany |
| | P10.19 | Evaluation of phase ambiguity problem due to sampling time when measuring refractivity with precipitation radar
Chiraz Boudjabi, Météo France, Trappes, France; and J. Parent du Châtelet |
| | P10.20 | Estimation of low-level atmospheric refractivity gradient using ground echo coverage
Shinju Park, McGill University, Montreal, QC, Canada; and F. Fabry |
| | P10.21 | A new clutter censoring technique—Updates on radar refractivity retrieval
Daniel S. Michaud, University of Oklahoma, Norman, OK; and R. D. Palmer, D. Bodine, P. L. Heinselman, and B. L. Cheong |
| | P10.22 | Using a dual-polarimetric weather radar simulator to investigate microwave backscatter from birds
Phillip B. Chilson, Univ. of Oklahoma, Norman, OK; and K. Bolognini, B. L. Cheong, and J. Kelly |
| | P10.23 | Real-time airborne radar wind-profiling algorithm for the Integrated Wind and Rain Airborne Profiler
S.J. Frasier, Univ. of Massachusetts, Amherst, MA; and T. Chu |
| | P10.24 | Progress towards a prototype radar for renewal of the UK weather radar network
Tim Darlington, UK Met Office, Exeter, United Kingdom; and M. Edwards, R. Riley, V. Lissaman, and J. Sugier |
| | P10.25 | Meter-scale Observations of Aircraft Wake Vortices in Precipitation using a High Resolution Solid-State W-band Radar
James B. Mead, ProSensing Inc., Amherst, MA; and T. A. Seliga |