Poster Session 4 |
| | Turbulence and Wind Shear, Poster Session |
| | P4.1 | A Climatology of predicted turbulence and shear near Juneau, Alaska
Marcia K. Politovich, NCAR, Boulder, CO; and F. W. Wilson, R. K. Goodrich, S. A. Cohn, A. R. Weekley, C. S. Morse, and M. Pocernich |
| | P4.2 | Turbulence PIREPs in Juneau– An Analysis 
Jamie T. Braid, NCAR, Boulder, CO; and T. L. Fowler |
| | P4.3 | Aviation impacts of terrain-induced wind shear
F. Wesley Wilson, NCAR, Boulder, CO; and R. K. Goodrich and S. G. Carson |
| | P4.4 | Field programs to investigate hazards to aviation in Juneau, Alaska
Stephen A. Cohn, NCAR, Boulder, CO; and R. Barron, A. Yates, A. R. Rodi, P. Neilley, A. Praskovsky, and L. Cornman |
| | P4.5 | An anemometer data quality control method designed for a turbulence and wind shear prediction algorithm
R. Andrew Weekley, NCAR, Boulder, CO; and R. K. Goodrich, A. Praskovsky, and L. B. Cornman |
| | P4.6 | Aircraft-correlated turbulence measurements with the Doppler On Wheels
Steven Mueller, NCAR, Boulder, CO; and S. A. Cohn and A. Praskovsky |
| | P4.7 | Juneau airport wind hazard alert system display products
Steven Mueller, NCAR, Boulder, CO; and C. S. Morse, D. Garvey, R. Barron, D. Albo, and P. Prestopnik |
| | P4.8 | Use of a commercial wind sodar for measuring wake vortices
Stephen Mackey, Volpe National Transportation Systems Center, Cambridge, MA; and D. C. Burnham and K. H. Underwood |
| | P4.9 | Measurement of eddy dissipation rate by a mini-sodar for aviation application: comparison with tower measurement
P. W. Chan, Hong Kong Observatory, Hong Kong, China |
| | P4.10 | Performance of eddy dissipation rate estimates from wind profilers in turbulence detection
P. W. Chan, Hong Kong Observatory, Hong Kong, China; and S. T. Chan |
| | P4.11 | Prototype automatic LIDAR-based wind shear detection algorithms
B.L. Choy, Hong Kong Observatory, Hong Kong SAR, China; and O. S. M. Lee, C. M. Shun, and C. M. Cheng |
| | P4.12 | Performance of an airborne radar turbulence detection algorithm
Larry Cornman, NCAR, Boulder, CO; and J. Williams, G. Meymaris, and B. Chorbajian |
| | P4.13 | Eddy Dissipation Rate Performance of the Tropospheric Airborne Meteorological Data Reporting (TAMDAR) Sensor During the 2003 Atlantic THORPEX Regional Campaign
Larry B. Cornman, NCAR, Boulder, CO; and P. Schaffner, C. A. Grainger, R. T. Neece, T. S. Daniels, and J. J. Murray |
| | P4.14 | Climatological study of aircraft turbulence versus cloud cover based on 3 years worth of data
Jamie K. Wolff, NCAR, Boulder, CO; and R. Sharman |
| | P4.15 | Atmospheric turbulence and energy spectra in mesoscale models
Zavisa I. Janjic, NOAA/NWS/NCEP, Camp Springs, MD |
| | P4.16 | Low Level Turbulence Algorithm Testing at-or-below 10,000 ft
Gordon R. Brooks, Air Force Weather Agency, Offutt AFB, NE; and A. D. Oder |
| | P4.17 | An unbalanced flow/gravity wave trigger mechanism for clear air turbulence
Donald W. McCann, NOAA/NWS/NCEP/Aviation Weather Center, Kansas City, MO |
|  | P4.18 | Numerical simulations of the interaction between gravity waves and turbulence during ATReC
Todd P. Lane, NCAR / RAP, Boulder, CO; and R. Sharman, H. M. Hsu, and J. J. Murray |
| | P4.19 | Application of wavelet analysis techniques to the study of turbulence and gravity waves using aircraft data and mesoscale-model fields
Chungu Lu, NOAA/ FSL, Boulder, CO; and S. Koch and N. Wang |
| | P4.20 | Numerical simulations of a THORPEX clear-air-turbulence event
Hsiao-ming Hsu, NCAR, Boulder, CO; and R. Sharman, W. D. Hall, and J. J. Murray |
| | P4.21 | Pulsed Doppler Lidar for Terminal Area Monitoring of Wind and Wake Hazards
Stephen M. Hannon, Coherent Technologies Inc., Louisville, CO |