Session 6 |
| | In situ and remote observational methods (Parallel with Session 4) |
| | Organizer: Francis L. Ludwig, Stanford University, Stanford, CA
|
| 10:30 AM | 6.1 | Vertical profiles of water vapour fluxes in the convective boundary layer measured by ground-based Differential Absorption Lidar and Heterodyne Doppler Lidar  
Barbara Hennemuth, Max-Planck-Institute for Meteorolgy, Hamburg, Germany; and H. Linné, J. Bösenberg, K. Ertel, and J. P. Leps |
| 10:45 AM | 6.2 | NCAR's New Raman-shifted Eye-safe Aerosol Lidar (REAL)
Shane D. Mayor, NCAR, Boulder, CO; and S. Spuler, J. Fox, T. Rucker, and B. Morley |
| 11:00 AM | 6.3 | Turbulence Characteristics over an urban domain observed by Doppler lidars
Yansen Wang, U.S. Army Research Laboratory, Adelphi, MD; and D. Ligon, E. Creegan, C. Williamson, C. Klipp, M. Felton, and R. J. Calhoun |
| 11:15 AM | 6.4 | Airborne Doppler radar observations of turbulence in marine stratocumulus
Marie Lothon, NCAR, Boulder, CO; and D. H. Lenschow, D. Leon, and G. Vali |
| 11:30 AM | 6.5 | The determination of area-averaged turbulent surface fluxes from low-level flights using inverse modelling: Verification, benefit, and comparison
Jens Bange, Aerospace Systems/Technical Univ., Braunschweig, Germany; and T. Spiess and P. Zittel |
| 11:45 AM | 6.6 | Error analysis of divergence and vorticity from aircraft-measured winds in a cloud-capped boundary layer
Verica Savic-Jovcic, University of California, Los Angeles, CA; and B. Stevens and D. H. Lenschow |
| 12:00 PM | | Lunch Break
|
| 1:30 PM | 6.7 | MMAV—a miniature unmanned aerial vehicle (Mini-UAV) for meteorological purposes
Marco Buschmann, Aerospace Systems, Technical University Braunschweig, Braunschweig, Germany; and J. Bange and P. Vörsmann |
| 1:45 PM | 6.8 | Acoustic tomographic measurements in the atmospheric surface layer
Klaus Arnold, University of Leipzig, Leipzig, Germany; and A. Ziemann, A. Raabe, M. Barth, and D. Daniel |
| 2:00 PM | 6.9 | Assessment of Acoustic Travel-Time Tomography of the Atmospheric Surface Layer
D. Keith Wilson, U.S. Army Cold Regions Research and Engineering Laboratory, Hanover, NH; and V. E. Ostashev, S. N. Vecherin, A. D. Voronovich, S. L. Collier, and J. M. Noble |
| 2:15 PM | 6.10 | Development of a real-time, automated boundary layer height detection algorithm using radar wind profiler data
Laura Bianco, University of L'Aquila, Italy and NOAA/ETL, Boulder, CO; and J. M. Wilczak, D. Gottas, and A. B. White |
| 2:30 PM | 6.11 | Determination of turbulent parameters in the atmospheric boundary layer with an UHF wind profiler. Comparison with in situ measurements
V. Puygrenier, Laboratoire d'Aérologie, Campistrous, France; and B. Bénech, B. Campistron, F. Lohou, F. Saďd, A. Brut, C. Moppert, and E. Dupont |
| 2:45 PM | 6.12 | Estimation of momentum flux in the ABL from remote sensing data and universal functions of flux Richardson number
Rostislav D. Kouznetsov, Russian Academy of Sciences, Moscow, Russia; and F. Beyrich |
| 3:00 PM | | Coffee Break
|
| 3:30 PM | 6.13 | A simple method to estimate the eddy dissipation rate from SODAR/RASS measurements
Michael Frech, German Aerospace Center, Wessling, Germany |
|  | 6.14 | Estimation of turbulent fluxes from remotely sensed SAR imagery
Alexei G. Stuliy, UNIS, Longyearbyen, Norway; and A. Sjöblom |
| 3:45 PM | 6.15 | Characterizing atmospheric turbulence with GPS
Frank Kleijer, Harvard-Smithsonian Center for Astrophysics, Cambridge, MA; and P. Elosegui and J. L. Davis |
| | 6.16 | The influence of humidity and temperature in laser-scintillometry and their impact on surface flux estimates
Arjan Van Dijk, Wageningen University and Research, Wageningen, Netherlands; and O. K. Hartogensis and H. A. R. De Bruin |
| 4:00 PM | 6.17 | Diurnal Variations in the 2-Dimensional nature of wind shear in the planetary boundary layer
Chris J. Walcek, SUNY, Albany, NY |
| 4:15 PM | 6.18 | Interpretation of flux observations along the Cabauw 200 m meteorological tower
Fred Bosveld, KNMI, De Bilt, Netherlands; and E. Van Meijgaard, E. Moors, and C. Werner |
| 4:30 PM | 6.19 | A Bayesian estimate of CT2 from sonic anemometer data
Guy Potvin, Defence Research & Development Canada - Valcartier, Val-Bélair, QC, Canada; and J. L. Forand and D. Dion |
| 4:45 PM | 6.20 | ATMOSPHERIC BOUNDARY LAYER STRUCTURE USING WAVELETS ANALYSIS
Mariana Adam, Johns Hopkins University, Baltimore, MD; and H. M. Calvani and M. B. Parlange |