|
1:15   |
Opening Remarks |
71.1         |
1:20   |
Coastal Ocean Meteorological Processes Influencing RF Propagation Near the Virginia Eastern Shore "R. E. Marshall, E. H. Burgess III, Naval Surface Warfare Center Dahlgren Division, J. R. Rottier, The Johns Hopkins University Applied Physics Laboratory, USA" |
71.2         |
1:40   |
The Rough Evaporation Duct (RED) Experiment: Microwave Propagation Over the Sea "K. D. Anderson, SPAWARSYSCEN SAN DIEGO, USA" |
71.3         |
2:00   |
EVALUATION of COAMPS-DERIVED RADAR PROPAGATION PREDICTIONS "K. L. Davidson, P. A. Frederickson, A. Newton, Naval Postgraduate School, K. D. Anderson, Space and Naval Warfare Systems Center, USA" |
71.4         |
2:20   |
Comparison of Propagation Coverage from Refractivity from Clutter (RFC) Profiles or Other Refractivity Profiles To Measured Propagation in Surface Bas "R. J. Pawlak, Naval Surface Warfare Center Dahlgren Division, W. D. Thornton, Lockheed Martin Tactical Systems, USA" |
71.5         |
2:40   |
Multiple-Source Assimilation and Refractivity Interpolator (MARI) "A. K. Kochhar, G. C. Konstanzer, JHU/APL, USA" |
71.6         |
3:00   |
"Progress on the Validation of Short-Distance, Ground-to-Ground Propagation Models at VHF Frequencies" "K. Chamberlin, M. Khankin, University of New Hampshire, A. Barrios, Spawarsyscen, USA" |
71.7         |
3:20   |
Effects of Ducting on GPS Occultations "C. O. Ao, G. A. Hajj, JPL, USA" |
71.8         |
3:40   |
A Study of 2.3GHz Bands Propagation Characteristic Measured in Korea "G. S. Bae, H.K. Son
Agency for Defense Development, Korea
Electronics and Telecommunications Research Institute, Korea" |
71.9         |
4:00   |
Outdoor Propagation Analysis of Ultrawide Band Signals "G. Schiavone, R. Palaniappan, P. Wahid, J. Tracy, University of Central Florida, USA" |
71.10         |
4:20   |
EOSTAR: a Geometric Optics Approach to Atmospheric Propagation Models "S. M. Doss-Hammel, D. Tsintikidis, SPAWAR Systems Center, USA, A. M. VanEijk, G. J. Kunz, TNO Physics and Electronics Laboratory, Netherlands" |
71.11         |
4:40   |
Optical Imaging Through Discrete Random Media Based on Point Source Radiative Transfer Equation: Shower Curtain Effect "S. Jaruwatanadilok, A. Ishimaru, Y. Kuga, University of Washington, USA" |
71.12         |
5:00   |
Statistics of Fade Slope on a Free-Space Optical Communication System At 0.83mm Operating Over Densely Urbanised Terrain "E. De Miranda, Pontifical Catholic University of Rio de Janeiro, Brazil, R. Cole, University College London, United Kingdom" |