Modeling of direct detection Doppler wind lidar I The edge technique
Author:
Publisher
The Optical Society
Reference13 articles.
1. Remote sensing of atmospheric wind velocities using solid-state and CO/sub 2/ coherent laser systems
2. Modeling brightness perception and syntactical image coding
3. Modeling of direct detection Doppler wind lidar II The fringe imaging technique
4. A Doppler lidar for measuring winds in the middle atmosphere
5. Edge technique for high-accuracy Doppler velocimetry
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