Overview of MPLNET Version 3 Cloud Detection

Author:

Lewis Jasper R.1,Campbell James R.2,Welton Ellsworth J.3,Stewart Sebastian A.4,Haftings Phillip C.4

Affiliation:

1. Joint Center for Earth Systems Technology, University of Maryland Baltimore County, Baltimore, Maryland

2. Naval Research Laboratory, Monterey, California

3. NASA Goddard Space Flight Center, Greenbelt, Maryland

4. Science Systems and Applications, Inc., Lanham, Maryland

Abstract

AbstractThe National Aeronautics and Space Administration Micro Pulse Lidar Network, version 3, cloud detection algorithm is described and differences relative to the previous version are highlighted. Clouds are identified from normalized level 1 signal profiles using two complementary methods. The first method considers vertical signal derivatives for detecting low-level clouds. The second method, which detects high-level clouds like cirrus, is based on signal uncertainties necessitated by the relatively low signal-to-noise ratio exhibited in the upper troposphere by eye-safe network instruments, especially during daytime. Furthermore, a multitemporal averaging scheme is used to improve cloud detection under conditions of a weak signal-to-noise ratio. Diurnal and seasonal cycles of cloud occurrence frequency based on one year of measurements at the Goddard Space Flight Center (Greenbelt, Maryland) site are compared for the new and previous versions. The largest differences, and perceived improvement, in detection occurs for high clouds (above 5 km, above MSL), which increase in occurrence by over 5%. There is also an increase in the detection of multilayered cloud profiles from 9% to 19%. Macrophysical properties and estimates of cloud optical depth are presented for a transparent cirrus dataset. However, the limit to which the cirrus cloud optical depth could be reliably estimated occurs between 0.5 and 0.8. A comparison using collocated CALIPSO measurements at the Goddard Space Flight Center and Singapore Micro Pulse Lidar Network (MPLNET) sites indicates improvements in cloud occurrence frequencies and layer heights.

Publisher

American Meteorological Society

Subject

Atmospheric Science,Ocean Engineering

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