Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site

One of the most perplexing problems in satellite cloud remote sensing is the overlapping of cloud layers. Although most techniques assume a one layer cloud system in a given retrieval of cloud properties, many observations are affected by radiation from more than one cloud layer. As such, cloud over...

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Main Authors:	Minnis, P., Kawamoto, K., Smith, W. L., Jr.
Format:	Other/Unknown Material
Language:	unknown
Published:	2001
Subjects:	Meteorology and Climatology north slope Alaska
Online Access:	http://hdl.handle.net/2060/20010110104

id	ftnasantrs:oai:casi.ntrs.nasa.gov:20010110104
record_format	openpolar
spelling	ftnasantrs:oai:casi.ntrs.nasa.gov:20010110104 2023-05-15T17:40:16+02:00 Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site Minnis, P. Kawamoto, K. Smith, W. L., Jr. Unclassified, Unlimited, Publicly available [2001] application/pdf http://hdl.handle.net/2060/20010110104 unknown Document ID: 20010110104 http://hdl.handle.net/2060/20010110104 No Copyright CASI Meteorology and Climatology Eleventh ARM Science Team Meeting; 19-23 Mar. 2001; Atlanta, GA; United States 2001 ftnasantrs 2019-07-21T02:43:16Z One of the most perplexing problems in satellite cloud remote sensing is the overlapping of cloud layers. Although most techniques assume a one layer cloud system in a given retrieval of cloud properties, many observations are affected by radiation from more than one cloud layer. As such, cloud overlap can cause errors in the retrieval of many properties including cloud height, optical depth, phase, and particle size. A variety of methods have been developed to identify overlapped clouds in a given satellite imager pixel. Baum et al used CO2 slicing and a spatial coherence method to demonstrate a possible analysis method for nighttime detection of multilayered clouds. Jin and Rossow also used a multispectral CO2 slicing technique for a global analysis of overlapped cloud amount. Lin et al. used a combination infrared (IR), visible (VIS), and microwave data to detect overlapped clouds over water. Recently, Baum and Spinhirne proposed a 1.6 and 11 micron bispectral threshold method. While all of these methods have made progress in solving this stubborn problem none have yet proven satisfactory for continuous and consistent monitoring of multilayer cloud systems. It is clear that detection of overlapping clouds from passive instruments such as satellite radiometers is in an immature stage of development and requires additional research. Overlapped cloud systems also affect the retrievals of cloud properties over the Atmospheric Radiation Measurement (ARM) domains and hence should be identified as accurately as possible. To reach this goal, it is necessary to determine which information can be exploited for detecting multilayered clouds from operational meteorological satellite data used by ARM. This paper examines the potential information available in spectral data available on the Geostationary Operational Environmental Satellite (GOES) imager and the National Oceanic Atmospheric Administration (NOAA) Advanced Very High Resolution Radiometer (AVHRR) used over the ARM Program's Southern Great Plains (SGP), and North Slope of Alaska (NSA) sites to study the capability of detecting overlapping clouds. Other/Unknown Material north slope Alaska NASA Technical Reports Server (NTRS)
institution	Open Polar
collection	NASA Technical Reports Server (NTRS)
op_collection_id	ftnasantrs
language	unknown
topic	Meteorology and Climatology
spellingShingle	Meteorology and Climatology Minnis, P. Kawamoto, K. Smith, W. L., Jr. Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
topic_facet	Meteorology and Climatology
description	One of the most perplexing problems in satellite cloud remote sensing is the overlapping of cloud layers. Although most techniques assume a one layer cloud system in a given retrieval of cloud properties, many observations are affected by radiation from more than one cloud layer. As such, cloud overlap can cause errors in the retrieval of many properties including cloud height, optical depth, phase, and particle size. A variety of methods have been developed to identify overlapped clouds in a given satellite imager pixel. Baum et al used CO2 slicing and a spatial coherence method to demonstrate a possible analysis method for nighttime detection of multilayered clouds. Jin and Rossow also used a multispectral CO2 slicing technique for a global analysis of overlapped cloud amount. Lin et al. used a combination infrared (IR), visible (VIS), and microwave data to detect overlapped clouds over water. Recently, Baum and Spinhirne proposed a 1.6 and 11 micron bispectral threshold method. While all of these methods have made progress in solving this stubborn problem none have yet proven satisfactory for continuous and consistent monitoring of multilayer cloud systems. It is clear that detection of overlapping clouds from passive instruments such as satellite radiometers is in an immature stage of development and requires additional research. Overlapped cloud systems also affect the retrievals of cloud properties over the Atmospheric Radiation Measurement (ARM) domains and hence should be identified as accurately as possible. To reach this goal, it is necessary to determine which information can be exploited for detecting multilayered clouds from operational meteorological satellite data used by ARM. This paper examines the potential information available in spectral data available on the Geostationary Operational Environmental Satellite (GOES) imager and the National Oceanic Atmospheric Administration (NOAA) Advanced Very High Resolution Radiometer (AVHRR) used over the ARM Program's Southern Great Plains (SGP), and North Slope of Alaska (NSA) sites to study the capability of detecting overlapping clouds.
format	Other/Unknown Material
author	Minnis, P. Kawamoto, K. Smith, W. L., Jr.
author_facet	Minnis, P. Kawamoto, K. Smith, W. L., Jr.
author_sort	Minnis, P.
title	Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
title_short	Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
title_full	Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
title_fullStr	Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
title_full_unstemmed	Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site
title_sort	cloud overlapping detection algorithm using solar and ir wavelengths with goes data over arm/sgp site
publishDate	2001
url	http://hdl.handle.net/2060/20010110104
op_coverage	Unclassified, Unlimited, Publicly available
genre	north slope Alaska
genre_facet	north slope Alaska
op_source	CASI
op_relation	Document ID: 20010110104 http://hdl.handle.net/2060/20010110104
op_rights	No Copyright
_version_	1766141147480064000

Cloud Overlapping Detection Algorithm Using Solar and IR Wavelengths with GOES Data Over ARM/SGP Site

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