Comparisons of Satellite-Derived Cloud Heights with Radar Measurements of Mid-Level, Mixed-Phase Clouds

Abstract

Radiances from the 10.7 micrometers channel of Geostationary Operational Environmental Satellite-8 are converted to cloud top height (CTH) for comparison to 95 GHz radar measurements of mid-level, mixed-phase clouds. CTH is objectively determined by airborne cloud radar and used as ground truth. Three methods of satellite-derived CTH are compared to the radar. The black body (BB) method assumes the cloud radiates as a black body, converts the radiance to brightness temperature and height via comparison to an atmospheric sounding. Errors range from +900 m to -1200 m depending on the opaqueness of the cloud. The spatial coherence (SC) method determines a single mean value of cloud top radiance for a cloud scene and converts the radiance to height in a manner similar to the BB method. Errors range from +200 m to +900 m without much dependence on opaqueness. The optimal estimation method determines CTH using BB radiances and a SC method with an a priori' constraint from a sounding. The solution is determined iteratively using a perturbation method. Errors range from +200 m to +700 m with only a slight dependence on the opaqueness of the cloud until the clouds become very optically thin.

Document Details

Document Type

Technical Report

Publication Date

Aug 13, 2003

Accession Number

ADA417192

Entities

Tags