Identification and Quantification of Synoptic Structure in Simulated TIROS N Radiance Soundings

Abstract

There has been continual improvement in the accuracy of retrieved atmospheric soundings from satellite radiance measurements; however, satellite data still provide an overly smooth product which is of limited use for synoptic scale analysis. Considerable smoothing occurs when information present in satellite radiance measurements is lost in the retrieval process. This research describes and develops techniques which: (1) identify synoptic features and (2) quantify their fine structures directly from TIROS N satellite radiance data. A series of nine, overlapping, synthetic temperature and moisture soundings is constructed which contains synoptic features representative of the tropical eastern Pacific Ocean. Each of the soundings in the series is perturbed randomly, within limits, to create a statistically meaningful training data set. The training data set is processed through a radiative transfer algorithm to generate equivalent TIROS N satellite observations. In a two-step process, the training data observations first are separated according to synoptic feature, and, second, the fine structure of the synoptic feature is quantified. Three classification techniques are developed to partition the training data observations into synoptic groups and to classify new soundings: a subjective, graphical, interpretative procedure; canonical discriminant analysis; and, discriminant analysis. Two experiments of feature quantification are described: a prediction of trade wind and frontal inversion height and strength using both synthetic and observed soundings; and, a prediction of frontal structure based on discriminant analysis of a training data set containing frontal inversion soundings. Theses. (jhd)

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 1989

Accession Number

ADA213729

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