A General Characterization for Polarimetric Scattering From Vegetation Canopies

Author

Arii, Motofumi ; Van Zyl, Jakob J. ; Kim, Yunjin

Author_Institution

Mitsubishi Space Software Co. Ltd., Kamakura, Japan

Volume

48

Issue

9

fYear

2010

Firstpage

3349

Lastpage

3357

Abstract

Current polarimetric model-based decomposition techniques are limited to specific types of vegetation because of their assumptions about the volume scattering component. In this paper, we propose a generalized probability density function based on the nth power of a cosine-squared function. This distribution is completely characterized by two parameters; a mean orientation angle and the power of the cosine-squared function. We show that the underlying randomness of the distribution is only a function of the power of the cosine-squared function. We then derive the average covariance matrix for various different elementary scatterers showing that the result has a very simple analytical form suitable for use in model-based decomposition schemes.

Keywords

covariance matrices; geophysical techniques; radar polarimetry; vegetation; average covariance matrix; cosine-squared function; elementary scatterers; general volume component; generalized probability density function; mean orientation angle; polarimetric model-based decomposition techniques; polarimetric scattering; radar polarimetry; vegetation canopies; volume scattering component; Backscatter; Clouds; Covariance matrix; Laboratories; Probability density function; Propulsion; Radar polarimetry; Radar scattering; Space technology; Vegetation mapping; General probability density function (pdf); general volume component; model-based decomposition; radar polarimetry;

fLanguage

English

Journal_Title

Geoscience and Remote Sensing, IEEE Transactions on

Publisher

ieee

ISSN

0196-2892

Type

jour

DOI

10.1109/TGRS.2010.2046331

Filename

5467148