Equipment in Support for Polarimetric Imaging

Abstract

The wind-driven sea surface is characterized by wind waves with a wide range of spatial and temporal scales. Small waves, with millimeter to centimeter wavelengths, ride on the longer waves and play a crucial role in fundamental interfacial geophysical processes. These include wind stress, air-sea gas exchange, and optical transmission through the surface, microwave backscatter, amongst others. As well, this small-scale roughness underpins many marine remote sensing technologies, such as scatterometry, altimetry and synthetic aperture radar. These satellite sensors are the primary data sources of winds and waves over the planet's oceans. However, current knowledge of the sea surface roughness is incomplete, especially at these shorter scales, which degrades the accuracy of the satellite data products. To improve both sensor and modeling accuracy for a wide range of air-sea interfacial processes, a more detailed description of the small-scale roughness is needed. As these scales have small amplitudes, but finite steepness, measuring their slope properties is intrinsically well-suited to their characterization. The intrinsic capability we have demonstrated for polarimetric cameras to remotely sense the local slope field at high spatial and temporal resolutions makes it uniquely ideal for gathering field data on this previously elusive subrange of the sea surface roughness. The results from systematic research utilizing such an instrument will undoubtedly have a broad impact in enhancing scientific knowledge and technological capabilities related to air-sea interaction.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 2006

Accession Number

ADA529180

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