Syahali, Syabeela and Ewe, Hong Tat (2013) Remote sensing backscattering model for sea ice: Theoretical modelling and analysis. Advances in Polar Science, 24 (4). pp. 248-257.
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Abstract
Remote sensing has been used in Antarctic studies as an earth observation technique to study the polar region. A remote sensing forward model is an important tool in polar research to study and understand scattering mechanisms and sensitivity of physical parameters of snow and sea ice. In this paper, a reliable theoretical model to study sea ice is developed. The theoretical model in a prior work was improved by including multiple-surface scattering, based on an existing integral equation model and additional second-order surface-volume scattering. This model is applied to a desalinated ice layer above thick saline ice and analyzed using different frequencies, bottom surface roughness and sea-ice layer thickness. Improvement in calculation of the backscattering coefficient of the sea-ice layer is investigated for both co-polarized and cross-polarized returns. The effect on each scattering mechanism is also investigated, to understand in more detail the effect of surface multiple scattering and second-order surface-volume scattering. Comparisons are also made with field measurement results, to validate the theoretical model. Results show improvement in the total backscattering coefficient for cross-polarized return in the studied range, suggesting that multiple-surface scattering and surface-volume scattering up to second order are important scattering mechanisms in the sea-ice layer and should not be ignored in polar research.
Item Type: | Article |
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Related URLs: | |
Keywords: | multiple-surface scattering, surface-volume scattering, backscattering |
Subjects: | Natural Environment > Oceans |
Organizations: | Unspecified |
Date Deposited: | 03 Oct 2023 13:36 |
URI: | http://library.arcticportal.org/id/eprint/2505 |
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