Calibrated Ers-1 Sar Signatures and Video Underlights Over Artic Ice

[Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium Pub Date : 1992-05-26 DOI:10.1109/IGARSS.1992.578529

L. Ulander, J. Askne, B. O. Johannessen

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引用次数: 2

Abstract

Radar backscatter signatures of Arctit ice during advanced melt and freeze-up conditions are presented. The backscatter coefficients were determined from ERS-1 SAR images, and the different ice types were classified based on helicopter video and field observations. During advanced melt only two main classes were observed: old ice and open water leads. The contrast between the two classes is dependent on the wind speed and direction, but in the studied case open water appeared brighter than the ice. The open water signature differed from empirical ocean backscatter models suggesting that the wave spectrum is different in wind-roughened leads as compared with the open ocean. During freeze up, new ice, nilas and young ice were also encountered. These ice types showed a less stable backscatter signature, probably due to the variable characteristics of frost flowers, saline snow, frazil ice, and deformation features which were observed. The old and young ice showed little contrast or even ambiguous backscattering coefficients, implying that texture, context and temporal changes will be important for a correct classification.

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经过校准的Ers-1 Sar信号和北极冰上的视频下划线

给出了北极冰在提前融化和冻结状态下的雷达后向散射特征。根据ERS-1 SAR图像确定后向散射系数，并根据直升机视频和野外观测对不同类型的冰进行分类。在融化后期，只观察到两种主要类型:旧冰和开放的水铅。两类之间的对比取决于风速和风向，但在研究的情况下，开阔的水域看起来比冰更亮。开放水域的特征与经验海洋后向散射模型不同，这表明与开放海洋相比，风糙化引线的波浪谱不同。在冻结过程中，还会遇到新冰、新冰和新冰。这些冰类型表现出较不稳定的后向散射特征，可能是由于观测到的霜花、盐雪、冻冰和变形特征的变化特征。老冰和新冰的后向散射系数几乎没有对比，甚至模糊不清，这意味着结构、环境和时间变化对正确分类很重要。

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[Proceedings] IGARSS '92 International Geoscience and Remote Sensing Symposium

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