Ground-based scatterometer observations of snow-covered freshwater lake ice using UW-SCAT (9.6/17.2 GHz)

机译：使用UW-SCAT（9.6 / 17.2 GHz）对积雪的淡水湖冰进行地面散射仪观测

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Winter season backscatter (σ°) evolution of snow covered lake ice was observed by ground-based University of Waterloo X-(9.6 GHz) and Ku-band (17.2 GHz) scatterometers (UW-SCAT) during the winter of 2010–11. The UW-SCAT post-processing procedure allowed for the observation of σ° at the surface (snow/ice interface, ice types) and the ice volume. Observations indicated that: (1) σ° associated with the development of tubular bubbles within the ice volume causes double-bounce of the signal and high returns at X- and Ku-bands; (2) ice types at the surface (grey ice) composed of high density spherical micro-bubbles result in σ° increases at both X- and Ku-bands; and (3) the removal of snow overlying ice results in a drop in Ku-band σ° up to 5.5 dB, exhibiting sensitivity to snow water equivalent.

机译：地面滑铁卢大学X-（9.6 GHz）和Ku波段（17.2 GHz）散射仪（UW-SCAT）在2010-11冬季观测到积雪覆盖的湖冰的冬季反散射（σ°）演变。 UW-SCAT后处理程序允许观察表面的σ°（雪/冰界面，冰的类型）和冰的体积。观察结果表明：（1）与冰块内管状气泡的发展有关的σ°引起信号的双重反弹，并在X波段和Ku波段产生高返回率; （2）由高密度球形微气泡组成的表面冰类型（灰色冰）导致X波段和Ku波段的σ°增大; （3）去除覆冰上的积雪会导致Ku谱带σ°下降多达5.5 dB，表现出对雪水当量的敏感性。

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《IEEE International Geoscience and Remote Sensing Symposium》|2014年|3666-3669|共4页
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Gunn Grant; Duguay Claude; Macelloni Giovanni; Brogioni Marco;
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Backscatter; Ice; Lakes; Microwave FET integrated circuits; Microwave integrated circuits; Radar measurements; Snow; Ku-band; X-band; active microwave; lake ice; snow;

机译：后向散射;冰;湖;微波FET集成电路;微波集成电路;雷达测量;雪; Ku波段; X波段;有源微波;湖冰;雪;

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专利

1. UW-Scat: A Ground-Based Dual-Frequency Scatterometer for Observation of Snow Properties [J] . King J. M. L., Kelly R., Kasurak A., Geoscience and Remote Sensing Letters, IEEE . 2013,第3期

机译：UW-Scat：基于地面的双频散射仪，用于观测积雪
2. Observation and Modeling of X- and Ku-Band Backscatter of Snow-Covered Freshwater Lake Ice [J] . Gunn Grant E., Brogioni Marco, Duguay Claude, Selected Topics in Applied Earth Observations and Remote Sensing, IEEE Journal of . 2015,第7期

机译：冰雪覆盖的淡水湖冰的X和Ku波段后向散射观测与建模
3. Freshwater lake ice thickness derived using surface-based X- and Ku-band FMCW scatterometers [J] . Gunn G. E., Duguay C. R., Brown L. C., Cold regions science and technology . 2015,第DECa期

机译：使用基于表面的X波段和Ku波段FMCW散射仪得出的淡水湖冰厚度
4. Ground-based scatterometer observations of snow-covered freshwater lake ice using UW-SCAT (9.6/17.2 GHz) [C] . Gunn Grant, Duguay Claude, Macelloni Giovanni, IEEE International Geoscience and Remote Sensing Symposium . 2014

机译：使用UW-SCAT的地面散射仪观察冰雪覆盖的淡水湖冰（9.6 / 17.2 GHz）
5. Validation of remotely-sensed soil moisture observations for bare soil at 1.4 GHz: A quantitative approach through radiative transfer models to characterize abrupt transitions caused by a ponding event in an agricultural field, modifications to the radiative transfer models, and a mobile ground-based system [D] . Erbas, Cihan 2009

机译：对1.4 GHz裸土的遥感土壤水分观测值的验证：通过辐射转移模型的定量方法，以表征由农田中的积水事件引起的突然转变，对辐射转移模型的修改以及基于地面的移动系统
6. Temporal Variation in Viral Hemorrhagic Septicemia Virus Antibodies in Freshwater Drum (Aplodinotus grunniens) Indicates Cyclic Transmission in Lake Winnebago Wisconsin [O] . Anna Wilson-Rothering, Susan Marcquenski, Ryan Koenigs, 2015

机译：淡水鼓（Aplodinotus grunniens）中的病毒性败血病病毒抗体的时间变化表明威斯康星州温尼巴戈湖的循环传播
7. Observations of a Coniferous Forest at 9.6 and 17.2 GHz: Implications for SWE Retrievals [O] . Aaron Thompson, Richard Kelly 2018

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8. Observations of atmospheric emission and attenuation at 20.6, 31.65 and 90 GHz by a ground-based radiometer [R] . Westwater, E. R., Snider, J. B., Falls, M. 1988

机译：用地面辐射计观测20.6,31.65和90 GHz的大气辐射和衰减

Ground-based scatterometer observations of snow-covered freshwater lake ice using UW-SCAT (9.6/17.2 GHz)

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