Interferometric and polarimetric methods to determine SWE, fresh snow depth and the anisotropy of dry snow

机译：干涉法和极化法确定SWE，鲜雪深度和干雪各向异性

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Dry snow can be considered as a transparent but refractive medium which causes a phase delay in the reflected signal of active radar remote sensing systems. Here, we analyze the phase delay to estimate Snow Water Equivalent (SWE), the depth of fresh snow and the anisotropic orientation of ice grains in the snow volume. SWE is determined from the integrated phase shift measured by differential interferometry. The temporal evolution of the snow anisotropy could be observed because different microwave polarizations show different propagation speeds in anisotropic snow. The depth of fresh snow as well as snow metamorphosis is discussed with respect to characteristic phase-shifts in the co-polar phase difference. Ground based radar observations from the Snow-scat instrument installed at a test site near Sodankylä, Finland, form the data basis for this paper.

机译：干燥的雪可以被认为是透明但折射介质，其导致有源雷达遥感系统的反射信号中的相位延迟。在这里，我们分析阶段延迟以估计雪水等同（SWE），雪量冰粒的深度和各向异性取向。通过差分干涉测量测量的集成相移确定了SWE。可以观察到雪各向异性的时间演变，因为不同的微波偏振显示各向异性雪中的不同传播速度。关于在极偏差中的特征相移讨论了新鲜雪的深度以及雪变态。从芬兰Sodankylä附近安装在测试站点的地面基于雪斯科的雷达观测，为本纸张形成数据。

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《IEEE International Geoscience and Remote Sensing Symposium》|2015年|1-4|共4页
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Leinss S.; Lemmetyinen J.; Wiesmann A.; Hajnsek I.;
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radar interferometry; radar polarimetry; remote sensing by radar; snow; Finland; Snow-scat instrument; Sodankyla; active radar remote sensing system; anisotropic snow; differential interferometry; dry snow anisotropy; fresh snow depth; ground-based radar observation; ice grain; integrated phase shift measurement; interferometric method; microwave polarization; polarimetric method; reflected signal; refractive medium; snow metamorphosis; snow volume; snow water equivalent; Anisotropic magnetoresistance; Ice; Instruments; Radar; Scattering; Snow; Temperature measurement;

机译：雷达干涉法;雷达偏振法;雷达遥感;雪;芬兰; Snow-scat仪器; Sodankyla;有源雷达遥感系统;各向异性积雪;差分干涉法;干雪各向异性;新雪深度;地基雷达观测;冰粒集成相移测量干涉法微波极化偏振法反射信号折光介质雪变质雪量雪水当量各向异性磁阻冰仪器雷达散射散射雪温度测量;

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1. 直流电阻率法和时间域激发极化法各向异性反常现象数值模拟 [J] . 宋滔, 刘云, 王赟, 应用地球物理：英文版 . 2021,第001期
2. Particle Filter Data Assimilation of Monthly Snow Depth Observations Improves Estimation of Snow Density and SWE [J] . Smyth Eric J., Raleigh Mark S., Small Eric E. Water resources research . 2019,第2期

机译：每月降雪深度观测的粒子滤波数据同化可提高对雪密度和SWE的估计
3. Linking snowfall and snow accumulation to generate spatial maps of SWE and snow depth [J] . Patrick D. Broxton, Xubin Zeng, Nicholas Dawson Earth and Space Science . 2016,第6期

机译：将降雪和积雪联系起来以生成SWE和积雪深度的空间图
4. Estimating Snow Depth and Snow Water Equivalence Using Repeat-Pass Interferometric SAR in the Northern Piedmont Region of the Tianshan Mountains [J] . Li Hui, Wang Zuo, He Guangjun, Journal of Sensors . 2017,第Pta2期

机译：在天山山区北部皮埃蒙特地区的重复通行干涉SAR估算雪深和雪水等量
5. INTERFEROMETRIC AND POLARIMETRIC METHODS TO DETERMINE SWE, FRESH SNOW DEPTH AND THE ANISOTROPY OF DRY SNOW [C] . S. Leinss, J. Lemmetyinen, A. Wiesmann, IEEE International Geoscience and Remote Sensing Symposium . 2015

机译：干涉测量和极化方法，以确定SWE，新鲜的雪深和干雪的各向异性
6. Estimating snow water equivalent (SWE) using interferometric synthetic aperture radar (InSAR) [D] . Deeb, Elias J. 2012

机译：使用干涉式合成孔径雷达（InSAR）估算雪水当量（SWE）
7. Snow Depth Estimation on Slopes Using GPS-Interferometric Reflectometry [O] . Haohan Wei, Xiufeng He, Yanming Feng, 2019

机译：GPS干涉反射法估算斜坡雪深
8. Determining snow depth using airborne multi-pass interferometric synthetic aperture radar [O] . Evans Jack R. 2013

机译：使用机载多通干涉合成孔径雷达确定雪深

Interferometric and polarimetric methods to determine SWE, fresh snow depth and the anisotropy of dry snow

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