2022
DOI: 10.3390/rs14051123
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Applying Machine Learning and Time-Series Analysis on Sentinel-1A SAR/InSAR for Characterizing Arctic Tundra Hydro-Ecological Conditions

Abstract: Synthetic aperture radar (SAR) is a widely used tool for Earth observation activities. It is particularly effective during times of persistent cloud cover, low light conditions, or where in situ measurements are challenging. The intensity measured by a polarimetric SAR has proven effective for characterizing Arctic tundra landscapes due to the unique backscattering signatures associated with different cover types. However, recently, there has been increased interest in exploiting novel interferometric SAR (InS… Show more

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Cited by 13 publications
(7 citation statements)
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“…Thus, the use of GEE removed the need for powerful and expensive local computing power (i.e., high-performance computing; HCP), which is otherwise necessary for scaling high-resolution predictions over large areas with RS big data [35]. This study now joins a dense collection of literature demonstrating the large-scale modeling capabilities of GEE for environmental applications and information generation over permafrost rich landscapes [33,[68][69][70][71]. As such, the use of GEE, along with other cloud-based geospatial platforms (e.g., Microsoft Azure, Amazon Web Services, etc.…”
Section: Advantages Of Cloud-based Processingmentioning
confidence: 87%
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“…Thus, the use of GEE removed the need for powerful and expensive local computing power (i.e., high-performance computing; HCP), which is otherwise necessary for scaling high-resolution predictions over large areas with RS big data [35]. This study now joins a dense collection of literature demonstrating the large-scale modeling capabilities of GEE for environmental applications and information generation over permafrost rich landscapes [33,[68][69][70][71]. As such, the use of GEE, along with other cloud-based geospatial platforms (e.g., Microsoft Azure, Amazon Web Services, etc.…”
Section: Advantages Of Cloud-based Processingmentioning
confidence: 87%
“…Interferometric SAR (InSAR) techniques in particular have proven effective for ALT estimation and monitoring [32]. The InSAR technique relies on both the phase and amplitude information contained in the SAR signal, acquired from a pair (or more) of multi-temporal SAR images [33]. By comparing the timing of the radar return between each image, the distance between the sensor and ground can be quantified.…”
Section: Remote Sensing Of Active Layer Thicknessmentioning
confidence: 99%
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“…Although the manual analysis of SAR data is sensor-independent, and relatively robust against misclassification [35,40,41], it is time-consuming; therefore, automated methods are preferable. Some studies have proposed using machine learning for characterizing Arctic tundra landscapes, including lakes [30,42]. To the best of our knowledge, stateof-the-art deep learning methods have not been previously applied to the problems of automatic tundra lakes recognition from SAR, and, thus, one of the primary aims of this study was to investigate the potential of deep learning for accurate tundra lake shape and size recognition.…”
Section: Introductionmentioning
confidence: 99%
“…However, the short-wavelength characteristics bring a range of limitations to its application, especially in vegetated areas, because C-band signals normally do not penetrate the surface or top layer of the forest (i.e., leaves and twigs) (Anh and Hang, 2019). Phenological changes to vegetation-or even leaf and branch movement-can lead to decorrelation (Merchant et al, 2022), which is a primary error source that limits the capability of InSAR for deformation mapping in areas with low coherence (Liang et al, 2021b) and what's more, its data handing, processing, and interpretation are barriers preventing a rapid uptake of SAR data by application specialists and non-expert domain users in the field of agricultural monitoring (Kumar et al, 2022).…”
Section: Introductionmentioning
confidence: 99%