Kriging-Based Atmospheric Phase Screen Compensation Incorporating Time-Series Similarity in Ground-Based Radar Interferometry

IF 4.7 2区 地球科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing Pub Date : 2024-10-01 DOI:10.1109/JSTARS.2024.3469158
Yuta Izumi;Giovanni Nico;Othmar Frey;Simone Baffelli;Irena Hajnsek;Motoyuki Sato
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Abstract

Accuracy of radar interferometry is often hindered by the atmospheric phase screen (APS). To address this limitation, the geostatistical approach known as Kriging has been employed to predict APS from sparse observations for compensation purposes. In this article, we propose an enhanced Kriging approach to achieve more accurate APS predictions in ground-based (GB) radar interferometry applications. Specifically, the Kriging system is augmented with a time-series measure through correlation analysis, effectively leveraging spatiotemporal information for APS prediction. The validity of the introduced Kriging method in the APS compensation framework was tested with Ku-band GB radar datasets collected over two different mountainous sites. A comparison of this method with simple Kriging reveals a noticeable improvement in APS prediction accuracy and temporal phase stability.
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基于克里金法的大气相位屏补偿,在地基雷达干涉测量中纳入时间序列相似性
雷达干涉测量的精度往往受到大气相位屏(APS)的影响。为了解决这一限制,人们采用了称为克里金法的地质统计方法,从稀疏的观测数据中预测大气相位屏,以达到补偿目的。在本文中,我们提出了一种增强的克里金方法,以在地基(GB)雷达干涉测量应用中实现更准确的 APS 预测。具体来说,通过相关性分析,克里金系统增加了时间序列测量,从而有效地利用时空信息进行 APS 预测。在 APS 补偿框架中引入的克里金方法的有效性通过在两个不同山地采集的 Ku 波段 GB 雷达数据集进行了测试。该方法与简单克里金法的比较显示,APS 预测精度和时相稳定性都有明显提高。
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来源期刊
CiteScore
9.30
自引率
10.90%
发文量
563
审稿时长
4.7 months
期刊介绍: The IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing addresses the growing field of applications in Earth observations and remote sensing, and also provides a venue for the rapidly expanding special issues that are being sponsored by the IEEE Geosciences and Remote Sensing Society. The journal draws upon the experience of the highly successful “IEEE Transactions on Geoscience and Remote Sensing” and provide a complementary medium for the wide range of topics in applied earth observations. The ‘Applications’ areas encompasses the societal benefit areas of the Global Earth Observations Systems of Systems (GEOSS) program. Through deliberations over two years, ministers from 50 countries agreed to identify nine areas where Earth observation could positively impact the quality of life and health of their respective countries. Some of these are areas not traditionally addressed in the IEEE context. These include biodiversity, health and climate. Yet it is the skill sets of IEEE members, in areas such as observations, communications, computers, signal processing, standards and ocean engineering, that form the technical underpinnings of GEOSS. Thus, the Journal attracts a broad range of interests that serves both present members in new ways and expands the IEEE visibility into new areas.
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