Estimating 3D displacement vectors from line-of-sight observations with application to MIMO-SAR

IF 1.2 Q4 REMOTE SENSING Journal of Applied Geodesy Pub Date : 2023-02-24 DOI:10.1515/jag-2022-0035
Andreas Baumann-Ouyang, J. Butt, A. Wieser
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引用次数: 1

Abstract

Abstract Displacements in typical monitoring applications occur in 3D but having sensors capable of measuring such 3D deformations with areal coverage is rare. One way could be to combine three or more line-of-sight measurements carried out from different locations at the same time and derive 3D displacement vectors. Automotive Multiple-Input-Multiple-Output Synthetic Aperture Radar (MIMO-SAR) systems are of interest for such monitoring applications as they can acquire line-of-sight displacement measurements with areal coverage and are associated with low cost and high flexibility. In this paper, we present a set of algorithms deriving 3D displacement vectors from line-of-sight displacement measurements while applying spatial and temporal least squares adjustments. We evaluated the algorithms on simulated data and tested them on experimentally acquired MIMO-SAR acquisitions. The results showed that especially spatial parametric and non-parametric least squares adjustments worked very well for typical displacements occurring in geomonitoring and structural monitoring (e.g. tilting, bending, oscillating, etc.). The simulations were confirmed by an experiment, where a corner cube was moved step-wise. The results show that acquisitions of off-the-shelf automotive-grade MIMO-SAR systems can be combined to derive 3D displacement vectors with high accuracy.
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基于视线观测的三维位移矢量估计及其在MIMO-SAR中的应用
摘要在典型的监测应用中,位移发生在3D中,但具有能够测量这种具有区域覆盖的3D变形的传感器是罕见的。一种方法可以是组合同时从不同位置进行的三个或多个视线测量,并导出3D位移矢量。汽车多输入多输出合成孔径雷达(MIMO-SAR)系统对于这种监测应用是感兴趣的,因为它们可以获取具有区域覆盖的视线位移测量,并且具有低成本和高灵活性。在本文中,我们提出了一组算法,从视线位移测量中导出三维位移矢量,同时应用空间和时间最小二乘调整。我们在模拟数据上评估了这些算法,并在实验获得的MIMO-SAR采集上进行了测试。结果表明,对于地质监测和结构监测中发生的典型位移(如倾斜、弯曲、振荡等),特别是空间参数和非参数最小二乘法调整效果非常好。通过逐步移动角隅体的实验证实了模拟结果。结果表明,可以将现成的汽车级MIMO-SAR系统的采集相结合,以高精度导出3D位移矢量。
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来源期刊
Journal of Applied Geodesy
Journal of Applied Geodesy REMOTE SENSING-
CiteScore
2.30
自引率
7.10%
发文量
30
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