Improved phase gradient stacking for landslide detection

IF 5.8 2区 工程技术 Q1 ENGINEERING, GEOLOGICAL
Dongxiao Zhang, Lu Zhang, Jie Dong, Yian Wang, Chengsheng Yang, Mingsheng Liao
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引用次数: 0

Abstract

The advanced interferometric synthetic aperture radar (InSAR) provides an effective tool to detect landslides over a large area. However, it is greatly affected by atmospheric delays and phase unwrapping errors in a complex environment and requires massive calculations and analysis. These factors hinder InSAR from reliably and rapidly identifying landslides. In this study, we propose an improved phase gradient stacking (IPGS) method, which effectively suppresses atmospheric delay disturbance, topographic residuals, and noise while enhancing local deformation signals. The temporally stacked phase gradients with a preset step along four directions are merged to form a phase gradient map. It avoids complicated unwrapping and massive time series analysis. The simulation experiment demonstrates the improvement to traditional methods by combining four directions and a specific step. The IPGS method achieves a comparative landslide detection as the classical SBAS method in terms of Sentinel-1 datasets covering Danba County. Even for some small-scale landslides that are difficult for SBAS to detect, the phase gradients are distinct. A field investigation validates the reliability of IPGS-detected landslides. It provides an effective tool for large-scale, rapid, and reliable detection of geological disasters.

Abstract Image

改进相位梯度叠加,用于滑坡探测
先进的干涉合成孔径雷达(InSAR)是探测大面积山体滑坡的有效工具。然而,在复杂的环境中,它受大气延迟和相位解包误差的影响很大,需要进行大量的计算和分析。这些因素阻碍了 InSAR 可靠、快速地识别滑坡。在本研究中,我们提出了一种改进的相位梯度叠加(IPGS)方法,它能有效抑制大气延迟干扰、地形残差和噪声,同时增强局部形变信号。沿四个方向以预设步长进行时间叠加的相位梯度被合并成一个相位梯度图。它避免了复杂的解包和大量的时间序列分析。模拟实验表明,通过合并四个方向和特定步长,相位梯度图比传统方法有所改进。就丹巴县哨兵-1 数据集而言,IPGS 方法实现了与经典 SBAS 方法相当的滑坡检测效果。即使是 SBAS 难以探测到的一些小规模滑坡,其相位梯度也非常明显。实地调查验证了 IPGS 检测到的滑坡的可靠性。它为大规模、快速、可靠地探测地质灾害提供了有效工具。
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来源期刊
Landslides
Landslides 地学-地球科学综合
CiteScore
13.60
自引率
14.90%
发文量
191
审稿时长
>12 weeks
期刊介绍: Landslides are gravitational mass movements of rock, debris or earth. They may occur in conjunction with other major natural disasters such as floods, earthquakes and volcanic eruptions. Expanding urbanization and changing land-use practices have increased the incidence of landslide disasters. Landslides as catastrophic events include human injury, loss of life and economic devastation and are studied as part of the fields of earth, water and engineering sciences. The aim of the journal Landslides is to be the common platform for the publication of integrated research on landslide processes, hazards, risk analysis, mitigation, and the protection of our cultural heritage and the environment. The journal publishes research papers, news of recent landslide events and information on the activities of the International Consortium on Landslides. - Landslide dynamics, mechanisms and processes - Landslide risk evaluation: hazard assessment, hazard mapping, and vulnerability assessment - Geological, Geotechnical, Hydrological and Geophysical modeling - Effects of meteorological, hydrological and global climatic change factors - Monitoring including remote sensing and other non-invasive systems - New technology, expert and intelligent systems - Application of GIS techniques - Rock slides, rock falls, debris flows, earth flows, and lateral spreads - Large-scale landslides, lahars and pyroclastic flows in volcanic zones - Marine and reservoir related landslides - Landslide related tsunamis and seiches - Landslide disasters in urban areas and along critical infrastructure - Landslides and natural resources - Land development and land-use practices - Landslide remedial measures / prevention works - Temporal and spatial prediction of landslides - Early warning and evacuation - Global landslide database
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