Detecting, Monitoring, and Analyzing the Surface Subsidence in the Yellow River Delta (China) Combined with CenterNet Network and SBAS-InSAR

Li, Zhenjin; Wang, Zhiyong; Liu, Wei; Li, Xing; Zhou, Maotong; Zhang, Baojing

doi:10.1155/2022/2672876

Cited by 2 publications

(2 citation statements)

References 46 publications

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“…Conducting field-level surveys for data validation at the OT site and obtaining usable GNSS data is extremely challenging due to stringent policies and regulations as well as lack of instrumentation deployment such as GNSS. In the absence of direct empirical data, cross-validation methods such as PS-InSAR are frequently utilized to confirm the reliability of monitoring outcomes [35,36]. Correlation analysis was conducted on the deformation using both SBAS-InSAR and PS-InSAR techniques, which showed great correlation, as depicted in Figure 9.…”

Section: Precision Analysis Of Sbas-insar Surface Deformation Resultsmentioning

confidence: 99%

Time-Series Analysis of Mining-Induced Subsidence in the Arid Region of Mongolia Based on SBAS-InSAR

Xie,

Bagan,

Tan

et al. 2024

Remote Sensing

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Mongolia’s substantial mineral resources have played a pivotal role in its economic progress, with mining activities significantly contributing to this development. However, these continuous mining operations, particularly at the Oyu Tolgoi copper and gold mine, have induced land subsidence that threatens both production activities and poses risks of geological and other natural disasters. This study employs the Small Baseline Subset Interferometric Synthetic Aperture Radar (SBAS-InSAR) technique to monitor and analyze time-series surface subsidence using 120 Sentinel-1A datasets from 2018 to 2022. The findings reveal that the SBAS-InSAR method successfully captures the subsidence and its spatial distribution at Oyu Tolgoi, with the maximum cumulative subsidence reaching −742.01 mm and the highest annual average subsidence rate at −158.11 mm/year. Key drivers identified for the subsidence include variations in groundwater levels, active mining operations, and changes in surface stress. This research underscores the ongoing subsidence issue at the Oyu Tolgoi mining area, providing crucial insights that could aid in enhancing mining safety and environmental conservation in the region.

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Section: Precision Analysis Of Sbas-insar Surface Deformation Resultsmentioning

confidence: 99%

Time-Series Analysis of Mining-Induced Subsidence in the Arid Region of Mongolia Based on SBAS-InSAR

Xie,

Bagan,

Tan

et al. 2024

Remote Sensing

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“…However, these conventional methodologies encounter substantial limitations when applied to urban land subsidence monitoring. The expansive research area and intricate terrain configurations in urban locales impose constraints on conventional surveying methods, including low spatial distribution rates, exorbitant costs, time-intensive processes, limited capacity to procure large-scale monitoring results, susceptibility to environmental variables, and inadequate reflection of continuous surface settlement information within the study area [19,[28][29][30][31]. In contrast, synthetic aperture radar interferometry (InSAR) technology, conceived in the 1990s and continuously refined since then, proffers a plethora of high-precision monitoring outcomes [32][33][34][35].…”

Section: Introductionmentioning

confidence: 99%

Monitoring Analysis of Urban Subsidence in Northern Henan Province Based on TS-InSAR Technology

Chai,

Ding,

et al. 2024

Journal of Sensors

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The protracted and pervasive incidence of land subsidence emerges as a pivotal factor exerting a substantial impact on the sustainable development of urban landscapes. A nuanced comprehension of the spatiotemporal evolution characteristics of land subsidence within the Northern Henan Plain assumes paramount significance in the context of mitigating potential urban geological disasters. This study endeavors to redress the deficiency in information concerning the temporal and spatial evolution characteristics of enduring deformation in cities within the northern plain of Henan Province. To this end, the authors leveraged Sentinel-1A radar data processed through persistent scatterer interferometric synthetic aperture radar (PS-InSAR) technology to elucidate the distribution patterns of ground deformation and temporal evolution characteristics within the expansive 24-scene coverage research area. Empirical findings illuminate conspicuous surface deformation in Anyang, Puyang, and Hebi throughout the monitoring period. Spatially, land subsidence in the study area predominantly clusters in the suburban peripheries of the cities, with Hebi and Puyang registering a maximum subsidence rate exceeding 25 mm per annum. Temporally, land subsidence manifests predominantly during autumn and winter, whereas spring and summer display relatively stable land subsidence interspersed with a slight ground uplift. In order to rectify the spatial disparities observed between leveling data and PS-InSAR monitoring data, this experiment employed an averaging procedure on the PS-InSAR monitoring data, subsequently subjecting it to comparative analysis with the leveling data. Additionally, through the integration of the singular spectrum analysis (SSA) method and the time series deformation model, this study aspires to attain a comprehensive understanding of the temporal dynamics manifested in the PS-InSAR monitoring outcomes, while concurrently elucidating the factors influencing the observed deformations. Ultimately, this analysis discloses that the monitoring outcomes derived via PS-InSAR technology exhibit a root mean square error of ±12.9 mm and a standard deviation of ±13.31 mm. These statistical metrics furnish valuable insights into the precision and consistency of the PS-InSAR monitoring data. Drawing upon a comparative scrutiny of on-site data and historical remote sensing imagery within the study area, it has been discerned that excessive groundwater extraction and expansive surface engineering initiatives stand as the principal instigators of land subsidence in the research domain. Consequently, this experiment assumes the role of a salient reference for the mitigation of urban ground subsidence within the study area.

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Detecting, Monitoring, and Analyzing the Surface Subsidence in the Yellow River Delta (China) Combined with CenterNet Network and SBAS-InSAR

Cited by 2 publications

References 46 publications

Time-Series Analysis of Mining-Induced Subsidence in the Arid Region of Mongolia Based on SBAS-InSAR

Time-Series Analysis of Mining-Induced Subsidence in the Arid Region of Mongolia Based on SBAS-InSAR

Monitoring Analysis of Urban Subsidence in Northern Henan Province Based on TS-InSAR Technology

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