Application of integrated remote sensing monitoring technology for geological hazards in major engineering construction:A case study of the Yanqing competition area of the Beijing 2022 Olympic Winter Games

MA Xiaoxue; JIAO Runcheng; CAO Ying; NAN Yun; WANG Shengyu; GUO Xuefei; ZHAO Danning; YAN Chi; NI Xuan

doi:10.6046/zrzyyg.2022485

2024 Vol. 36, No. 2

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Article navigation > Remote Sensing for Natural Resources > 2024 > 36(2): 248-256

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MA Xiaoxue, JIAO Runcheng, CAO Ying, NAN Yun, WANG Shengyu, GUO Xuefei, ZHAO Danning, YAN Chi, NI Xuan. 2024. Application of integrated remote sensing monitoring technology for geological hazards in major engineering construction:A case study of the Yanqing competition area of the Beijing 2022 Olympic Winter Games. Remote Sensing for Natural Resources, 36(2): 248-256. doi: 10.6046/zrzyyg.2022485

Citation:

MA Xiaoxue, JIAO Runcheng, CAO Ying, NAN Yun, WANG Shengyu, GUO Xuefei, ZHAO Danning, YAN Chi, NI Xuan. 2024. Application of integrated remote sensing monitoring technology for geological hazards in major engineering construction:A case study of the Yanqing competition area of the Beijing 2022 Olympic Winter Games. Remote Sensing for Natural Resources, 36(2): 248-256. doi: 10.6046/zrzyyg.2022485

Application of integrated remote sensing monitoring technology for geological hazards in major engineering construction:A case study of the Yanqing competition area of the Beijing 2022 Olympic Winter Games

Beijing Institute of Geological Hazard Prevention,Beijing 100120, China

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Corresponding author: JIAO Runcheng

Received Date: 12 December 2022

Revised Date: 27 March 2023

Publish Date: 14 June 2024

Abstract

Abstract

With the economic and social advancement in China, engineering construction has become a primary cause of geologic hazards. The space-air-ground integrated remote sensing monitoring technology can achieve three-dimensional monitoring at different scales, thus providing rich monitoring methods for geological hazards in major engineering construction. Based on the technology, this study investigated the Yanqing competition area of the Beijing 2022 Olympic Winter Games. Considering the various types of geological hazards in the Yanqing competition area, this study conducted dynamic monitoring of geological hazards in the area by integrating high-resolution optical remote sensing, time-series interferometric synthetic aperture radar (InSAR), unmanned aerial vehicle (UAV) photogrammetry, light detection and ranging (LiDAR), and ground-based InSAR. The dynamic monitoring results reveal the sedimentary source variations in the debris flow gully as well as the deformation zones and time-series deformation characteristics of engineering slopes and ski tracks. This study summarized the integrated remote sensing monitoring methods for geological hazards in major engineering construction, proposing an application assumption of multi-means, multi-platform, multi-disaster, and whole-process hazard monitoring.
- integrated remote sensing monitoring /
- Yanqing competition area of Olympic Winter Games /
- space-air-ground integration /
- geologic hazard