重大滑坡隐患分析方法综述
朱庆, 曾浩炜, 丁雨淋, 谢潇, 刘飞, 张利国… - Cehui …, 2019 - search.proquest.com
滑坡是发生频繁且破坏力巨大的典型地质灾害类型, 高位山体崩滑和冰雪崩滑等重大滑坡隐患
已经成为新型城镇化和川藏铁路工程等重大基础设施建设重要的制约因素 …
已经成为新型城镇化和川藏铁路工程等重大基础设施建设重要的制约因素 …
Review of landslide monitoring techniques with IoT integration opportunities
H Thirugnanam, S Uhlemann… - IEEE Journal of …, 2022 - ieeexplore.ieee.org
With the advancements of technology in the era of Big Data and artificial intelligence,
Internet of Things (IoT) has a major role for the purpose of monitoring natural disasters like …
Internet of Things (IoT) has a major role for the purpose of monitoring natural disasters like …
Landslide segmentation with deep learning: Evaluating model generalization in rainfall-induced landslides in Brazil
LP Soares, HC Dias, GPB Garcia, CH Grohmann - Remote Sensing, 2022 - mdpi.com
Automatic landslide mapping is crucial for a fast response in a disaster scenario and
improving landslide susceptibility models. Recent studies highlighted the potential of deep …
improving landslide susceptibility models. Recent studies highlighted the potential of deep …
Early warning monitoring of natural and engineered slopes with ground-based synthetic-aperture radar
The first application of ground-based interferometric synthetic-aperture radar (GBInSAR) for
slope monitoring dates back 13 years. Today, GBInSAR is used internationally as a leading …
slope monitoring dates back 13 years. Today, GBInSAR is used internationally as a leading …
[HTML][HTML] Integrating radar and laser-based remote sensing techniques for monitoring structural deformation of archaeological monuments
Ground-Based Synthetic Aperture Radar Interferometry (GBInSAR) and Terrestrial Laser
Scanning (TLS) were purposely integrated to obtain 3D interferometric radar point clouds to …
Scanning (TLS) were purposely integrated to obtain 3D interferometric radar point clouds to …
A 4D filtering and calibration technique for small-scale point cloud change detection with a terrestrial laser scanner
This study presents a point cloud de-noising and calibration approach that takes advantage
of point redundancy in both space and time (4D). The purpose is to detect displacements …
of point redundancy in both space and time (4D). The purpose is to detect displacements …
A deep learning application for deformation prediction from ground-based insar
J Han, H Yang, Y Liu, Z Lu, K Zeng, R Jiao - Remote Sensing, 2022 - mdpi.com
Ground-based synthetic aperture radar interferometry (GB-InSAR) has the characteristics of
high precision, high temporal resolution, and high spatial resolution, and is widely used in …
high precision, high temporal resolution, and high spatial resolution, and is widely used in …
A linked geomorphological and geophysical modelling methodology applied to an active landslide
Moisture-induced landslides are a global geohazard; mitigating the risk posed by landslides
requires an understanding of the hydrological and geological conditions present within a …
requires an understanding of the hydrological and geological conditions present within a …
Towards rockfall forecasting through observing deformations and listening to microseismic emissions
Reliable forecasting of rockfall is a challenging task, mainly because of the lack of clearly
noticeable forerunners as well as due to the geological and geo-mechanical complexity of …
noticeable forerunners as well as due to the geological and geo-mechanical complexity of …
Integrating airborne and multi‐temporal long‐range terrestrial laser scanning with total station measurements for mapping and monitoring a compound slow moving …
ABSTRACT A slow moving compound rock slide located in the northern Apennines of Italy
was mapped and monitored through the integration of Airborne Laser Scanning (ALS), multi …
was mapped and monitored through the integration of Airborne Laser Scanning (ALS), multi …