Your search keyword '"Fu, Zhiyong"' showing total 7 results

1. Reliability of the prediction model for landslide displacement with step-like behavior

Author

Fu, Zhiyong, Long, Jingjing, Chen, Wenqiang, Li, Changdong, Zhang, Haikuan, and Yao, Wenmin

Published

2021

2. Causes of episodic movement of the Baijiabao landslide based on multiple-time scale analysis.

Author

Fu, Zhiyong, Li, Dian-Qing, Wang, Shun, Zhang, Limin, and Du, Wenqi

Subjects

*LANDSLIDES, *RAINFALL, *WATER levels, *FIELD research, *NATURAL disaster warning systems

Abstract

Since the impoundment of the Three Gorges Reservoir (TGR), China, the TGR region has developed numerous landslides, most of which exhibited episodic movement behavior. As a representative example, the Baijiabao landslide in the TGR region is considered herein to investigate the causes of the episodic movement behavior based on multiple-time scale analysis. The cumulative displacements recorded at four manual monitoring sites from 2007 to 2020 and three automatic monitoring sites from 1 November 2017 to 30 August 2020 are collected for the statistical analysis, and multiple-term field investigations are conducted to give insights into the episodic movement of the Baijiabao landslide. Based on geographical detectors, the key individual and combined predisposing factors for the episodic movement corresponding to the monthly, weekly, and daily scales are determined, respectively. The results indicate that the continuous deformation for a dozen of days induces the episodic movement of the landslide at the monthly scale. At the short-time scale, the reservoir water level is a much more significant predisposing factor than rainfall in inducing the deformation of the landslide. At the long-time scale, the episodic movement is greatly affected by both reservoir level and rainfall conditions. In addition, combined predisposing factors consisting of one rainfall-related and one reservoir level–related factor could nonlinearly enhance each other to be better correlated with the landslide deformation. [ABSTRACT FROM AUTHOR]

Published

2024

3. A novel model for regional susceptibility mapping of rainfall-reservoir induced landslides in Jurassic slide-prone strata of western Hubei Province, Three Gorges Reservoir area.

Author

Long, Jingjing, Liu, Yong, Li, Changdong, Fu, Zhiyong, and Zhang, Haikuan

Subjects

LANDSLIDES, LANDSLIDE hazard analysis, RECEIVER operating characteristic curves, LANDSLIDE prediction, GORGES, PROBLEM solving

Abstract

Jurassic facility-sliding strata have been identified as a fundamental factor affecting the occurrence of rainfall-reservoir induced landslides in western Hubei Province, China Three Gorges Reservoir area. Regional landslide susceptibility mapping is the most effective method for landslide prediction and mitigation. To solve the current problem of identifying the true landslides and non-landslides, a novel hybrid model based on the two steps self-organizing mapping-random forest (two steps SOM-RF) algorithm is proposed. The identified high and very high susceptibility zones are located within the hydro-fluctuation belt and regions with low altitude based on the datasets before 2014. Deviation and variance of other ten datasets are generated to evaluate the reliability of the maps for the problem of unbalanced sample sizes. Two typical landslides occurred in 2017 have been found in the very high susceptibility zone, which emphasized the validity of susceptibility mapping. To verify the effectiveness of selecting true landslides and non-landslides based on two steps SOM model, recorded landslides and non-landslides randomly chosen from landslide-free areas are put into the single RF model for comparison. The receiver operating characteristic curve and Accuracy index are applied to compare the performance of the landslide susceptibility maps created based on two steps SOM-RF and the single RF model. The results demonstrate that the consideration of true landslides and non-landslides is effective in producing a more accurate landslide susceptibility map with superior prediction skill and higher reliability. [ABSTRACT FROM AUTHOR]

Published

2021

4. Deformation response and triggering factors of the reservoir landslide–pile system based upon geographic detector technology and uncertainty of monitoring data.

Author

Zhang, Haikuan, Li, Changdong, Hu, Xinli, Fu, Zhiyong, Chen, Wenqiang, Yao, Wenmin, Zhang, Yunpeng, and Jiang, Xihui

Subjects

LANDSLIDES, DEFORMATION of surfaces, APRIORI algorithm, DETECTORS, WATER levels, UNCERTAINTY, FIRE detectors, NATURAL disaster warning systems

Abstract

Understandings of reinforcement mechanisms of landslide-stabilizing pile system are important for long-term safety of reservoir landslides installed piles. The paper proposes a framework to study deformation response and identify triggering factors for landslide–pile system by using geographic detector technology and uncertainty of monitoring data. Majiagou landslide, a representative reservoir landslide installed stabilizing and test piles, is selected as the case study. Firstly, monitoring data of monthly rainfall, variations of reservoir water level, deformation of landslide surface and piles' head were preprocessed. The random deformation data were generated considering uncertainty of deformation monitoring data. Meanwhile, the deformation response of landslide–pile system is analyzed through studying the monitoring deformation data and random deformation data using the clustering algorithm. Finally, geographic detector technique was used to identify main triggering factors of landslide surface deformation and explore interaction types of any two factors. The uncertainty of monitoring data was used to identify the most important triggering factor. Influences of different error and uncertainty of monitoring data on the influence degrees of each factor were further discussed. The comparison with improved Apriori algorithm shows that the presented framework can intuitively measure influence degrees of each factor and analyze interaction types of any two factors. The main conclusions by studying Majiagou landslide indicate that the anti-slide performance and action range of piles gradually decrease with the increase of hydraulic cycle; the deterioration of geomaterials' properties are the most important triggering factor leading to the deformation of landslide–pile system and the degradation of piles' performance, supported by most random deformation groups. [ABSTRACT FROM AUTHOR]

Published

2021

5. Susceptibility of reservoir-induced landslides and strategies for increasing the slope stability in the Three Gorges Reservoir Area: Zigui Basin as an example.

Author

Li, Changdong, Fu, Zhiyong, Wang, Ying, Tang, Huiming, Yan, Junfeng, Gong, Wenping, Yao, Wenmin, and Criss, Robert E.

Subjects

*LANDSLIDES, *SLOPE stability, *FAILURE mode & effects analysis, *RESERVOIRS, *CONDITIONAL probability, *MULTIPLE correspondence analysis (Statistics)

Abstract

The construction of the huge Three Gorges reservoir affected a large region, and the resultant geological and environmental impacts have caused global concern. The remarkable, 30-m annual fluctuation in the reservoir water level poses a significant threat to slope stability in this area. Four hundred sixty-two landslides were identified in the Zigui basin using historical records, satellite images, field investigations and unmanned aerial vehicle (UAV) observations, enabling the construction of a complete landslide database and distribution map. Three failure modes of landslides in the Zigui basin are used to illustrate the major factors that govern reservoir-induced landslides. The results show that (1) > 99% of identified landslides occur on slopes angle <47°, while >80% occur at elevations below 600 m; (2) Jurassic Niejiashan Formation is highly prone to landslides; (3) Low reservoir levels of 145 m to 155 m greatly reduce slope stability. Based on the information entropy method that use the conditional probability of different influencing factors and principal component analysis as inputs, the relative contributions of various influencing factors are quantified and a landslide susceptibility map was drawn. This susceptibility map helps define the countermeasures that will best reduce fatalities and property losses for areas having different landslide conditions and susceptibilities. • Database of 462 reservoir-induced landslides in Zigui basin, TGR was created. • Identifying failure modes and quantifying contributions of influential factors. • Conditional probability and information entropy model yields landslide susceptibility. • Susceptibility map, failure modes, and strategies suppressing the slope instability. [ABSTRACT FROM AUTHOR]

Published

2019

6. Evolution characteristics and displacement forecasting model of landslides with stair-step sliding surface along the Xiangxi River, three Gorges Reservoir region, China.

Author

Li, Changdong, Criss, Robert E., Fu, Zhiyong, Long, Jingjing, and Tan, Qinwen

Subjects

*LANDSLIDE hazard analysis, *LANDSLIDE prediction, *LANDSLIDES, *GORGES, *PREDICTION models, *SHIELDS (Geology)

Abstract

Five large and many small landslides are developed in Jurassic strata along the lower reaches of Xiangxi River, where interbedded weak and hard bedrock layers foster the development of landslides with a "stair-step" sliding surface. The paper investigates the evolution characteristics of these landslides and presents a novel forecasting model for their displacements. The distribution characteristics and behavior of landslides developed along Xiangxi River is revealed by the database of landslides in the larger Zigui basin, of which this area is part. Most landslides occur at rather low elevations of <300 m and in areas of moderate rainfall. The geological evolution of landslides in the Xiangxi River valley can be divided into four stages, beginning with anticline formation, followed by valley incision, then by weathering and erosion, and culminating in formation of the colluvial landslides. The accumulative displacement curves of landslides with a stair-step sliding surface in Xiangxi River region also present obvious, step-like characteristics. A novel GA-CEEMD-RF algorithm was developed to predict the displacement of these stair-step landslides, which helps to define the combination of induced factors and weak stableness of prediction results using a single displacement prediction model and the multi-field monitoring data. • The distribution characteristics of landslides developed along lower reaches of Xiangxi River was revealed. • Interbedded weak and hard bedrock layers foster the development of landslides with a "stair-step" sliding surface. • The geological evolution of landslides in the Xiangxi River valley can be divided into four stages. • A novel GA-CEEMD-RF algorithm was developed to predict the displacement of stair-step landslides. [ABSTRACT FROM AUTHOR]

Published

2021

7. Landslide susceptibility mapping based on two step cluster and self-organizing mapping-random forest: A case study of the Zigui basin, Three Gorges Reservoir Area, China.

Author

Long, Jingjing, Li, Changdong, and Fu, Zhiyong

Subjects

*LANDSLIDE hazard analysis, *LANDSLIDES, *GRID cells, *GORGES, *ROUGH sets, *RESERVOIRS

Abstract

The Zigui basin is one of the most landslide-prone areas where thousands of landslides are distributed. Performing the landslide susceptibility mapping is a heated issue in the area. Whereas, whether the random selection of the landslides or non-landslides grid cells are reasonable in research of landslide susceptibility mapping is the existence problem nowadays. Based on the two step cluster (TSC) algorithm and the self-organizing mapping - random forest (SOM-RF) model, a novel hybrid model is proposed to overcome the above drawbacks in this study. Rough set (RS) theory is employed as an attribute reduction tool to identify the significant influencing factors of landslides, and SOM is used to produce a preliminary landslide susceptibility mapping. Two step cluster algorithm is applied in telling apart the most reasonable True-Positive (TP) from landslide grid cells in high-susceptibility zones and the False-Positive (FP) in low-susceptibility zones. Afterwards, the TP and FP are imported into the RF model as samples to produce the improved landslide susceptibility mapping. The proposed method is utilized to develop landslide susceptibility mapping in the Zigui basin. Compared with the susceptibility mapping produced by RF model, which selects landslides and non-landslides grid cells randomly, the results of TSC and SOM-RF model demonstrates to have the superior prediction skill and higher reliability in landslides susceptibility mapping. [ABSTRACT FROM AUTHOR]

Published

2019