Design and Testing of Inertial System for Landslide Displacement Distribution Measurement

Zhang, Yongquan; Tang, Huiming; Lu, Guoguang; Wang, Yuansheng; Li, Changdong; Zhang, Junrong; An, Pengju; Shen, Ping

doi:10.3390/s20247154

Cited by 8 publications

(4 citation statements)

References 28 publications

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“…To fully evaluate the effectiveness and accuracy of the measurement model, a series of comparative experiments between the measured displacement and the actual displacement have been conducted on the self-designed underground displacement three-dimensional measurement experimental device. The experimental results show that the maximum errors of horizontal displacement and vertical displacement based on the proposed measurement model are less than 1 mm in the inter-axis angle range from 0 • to 80 • , which has higher measurement accuracy and reliability compared with other underground displacement monitoring technologies [4,20] and meets the accuracy and reliability requirements of landslide displacement monitoring.…”

mentioning

confidence: 86%

“…By comparison, underground displacements can more accurately analyze the internal deformation characteristics of rock and soil mass, understand the landslide's real evolution, and obtain the local deformation of the entire landslide body. Therefore, underground displacement monitoring is more effective than surface displacement monitoring in predicting the trend of landslides [20].…”

Section: Introductionmentioning

confidence: 99%

“…The sliding inclinometer needs to pre-bury the inclinometer tube and drive the inclinometer probe with a guide sliding wheel to detect section by section in the inclinometer tube. Zhang et al [20] proposed a landslide displacement measurement method based on deformation-coupled pipeline trajectory measurement, which has been successfully applied to the deformation monitoring of the Majiagou landslide. Fixed inclinometer and sliding inclinometer have advantages and disadvantages; the former is more costly but can realize automatic measurement.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Three-Dimensional Measuring Device and Method of Underground Displacement Based on Double Mutual Inductance Voltage Contour Method

Shentu

Wang

et al. 2022

Sensors

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Landslide is a very common and destructive geo-hazard, and displacement monitoring of it is integral for risk assessment and engineering prevention. Given the shortcomings of current landslide displacement monitor technologies, a new three-dimensional underground displacement monitoring technology is proposed based on the double mutual inductance voltage contour method. The underground displacement measuring device mainly consists of an information processing unit and sensing array, connected by power and RS-485 communication lines. An underground displacement measurement model to convert the double mutual inductance voltages and the inter-axis angle into the relative displacement between adjacent sensing units is established based on the interval-interpolation and contour-modeling. Under the control of the information processing unit, the relative displacement between any two adjacent sensing units can be calculated through the underground displacement measurement model, so as to obtain the total displacement from underground depth to surface, and the measurement data can be further sent to the Internet of things cloud platform through the 4G module; thus the remote real-time monitoring of underground displacement three-dimensional measurement for the rock and soil mass from underground depth to the surface is realized. The measurement model is verified by building an experimental platform to simulate the underground displacement of rock and soil mass. The experimental results show that for each measuring unit, when the horizontal displacement and vertical displacement are within the measurement range of 0–50 mm, the maximum measurement error will not exceed 1 mm, which can meet the accuracy requirements of underground displacement monitoring of landslide.

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mentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Three-Dimensional Measuring Device and Method of Underground Displacement Based on Double Mutual Inductance Voltage Contour Method

Shentu

Wang

et al. 2022

Sensors

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“…Many land movement monitoring systems have been developed, including the use of Linear Variable Differential Transformer (LVDT) sensors [3,4], accelerometer sensors [5][6][7][8][9], fiber optic [10][11][12][13], extensometer [14,15], and inclinometer [16][17][18][19][20][21]. However, some of these studies, such as [6] dan [9] were more focused on reviewing the angular slope of each axis due to the land movement and testing systems.…”

Section: Introductionmentioning

confidence: 99%

Simulation of Land Movement Detection System Using Accelerometer Sensors and Fiber Optic

Hidayah

Salamah

Pratama

2022

J. Penelit. Fis. Apl.

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Indonesia’s geographical conditions are one of the causes of land movement. This land movement can occur due to the movement of rock masses, soil, or debris material making up the slopes. The stability of a slope is influenced by several parameters such as material, soil strength, slope angle, climate, vegetation, and time. In Indonesia, land movement disasters are placed the third rank of natural disasters that occurred throughout 2021. Thus, the development of a land movement detection system is very important for monitoring land movement disasters. In this research, a land movement detection device was developed using the ADXL 335 accelerometer sensor and fiber optic. For data acquisition, Arduino Uno, LEDs, and photodetectors were used. Arduino Uno was used to convert analog signals to digital. In addition, LEDs were used as light sources, and photodetectors were used as a receiver. Changes in the output voltage due to macrobending loss are obtained when the curvature changes due to the pendulum system. The results of the study show that the average acceleration values on the x, y, and z axes of the accelerometer sensor are 0.118 g, 0.925 g, and -2.494 g. The maximum land displacement movement that can be represented by fiber optic is 4 cm. Further, the combination use of accelerometer sensors and fiber optic can show the magnitude of the force that causes displacement, the direction of land displacement, and the magnitude of the land displacement that occurs.

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Key Techniques of Prevention and Control for Reservoir Landslides Based on Evolutionary Process

Tang

Wang

et al. 2023

Progress in Landslide Research and Technology, Volume 1 Issue 2, 2022

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The essence of reservoir landslide treatment is to change its evolution process. It is hard to guarantee the effectiveness and safety of the landslide prevention and control technology that ignores the evolution processes. Guided by the thought of evolution, this study introduced some key techniques of reservoir landslide prevention and control. Seven evolution modes are summarized for rock slides and the optimal control measures suitable for each evolution mode and different evolution stages are suggested. The dynamic stability evaluation method is proposed considering the evolution process of the slip zone soil strength. This study introduces the methods for determining optimal pile positions for step-shaped sliding surfaces, the optimal plane arrangement of stabilizing piles, and their reasonable embedded lengths. Finally, two demonstration bases for comprehensive prevention and control of large reservoir landslides that were established in the Three Gorges Reservoir area (TGRA) were introduced, which is of great scientific and application value to the improvement of reservoir landslide prevention and control techniques.

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Design and Testing of Inertial System for Landslide Displacement Distribution Measurement

Cited by 8 publications

References 28 publications

Three-Dimensional Measuring Device and Method of Underground Displacement Based on Double Mutual Inductance Voltage Contour Method

Three-Dimensional Measuring Device and Method of Underground Displacement Based on Double Mutual Inductance Voltage Contour Method

Simulation of Land Movement Detection System Using Accelerometer Sensors and Fiber Optic

Key Techniques of Prevention and Control for Reservoir Landslides Based on Evolutionary Process

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