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Experimental study on the wave pressure of liquefied silty soil. (2018)

Huang, Zhe ; Xu, Guohui ; Meng, Qingsheng ; [et al.]

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Publication Date: 2021-05-19

Description: A number of studies focus on the pore-water pressure in seabed under the waves and seabed instability induced by liquefaction, but rarely on the wave pressure of liquefied soil. In this paper, flume tests were performed at varying wave heights under both conditions of liquefied and stable seabed. The total pressures equal to soil pressures and pore water pressures were measured and analyzed at each depth. The results showed that the liquefied seabed had little difference from the stable seabed on the peak pressures. However, the pressure amplitude of the liquefied soil increased by several to 10 times and decreased faster with increasing soil depths, compared with the stable soil. According to the experiments and further analysis, an empirical equation between pressure amplitude of the liquefied soil and wave parameters was put forward under the flume test. The results provide a valuable reference for engineering applications.

Description: Published

Keywords: Silty soil ; Wave pressure ; Liquefaction ; Water flume test

Repository Name: AquaDocs

Type: Journal Contribution , Not Known

Format: pp.29-42

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IJGI, Vol. 7, Pages 75: An Open-Boundary Locally Weighted Dynamic Time Warping Method for Cropland Mapping (2018)

Xudong Guan; Gaohuan Liu; Chong Huang; Xuelian Meng; Qingsheng Liu; Chunsheng Wu; Xarapat Ablat; Zhuoran Chen; Qiang Wang

MDPI Publishing

In: ISPRS International Journal of Geo-Information

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Publication Date: 2018-02-24

Description: IJGI, Vol. 7, Pages 75: An Open-Boundary Locally Weighted Dynamic Time Warping Method for Cropland Mapping ISPRS International Journal of Geo-Information doi: 10.3390/ijgi7020075 Authors: Xudong Guan Gaohuan Liu Chong Huang Xuelian Meng Qingsheng Liu Chunsheng Wu Xarapat Ablat Zhuoran Chen Qiang Wang This paper proposes an open-boundary locally weighted dynamic time warping (OLWDTW) method using MODIS Normalized Difference Vegetation Index (NDVI) time-series data for cropland recognition. The method solves the problem of flexible planting times for crops in Southeast Asia, which has sufficient thermal and water conditions. For NDVI time series starting at the beginning of the year and terminating at the end of the year, the method can separate the non-growing season cycle and growing season cycle for crops. The non-growing season cycle may provide some useful information for crop recognition, such as soil conditions. However, the shape of the growing season’s NDVI time series for crops is the key to separating cropland from other land cover types because the shape contains all of the crop growth information. The principle of the OLWDTW method is to enhance the effects of the growing season cycle on the NDVI time series by adding a local weight to the growing season when comparing the similarity of time series based on the open-boundary dynamic time warping (DTW) method. Experiments with two satellite datasets located near the Khorat Plateau in the Lower Mekong Basin validate that OLWDTW effectively improves the precision of cropland recognition compared to a non-weighted open-boundary DTW method in terms of overall accuracy. The method’s classification accuracy on cropland exceeds the non-weighted open-boundary DTW by 5–7%. In future studies, an open-boundary self-adaption locally weighted DTW and a more effective combination rule for different crop types should be explored for the method’s best performance and highest extraction accuracy for cropland.

Electronic ISSN: 2220-9964

Topics: Architecture, Civil Engineering, Surveying , Geosciences

Published by MDPI Publishing on behalf of International Society for Photogrammetry and Remote Sensing (ISPRS).

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Remote Sensing, Vol. 8, Pages 19: Mapping Rice Cropping Systems in Vietnam Using an NDVI-Based Time-Series Similarity Measurement Based on DTW Distance (2016)

Xudong Guan; Chong Huang; Gaohuan Liu; Xuelian Meng; Qingsheng Liu

MDPI Publishing

In: Remote Sensing

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Publication Date: 2016-01-09

Description: Normalized Difference Vegetation Index (NDVI) derived from Moderate Resolution Imaging Spectroradiometer (MODIS) time-series data has been widely used in the fields of crop and rice classification. The cloudy and rainy weather characteristics of the monsoon season greatly reduce the likelihood of obtaining high-quality optical remote sensing images. In addition, the diverse crop-planting system in Vietnam also hinders the comparison of NDVI among different crop stages. To address these problems, we apply a Dynamic Time Warping (DTW) distance-based similarity measure approach and use the entire yearly NDVI time series to reduce the inaccuracy of classification using a single image. We first de-noise the NDVI time series using S-G filtering based on the TIMESAT software. Then, a standard NDVI time-series base for rice growth is established based on field survey data and Google Earth sample data. NDVI time-series data for each pixel are constructed and the DTW distance with the standard rice growth NDVI time series is calculated. Then, we apply thresholds to extract rice growth areas. A qualitative assessment using statistical data and a spatial assessment using sampled data from the rice-cropping map reveal a high mapping accuracy at the national scale between the statistical data, with the corresponding R2 being as high as 0.809; however, the mapped rice accuracy decreased at the provincial scale due to the reduced number of rice planting areas per province. An analysis of the results indicates that the 500-m resolution MODIS data are limited in terms of mapping scattered rice parcels. The results demonstrate that the DTW-based similarity measure of the NDVI time series can be effectively used to map large-area rice cropping systems with diverse cultivation processes.

Electronic ISSN: 2072-4292

Topics: Architecture, Civil Engineering, Surveying , Geography

Published by MDPI Publishing

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