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1. Three-Dimensional Deformation Estimation from Multi-Temporal Real-Scene Models for Landslide Monitoring

Author

Ke Xi, Pengjie Tao, Zhuangqun Niu, Xiaokun Zhu, Yansong Duan, Tao Ke, and Zuxun Zhang

Subjects
geological landslide monitoring, 3D deformation estimation, UAV, feature extraction, 3D point matching, real-scene 3D model, Science
Abstract

This study proposes a three-dimensional (3D) deformation estimation framework based on the integration of shape and texture information for real-scene 3D model matching, effectively addressing the issue of deformation assessment in large-scale geological landslide areas. By extracting and merging the texture and shape features of matched points, correspondences between points in multi-temporal real-scene 3D models are established, resolving the difficulties faced by existing methods in achieving robust and high-precision 3D point matching over landslide areas. To ensure the complete coverage of the geological disaster area while enhancing computational efficiency during deformation estimation, a voxel-based thinning method to generate interest points is proposed. The effectiveness of the proposed method is validated through tests on a dataset from the Lijie north hill geological landslide area in Gansu Province, China. Experimental results demonstrate that the proposed method significantly outperforms existing classic and advanced methods in terms of matching accuracy metrics, and the accuracy of our deformation estimates is close to the actual measurements obtained from GNSS stations, with an average error of only 2.2 cm.

Published
2024
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2. Mental Health Chatbot for Young Adults With Depressive Symptoms During the COVID-19 Pandemic: Single-Blind, Three-Arm Randomized Controlled Trial

Author

Yuhao He, Li Yang, Xiaokun Zhu, Bin Wu, Shuo Zhang, Chunlian Qian, and Tian Tian

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundDepression has a high prevalence among young adults, especially during the COVID-19 pandemic. However, mental health services remain scarce and underutilized worldwide. Mental health chatbots are a novel digital technology to provide fully automated interventions for depressive symptoms. ObjectiveThe purpose of this study was to test the clinical effectiveness and nonclinical performance of a cognitive behavioral therapy (CBT)–based mental health chatbot (XiaoE) for young adults with depressive symptoms during the COVID-19 pandemic. MethodsIn a single-blind, 3-arm randomized controlled trial, participants manifesting depressive symptoms recruited from a Chinese university were randomly assigned to a mental health chatbot (XiaoE; n=49), an e-book (n=49), or a general chatbot (Xiaoai; n=50) group in a ratio of 1:1:1. Participants received a 1-week intervention. The primary outcome was the reduction of depressive symptoms according to the 9-item Patient Health Questionnaire (PHQ-9) at 1 week later (T1) and 1 month later (T2). Both intention-to-treat and per-protocol analyses were conducted under analysis of covariance models adjusting for baseline data. Controlled multiple imputation and δ-based sensitivity analysis were performed for missing data. The secondary outcomes were the level of working alliance measured using the Working Alliance Questionnaire (WAQ), usability measured using the Usability Metric for User Experience-LITE (UMUX-LITE), and acceptability measured using the Acceptability Scale (AS). ResultsParticipants were on average 18.78 years old, and 37.2% (55/148) were female. The mean baseline PHQ-9 score was 10.02 (SD 3.18; range 2-19). Intention-to-treat analysis revealed lower PHQ-9 scores among participants in the XiaoE group compared with participants in the e-book group and Xiaoai group at both T1 (F2,136=17.011; P

Published
2022
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3. Deformation monitoring and thematic mapping of the Badaling Great Wall using very high-resolution interferometric synthetic aperture radar data

Author

Fulong Chen, Hanwei Liu, Hang Xu, Wei Zhou, Timo Balz, Pinxiang Chen, Xiaokun Zhu, Hui Lin, Chaoyang Fang, and Issaak Parcharidis

Subjects
InSAR, Deformation, Cultural heritage, Great Wall, Very high-resolution, Physical geography, GB3-5030, Environmental sciences, GE1-350
Abstract

The preventive monitoring and sustainable conservation of large-scale cultural heritage sites require satellite-based Earth observations. In this study, we present the first monitoring and thematic mapping results of the Badaling Great Wall (Beijing, China) using deformation indicators calculated from very high-resolution (VHR) multi-temporal spotlight TerraSAR-X data. The proposed coarse–fine search algorithm achieved high computational efficiency for calculating the unknown parameters of the two-tier network persistent scatterer synthetic aperture radar (SAR) interferometry (PSInSAR) approach. The spatiotemporal deformation anomalies, characterized by the absolute velocity, deformation deviation and acceleration, are informative to identify suspected hotspots for prioritizing monitoring activities. We provide an understandable method for thematic mapping and subsequent sustainable conservation of heritage sites by synergistically exploiting impacts from natural degradation and the tourism industry. We determine that the optimum tourist capacity of the site could be 1.0 million per month based on comparing pre- and post-COVID data (2019–2020). This study demonstrates the potential and performance of spaceborne PSInSAR tools for the intelligent management of large-scale architectural heritage sites by integrating InSAR deformation products with environmental and social data.

Published
2021
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4. Electrostatic Actuating Bendable Flat Electrode for Micro Electrochemical Machining

Author

Ruining Huang and Xiaokun Zhu

Subjects
Technology, Engineering (General). Civil engineering (General), TA1-2040
Abstract

ABSTRACT: In micro-electrochemical machining (μECM), material dissolution takes place at very close vicinity of tool electrode due to localization of electric field. Controlling the gap between tool electrode and workpiece is the key to μECM. Therefore, a new method is proposed to solve a variety of problems in small gap control. In the present context, experiments were carried out with an indigenously developed setup to fabricate cylindrical arrays. During the machining process, the flat electrode bends due to electrostatic force in pulse on-time, which self-adaptively narrows the gap between the electrode and the workpiece. The workpiece material will be removed once the gap meets the processing condition. Therefore, this method has advantages of reducing dependence on high precision machine tools and of avoiding complex servo control. The flat electrode quickly restores to its original condition when it is in pulse off-time, making the gap much larger than that in traditional electrochemical machining (ECM). The large gap benefits debris removing, which improves the machining accuracy. The influence of different experimental parameters on accuracy and efficiency during the machining process has been investigated. It is observed that with the increase in applied voltage or concentration of electrolyte, the material removal rate and the process gap both increase. The detailed analysis of the experimental results is described in this paper. Keywords: μECM, Flat electrode, Electrostatic actuation, Current density, Gap control

Published
2018
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6. Reconstruction of the Water Cultivation Paleoenvironment Dating Back to the Han and Tang Dynasties Surrounding the Yangguan Frontier Pass Using X- and L-Band SAR Data

Author

Xiaokun Zhu, Fulong Chen, and Huadong Guo

Subjects
spaceborne SAR, Nanhu oasis, Yangguan frontier pass, water cultivation paleoenvironment, Han and Tang dynasties, Science
Abstract

Supported by a shallow groundwater wetland ecosystem, the Nanhu oasis, which is the location of the Yangguan frontier pass, represents an important supply and defence station for the ancient Silk Road. The reconstruction of the evolution of the water cultivation environment is helpful for archaeological surveys and the protection of this well-known heritage site. This study proposes a workflow for reconstructing the water cultivation paleoenvironment-based primarily on X- and L-band spaceborne synthetic aperture radar (SAR) data. First, TerraSAR-X/TanDEM-X (TSX/TDX)-generated Digital Elevation Model (DEM) data were used for microrelief analyses, including a watershed analysis and drainage network extraction. Several dried-up paleochannels and the range of the Daze (a wetland dating back to the Tang Dynasty (618–907 A.D.)) were identified. Second, based on the hydrological sensitivity analysis of the multi-temporal L-band SAR data, arid land vegetation accompanying the emergence of groundwater was extracted to locate ancient arable areas using backscattering and coherence characteristics. Finally, reconstruction of the water cultivation paleoenvironment surrounding the Nanhu oasis dating back to the Han and Tang dynasties (202 B.C.–907 A.D.) was performed, referring to historical documents. New discoveries were validated by field campaigns, and the results of the SAR archaeological investigations conducted in this study indicated that the ancient arable area in the Nanhu oasis was nearly double the current dimensions.

Published
2018
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7. Monitoring Cultural Heritage Sites with Advanced Multi-Temporal InSAR Technique: The Case Study of the Summer Palace

Author

Panpan Tang, Fulong Chen, Xiaokun Zhu, and Wei Zhou

Subjects
cultural heritage sites, instabilities, MTInSAR, Distributed Scatterers, the Summer Palace, Science
Abstract

Cultural heritage sites are rare and irreplaceable wealth of human civilization. The majority of them are becoming unstable due to a combination of human and natural disturbances. High-precision, efficient deformation monitoring facilitates the early recognition of potential risks and enables preventive diagnosis of heritage sites. In this study, an advanced Multi-Temporal Interferometric Synthetic Aperture Radar (MTInSAR) approach was developed by jointly analyzing Persistent Scatterers (PSs) and Distributed Scatterers (DSs) using high-resolution SAR images. Taking the World Heritage Site of Summer Palace in Beijing as the experimental site, deformation resulting from PSs/DSs showed that overall the site was generally stable except for specific areas and/or monuments. Urbanization (construction and demolition) triggered new subsidence in the vicinity of East and South Gate of the site. Slight to moderate (mm/cm-level) instabilities of ruins and monuments on Longevity Hill were detected, perhaps due to a combination of destructive anthropogenic activities and long-term natural decay. Subsidence was also detected along the Kunming Lakeside and was probably attributable to variation of the groundwater level, excessive visitor numbers as well as lack of maintenance. This study presents the potential of the MTInSAR approach for the monitoring and conservation of cultural heritage sites.

Published
2016
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15. Mental health chatbot for young adults with depression symptoms during the COVID-19 pandemic: a single-blind, three-arm, randomized controlled trial (Preprint)

Author

Yuhao He, Li Yang, Xiaokun Zhu, Bin Wu, Shuo Zhang, Chunlian Qian, and Tian Tian

Abstract

BACKGROUND Depression has a high detection ratio among young adults, especially during the COVID-19 pandemic, which, however, occupies a low utilization of health services. Mental health chatbot is a novel digital technology to provide fully automated intervention for depression symptoms. OBJECTIVE The purpose of this study is to test the clinical effectiveness and nonclinical performance of the cognitive behavioral therapy (CBT)-based mental health chatbot (XiaoE) for young adults with depression symptoms during the COVID-19 pandemic. METHODS In a single-blind, three-arm, randomized controlled trial, participants manifesting depression symptoms aged 17-34 years recruited from a university in China were randomly assigned to mental health chatbot (XiaoE; n = 49), e-book (n = 49) or general chatbot (Xiaoai; n = 50), in a ratio of 1:1:1. The primary outcome was the reduction of depression symptoms according to the 9-item Patient Health Questionnaire (PHQ-9) at 1 week later (T1) and 1 month later (T2). Both intention-to-treat analyses and per-protocol analyses were conducted under analysis of covariance (ANCOVA) models adjusting for baseline data. Controlled multiple imputation and δ-based sensitivity analysis were performed for missing data. The secondary outcome was the level of working alliance measured using Working Alliance Questionnaire (WAQ), usability measured using the Usability Metric for User Experience-LITE (UMUX-LITE) and acceptability measured using Acceptability Scale (AS). RESULTS Intent-to-treat analysis revealed a moderate short-term effect of group diversity on the reduction of depression symptoms (PHQ-9) at T1 (F2, 136 = 17.011, P < .001, d = 0.51), while a light long-term effect at T2 (F2, 136 = 5.477, P= .005, d = 0.31). Better working alliance (WAQ, F2, 145 = 3.407, P = .036) and acceptability (AS, F2, 145 = 4.322, P = .015) was discovered with XiaoE, while no significant difference among arms was found on usability (UMUX-LITE, F2, 145 = 0.968, P = .382). CONCLUSIONS This novel intervention conducting CBT provides a feasible and engaging digital therapeutic that allows easy accessibility and self-guided mental health assistance for young adults with depression symptoms. A systematic evaluation of nonclinical metrics for mental health chatbot is established in this study. In the future, concern with both clinical outcomes and nonclinical metrics is necessary to explore the mechanism by which the mental health chatbots work on patients. Further evidence is required to confirm the long-term effectiveness via trails replicated with a longer dose as well as exploration on its stronger efficacy in comparison with other active controls. CLINICALTRIAL Chinese Clinical Trial Registry ChiCTR2100052532; http://www.chictr.org.cn/showproj.aspx?proj=135744.

Published
2022
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20. Structure and chlorophyll fluorescence of heteroblastic foliage affect first-year growth in Pinus massoniana Lamb. seedlings

Author

Haoyun Wang, Feng Wu, Min Li, Xiaokun Zhu, Changshuang Shi, Changchang Shao, and Guijie Ding

Subjects
Chlorophyll, Plant Leaves, Sheep, Physiology, Seedlings, Genetics, Animals, Plant Science, Photosynthesis, Pinus, Fluorescence
Abstract

Pine seedlings exhibit heteroblastic foliage (primary and secondary needles) during seedling development. However, few trials have studied how heteroblastic foliage influences pine seedling growth by seasonal variation. This study first investigated the anatomical differences between the primary and secondary needles of one-year-old Pinus massoniana seedlings. We measured chlorophyll fluorescence (ChlF) and evaluated the photoprotective mechanisms and light energy partitioning of these heteroblastic leaves from September to November. The results showed that the primary needles, as juvenile foliage, had a greater fraction of mesophyll tissue and stomata. In addition, the primary needles had two vascular bundles, and shorter distance from xylem and phloem to mesophyll cells, exhibiting a luxury growth strategy of rapidly obtaining high returns. The ChlF parameters indicated that the primary needles maintained a relatively high level of photoprotection by thermal dissipation (nonphotochemical quenching (NPQ)) and nonregulated energy dissipation (Y(NO)). The secondary needles, representing mature foliage, had greater area of xylem and phloem tissues. The contents of Chl b and carotenoids (Car) significantly increased in November, promoting φPo and photoprotection, which suggested that the secondary needles were more resistant to low temperatures. During the whole light response process of secondary needles, the increases in the electron transfer rate (ETR) and light energy utilization efficiency (α) helped to increase the actual photosynthetic quantum yield (Y(II)) by reducing energy dissipation by decreasing the proportion of regulated energy dissipation (Y(NPQ)) and Y(NO). Given the sensitivity of this heteroblastic foliage to environmental changes, the practical use and extension of P. massoniana for afforestation purposes should be carried out with caution.

Published
2021

21. Morphological and Physiological Responses of Pinus massoniana Seedlings to Different Light Gradients

Author

Changshuang Shi, Xiaokun Zhu, Feng Wu, Min Li, Haoyun Wang, and Guijie Ding

Subjects
0106 biological sciences, Pinus massoniana, spectral index, Photosynthesis, 010603 evolutionary biology, 01 natural sciences, chemistry.chemical_compound, QK900-989, Plant ecology, Chlorophyll fluorescence, biology, chlorophyll fluorescence, Forestry, biology.organism_classification, Photosynthetic capacity, biochemical attributes, Horticulture, Light intensity, photosynthetic physiological, chemistry, light gradient, Seedling, Chlorophyll, Shading, 010606 plant biology & botany
Abstract

Light intensity is a critical factor regulating photosynthetic capacity in plants. However, the effects of varying light intensity on morphological and photoprotective mechanisms in Pinus massoniana seedlings have not been explored in depth, especially those in the first seedling growing season. We measured the growth, photosynthetic physiology, biochemistry, and chlorophyll fluorescence of P. massoniana seedlings at four light gradients: 100% relative irradiance (RI, full sunlight), 70% RI, 50% RI, and 20% RI. The seedling height at 70% RI was 9.27% higher than that at 100% RI. However, seedling height was inhibited under low light intensity, at 20% RI, all seedlings died. The decreasing light intensity inhibited ground diameter growth but increased the height-diameter ratio. The secondary needle emergence rate was 53.4% higher at 70% RI than at 100% RI but was only 2% at 50% RI. The chlorophyll and carotenoid contents increased significantly with decreasing light intensity. The increased Chl b and Car contents promoted the photoreceptor potential of the violet (400~420 nm), blue (440~480 nm), and yellow-orange (597~655 nm) regions in leaves. Among the chlorophyll fluorescence parameters, Fv/Fm, Fv′/Fm′, Y(II), qp, and ETR all reached maximum values at 70% RI but were significantly lower at 50% RI than at 100% RI. However, decreasing the light intensity caused a reduction in NPQ. The 70% RI level increased POD and SOD activity and the contents of osmotic regulation substances and slowed MDA accumulation. Seedlings at 70% RI had a higher growth rate, higher photosynthetic activity and potential, and significantly greater stress resistance than the other seedlings. Therefore, appropriate shading measures were beneficial to the cultivation of vigorous seedlings. Furthermore, spectral reflectance indexes were found to be a suitable tool for monitoring the photosynthetic physiological characteristics, stress resistance characteristics, and growth status of P. massoniana seedlings in real time.

Published
2021
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22. Category-Specific CNN for Visual-aware CTR Prediction at JD.com

Author

Jing Lu, Xiwei Zhao, Hu Liu, Zehua Zhang, Xiaokun Zhu, Wenjie Niu, Weipeng Yan, Yongjun Bao, Sulong Xu, Hao Yang, and Hao Peng

Subjects
FOS: Computer and information sciences, Computer Science - Machine Learning, business.industry, Computer science, Machine Learning (stat.ML), 02 engineering and technology, Machine learning, computer.software_genre, Click-through rate, Convolutional neural network, Field (computer science), Machine Learning (cs.LG), User experience design, Statistics - Machine Learning, 020204 information systems, Search advertising, 0202 electrical engineering, electronic engineering, information engineering, Benchmark (computing), 020201 artificial intelligence & image processing, Artificial intelligence, business, computer
Abstract

As one of the largest B2C e-commerce platforms in China, JD.com also powers a leading advertising system, serving millions of advertisers with fingertip connection to hundreds of millions of customers. In our system, as well as most e-commerce scenarios, ads are displayed with images. This makes visual-aware Click Through Rate (CTR) prediction of crucial importance to both business effectiveness and user experience. Existing algorithms usually extract visual features using off-the-shelf Convolutional Neural Networks (CNNs) and late fuse the visual and non-visual features for the finally predicted CTR. Despite being extensively studied, this field still face two key challenges. First, although encouraging progress has been made in offline studies, applying CNNs in real systems remains non-trivial, due to the strict requirements for efficient end-to-end training and low-latency online serving. Second, the off-the-shelf CNNs and late fusion architectures are suboptimal. Specifically, off-the-shelf CNNs were designed for classification thus never take categories as input features. While in e-commerce, categories are precisely labeled and contain abundant visual priors that will help the visual modeling. Unaware of the ad category, these CNNs may extract some unnecessary category-unrelated features, wasting CNN's limited expression ability. To overcome the two challenges, we propose Category-specific CNN (CSCNN) specially for CTR prediction. CSCNN early incorporates the category knowledge with a light-weighted attention-module on each convolutional layer. This enables CSCNN to extract expressive category-specific visual patterns that benefit the CTR prediction. Offline experiments on benchmark and a 10 billion scale real production dataset from JD, together with an Online A/B test show that CSCNN outperforms all compared state-of-the-art algorithms. We also build a highly efficient infrastructure to accomplish end-to-end training with CNN on the 10 billion scale real production dataset within 24 hours, and meet the low latency requirements of online system (20ms on CPU). CSCNN is now deployed in the search advertising system of JD, serving the main traffic of hundreds of millions of active users.

Published
2020
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23. Deformation monitoring and thematic mapping of the Badaling Great Wall using very high-resolution interferometric synthetic aperture radar data

Author

Wei Zhou, Hui Lin, Fulong Chen, Timo Balz, Hang Xu, Pinxiang Chen, Xiaokun Zhu, Hanwei Liu, Issaak Parcharidis, and Chaoyang Fang

Subjects
Synthetic aperture radar, Global and Planetary Change, Management, Monitoring, Policy and Law, Deformation (meteorology), Deformation monitoring, Cultural heritage, Interferometry, Thematic map, Interferometric synthetic aperture radar, Satellite, Computers in Earth Sciences, Geology, Earth-Surface Processes, Remote sensing
Abstract

The preventive monitoring and sustainable conservation of large-scale cultural heritage sites require satellite-based Earth observations. In this study, we present the first monitoring and thematic mapping results of the Badaling Great Wall (Beijing, China) using deformation indicators calculated from very high-resolution (VHR) multi-temporal spotlight TerraSAR-X data. The proposed coarse–fine search algorithm achieved high computational efficiency for calculating the unknown parameters of the two-tier network persistent scatterer synthetic aperture radar (SAR) interferometry (PSInSAR) approach. The spatiotemporal deformation anomalies, characterized by the absolute velocity, deformation deviation and acceleration, are informative to identify suspected hotspots for prioritizing monitoring activities. We provide an understandable method for thematic mapping and subsequent sustainable conservation of heritage sites by synergistically exploiting impacts from natural degradation and the tourism industry. We determine that the optimum tourist capacity of the site could be 1.0 million per month based on comparing pre- and post-COVID data (2019–2020). This study demonstrates the potential and performance of spaceborne PSInSAR tools for the intelligent management of large-scale architectural heritage sites by integrating InSAR deformation products with environmental and social data.

Published
2021
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24. Reconstruction of the Water Cultivation Paleoenvironment Dating Back to the Han and Tang Dynasties Surrounding the Yangguan Frontier Pass Using X- and L-Band SAR Data

Author

Fulong Chen, Xiaokun Zhu, and Huadong Guo

Subjects
Synthetic aperture radar, 010504 meteorology & atmospheric sciences, Science, 0211 other engineering and technologies, Wetland, 02 engineering and technology, 01 natural sciences, spaceborne SAR, Digital elevation model, Yangguan frontier pass, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, geography, geography.geographical_feature_category, Vegetation, Arid, Current (stream), Nanhu oasis, water cultivation paleoenvironment, Han and Tang dynasties, General Earth and Planetary Sciences, Physical geography, Arable land, Groundwater, Geology
Abstract

Supported by a shallow groundwater wetland ecosystem, the Nanhu oasis, which is the location of the Yangguan frontier pass, represents an important supply and defence station for the ancient Silk Road. The reconstruction of the evolution of the water cultivation environment is helpful for archaeological surveys and the protection of this well-known heritage site. This study proposes a workflow for reconstructing the water cultivation paleoenvironment-based primarily on X- and L-band spaceborne synthetic aperture radar (SAR) data. First, TerraSAR-X/TanDEM-X (TSX/TDX)-generated Digital Elevation Model (DEM) data were used for microrelief analyses, including a watershed analysis and drainage network extraction. Several dried-up paleochannels and the range of the Daze (a wetland dating back to the Tang Dynasty (618&ndash, 907 A.D.)) were identified. Second, based on the hydrological sensitivity analysis of the multi-temporal L-band SAR data, arid land vegetation accompanying the emergence of groundwater was extracted to locate ancient arable areas using backscattering and coherence characteristics. Finally, reconstruction of the water cultivation paleoenvironment surrounding the Nanhu oasis dating back to the Han and Tang dynasties (202 B.C.&ndash, 907 A.D.) was performed, referring to historical documents. New discoveries were validated by field campaigns, and the results of the SAR archaeological investigations conducted in this study indicated that the ancient arable area in the Nanhu oasis was nearly double the current dimensions.

Published
2018

25. A Spatial Pattern Analysis of Frontier Passes in China’s Northern Silk Road Region Using a Scale Optimization BLR Archaeological Predictive Model

Author

Fulong Chen, Xiaokun Zhu, and Huadong Guo

Subjects
010506 paleontology, Archeology, Variables, 060102 archaeology, Materials Science (miscellaneous), media_common.quotation_subject, Sample (statistics), Terrain, 06 humanities and the arts, Conservation, 01 natural sciences, Stability (probability), Archaeology, Silk Road, frontier pass sites, scale optimization, binary logistic regression (BLR), archaeological predictive model (APM), sensibility map, Spatial ecology, Common spatial pattern, 0601 history and archaeology, Cluster analysis, Scale (map), Geology, 0105 earth and related environmental sciences, media_common
Abstract

In China’s Northern Silk Road (CNSR) region, dozens of frontier passes built and fortified at critical intersections were exploited starting at approximately 114 B.C. to guarantee caravan safety. Understanding the pattern of these pass sites is helpful in understanding the defense and trading system along the Silk Road. In this study, a scale optimization Binary Logistic Regression (BLR) archaeological predictive model was proposed to study the spatial pattern of CNSR frontier passes for understanding the critical placement of ancient defense and trading pass sites. Three hundred and fifty sample locations and 17 natural proxies were input into the model. Four strongly correlated factors were reserved as independent variables to construct the model, which was validated by 150 surveyed data and Kvamme’s Gain statistics. According to the variable selection and model optimization, the best spatial scale varies with the stability of the variables, such as 50 m and 1000 m, respectively, for the terrain and non-terrain variables. Clustering characteristics were identified with division overlapped with a 400 mm precipitation line using the site sensibility map. The high and medium probability areas were assembled along the Great Wall and the CNSR routes, especially in the western part, revealing that the model is also helpful to reconstruct the Silk Road routes.

Published
2018
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26. Synoptic mapping of high-rise buildings in urban areas based on combined shadow analysis and scale space processing

Author

Ying Zhang, Zhongchang Sun, Li Xinwu, Nicholas Lantz, Bert Guindon, and Xiaokun Zhu

Subjects
Beijing, Pixel, Computer science, General Earth and Planetary Sciences, Suburban area, Satellite imagery, Invariant (mathematics), Detection rate, High rise, Remote sensing, Scale space
Abstract

A highly automated methodology is described to map locations and heights of high-rise buildings from single high-resolution multi-spectral satellite imagery. The approach involves preliminary shadow detection using the Tsai colour invariant transform and scale space processing to identify candidate building pixels. Application of shadow-building and shadow length constraints led to mapping of the location and height of building candidate objects. The approach has been applied to a winter SPOT 5 scene of Beijing, China. Tests of buildings in a suburban area indicate that a high detection rate (93%) can be achieved for buildings taller than 28 m. A height estimation accuracy of 20 m has also been met for these buildings.

Published
2014
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27. Land cover classification using airborne LiDAR products in Beauport, Québec, Canada

Author

Xiaokun Zhu and Thierry Toutin

Subjects
Earth observation, Lidar, Contextual image classification, Meteorology, Impervious surface, General Earth and Planetary Sciences, Environmental science, Vegetation, Land cover, Topographic map, Digital elevation model, Computer Science Applications, Remote sensing
Abstract

Airborne light detection and range (LiDAR) with three-dimensional product acquisition capabilities has become an important research hot spot. The classification and information extraction of LiDAR were usually carried out with other earth observation (EO) data (VIR/SAR, spaceborne/airborne). However, if these EO data are not always available, a particularly interesting possibility is to use only the products of LiDAR including the digital elevation model, the digital surface model and the intensity image. In this article, at the study site of Beauport, around Lac-Saint-Charles, Quebec, Canada, only airborne LiDAR products are applied to realise land cover interpretation and classification. A two-hierarchy decision-tree classification is suggested and carried out. Six land cover classes are extracted, including water bodies, bare soils, impervious areas, vegetation, buildings and high-voltage electric wires. All the reference and checking data are based on 1:20,000 topographic map of Quebec. According to t...

Published
2013
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28. Monitoring Cultural Heritage Sites with Advanced Multi-Temporal InSAR Technique: The Case Study of the Summer Palace

Author

Fulong Chen, Wei Zhou, Xiaokun Zhu, and Panpan Tang

Subjects
Distributed Scatterers, 010504 meteorology & atmospheric sciences, Science, 0211 other engineering and technologies, 02 engineering and technology, 01 natural sciences, Natural (archaeology), MTInSAR, Deformation monitoring, cultural heritage sites, Beijing, Urbanization, Interferometric synthetic aperture radar, the Summer Palace, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Remote sensing, Visitor pattern, Subsidence, Cultural heritage, instabilities, General Earth and Planetary Sciences, Physical geography, Geology
Abstract

Cultural heritage sites are rare and irreplaceable wealth of human civilization. The majority of them are becoming unstable due to a combination of human and natural disturbances. High-precision, efficient deformation monitoring facilitates the early recognition of potential risks and enables preventive diagnosis of heritage sites. In this study, an advanced Multi-Temporal Interferometric Synthetic Aperture Radar (MTInSAR) approach was developed by jointly analyzing Persistent Scatterers (PSs) and Distributed Scatterers (DSs) using high-resolution SAR images. Taking the World Heritage Site of Summer Palace in Beijing as the experimental site, deformation resulting from PSs/DSs showed that overall the site was generally stable except for specific areas and/or monuments. Urbanization (construction and demolition) triggered new subsidence in the vicinity of East and South Gate of the site. Slight to moderate (mm/cm-level) instabilities of ruins and monuments on Longevity Hill were detected, perhaps due to a combination of destructive anthropogenic activities and long-term natural decay. Subsidence was also detected along the Kunming Lakeside and was probably attributable to variation of the groundwater level, excessive visitor numbers as well as lack of maintenance. This study presents the potential of the MTInSAR approach for the monitoring and conservation of cultural heritage sites.

Published
2016

29. A Multiresolution Approximation Theory of Fractal Transform

Author

Xiaokun Zhu and Bing Cheng

Subjects
Approximation theory, Basis (linear algebra), Applied Mathematics, Multiresolution analysis, Mathematical analysis, Fractal transform, Wavelet, Fractal, Modeling and Simulation, Geometry and Topology, Time domain, Fast wavelet transform, Algorithm, Mathematics
Abstract

In this paper, we show that the fractal transform (FT) constitutes a multiresolution approximation to the square-integrable space L2(Td) for d≥1, where T is the interval (-∞,∞). This provides a theoretical basis for the successful applications of the fractal transform algorithms in signal/image encoding. There are many similarities between fractal-based and wavelet-based approximations. However, they are undamentally different from each other in many aspects. Fractal-based multiresolution approximation to signals/images is by a way of self-increasing model complexity, and wavelet-based multiresolution approximation to signals/images is by a way of decomposing data complexity into single (time domain) components.

Published
1997
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30. Synthesis and bioactivity study of 2-acylamino-substituted N'-benzylbenzohydrazide derivatives

Author

Chang-hui Rui, Feng Liu, Xiaokun Zhu, Shangzhong Liu, Xibao Xu, Yi Wang, Junjun Ou, Ren Long, Chuan Xu, and Lei Wang

Subjects
Insecticides, Spectrometry, Mass, Electrospray Ionization, Diamondback moth, Magnetic Resonance Spectroscopy, biology, Chemistry, Stereochemistry, Hydrazine, Plutella, General Chemistry, Nuclear magnetic resonance spectroscopy, Pesticide, Moths, biology.organism_classification, Mass spectrometry, chemistry.chemical_compound, Hydrazines, Aphis gossypii, Aphids, Animals, Amines, General Agricultural and Biological Sciences, Tetranychidae, Methyl group
Abstract

The discovery of new safe and effective pesticides is one of the main means of providing eco-friendly agricultural agents for modern crop protection. To identify new biological molecules based of the anthranilic diamide skeleton of the novel pesticide chlorantraniliprole, which acts on the ryanodine receptor and functional groups in acyl hydrazine insect growth regulators, more than 40 new compounds of 2-acylamino-substituted N'-benzylbenzohydrazide derivatives were designed and synthesized. The structures of the new compounds were characterized using (1)H nuclear magnetic resonance (NMR), high-resolution mass spectrometry (HRMS), or electron impact mass spectrometry (EI-MS), and their biological activities at a concentration of 600 mg L(-1) were determined against cotton aphid (Aphis gossypii Glover), carmine spider mite (Tetranychus cinnabarinus), and diamondback moth (Plutella xylostella). The results of a preliminary assay showed that compounds 6a-I-2 and 6d-III-4 maintained the lethal activity of anthranilic diamide against P. xylostella; compounds 6c-II-4, 6d-I-7, 6d-II-1, and 6d-III-5 exhibited good lethal activity against A. gossypii; and compounds 6a-II-1, 6a-III-1, 6b-I-7, 6c-I-1, and 6c-III-5 retained promising larvicidal activities against T. cinnabarinus. In subsequent further tests against T. cinnabarinus, compounds 6a-II-1, 6a-III-1, 6c-I-1, and 6c-III-5 showed an LC(50) value of

Published
2012

31. Object-Oriented Interpretation and Classification with Airborne LiDAR 3D Data

Author

Xiaokun Zhu and Thierry Toutin

Subjects
Lidar, Contextual image classification, Computer science, Feature extraction, Point cloud, Terrain, Land cover, Digital elevation model, Differential GPS, Remote sensing
Abstract

Three dimensional (3D) information acquisitions is one of the advantages of airborne Light Detection and Range (LiDAR) as interpretation data sources and the relative classification and feature extraction algorithms based on the point cloud height are developed. In this paper, in the study site of Lac-Saint-Charles, Quebec, Canada, the 3D accuracy of the airborne LiDAR products, including digital elevation model (DEM), digital surface model (DSM) and intensity image, are evaluated with differential GPS (dGPS) data. An object-oriented interpretation and classification work flow with these products is proposed and carried out: terrain group and up-terrain group are acquired based on the digital height model (DHM) and accuracy assessment result with dGPS data, five different classes including water body, impervious areas, bare soil, vegetation and building are separated based on a multi-window homogeneity Maximum Likelihood Supervised (MLS) classification. Based on accuracy statistics with 965 independent checked data, the final classification result and experimental accuracy analysis demonstrated an efficient attempt in land cover classification with airborne LiDAR products.

Published
2011
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32. Mechanical Test and Analysis on Reliability of Lead-free BGA Assembly

Author

Jiaji Wang, Xin Qu, Taekoo Lee, Bo Qi, Hui Wang, and XiaoKun Zhu

Subjects
Materials science, business.industry, Soldering, Ball grid array, Electronic packaging, Changeover, Structural engineering, Integrated circuit packaging, business, Lead (electronics), Drop test, Reliability (statistics), Reliability engineering
Abstract

As environment pollution and health problem became more and more seriously concerned, the electronic packaging industry is facing the challenge of changeover to "green", using the lead-free solder alloy is the trend instead of the traditional 63Sn/37Pb solder. In this paper, a PCB-level drop test for BGA package will be introduced and the mechanism of the solder joint mechanical fatigue failure will be discussed in detail, in order to find out the relevant failure root causes. In addition, comparing the difference between the solder joint performance of lead-free and PbSn BGA package, the reliability of the lead-free one can be evaluated and a feedback link to the lead-free material selections and processing parameters improving will be provided

Published
2006
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33. A method based on IHS cylindrical transform model for quality assessment of image fusion

Author

Yonghong Jia and Xiaokun Zhu

Subjects
Image fusion, Geography, Feature (computer vision), Image quality, business.industry, Principal component analysis, Wavelet transform, Image processing, Computer vision, Artificial intelligence, Sensor fusion, business, Image resolution
Abstract

Image fusion technique has been widely applied to remote sensing image analysis and processing, and methods for quality assessment of image fusion in remote sensing have also become the research issues at home and abroad. Traditional assessment methods combine calculation of quantitative indexes and visual interpretation to compare fused images quantificationally and qualitatively. However, in the existing assessment methods, there are two defects: on one hand, most imdexes lack the theoretic support to compare different fusion methods. On the hand, there is not a uniform preference for most of the quantitative assessment indexes when they are applied to estimate the fusion effects. That is, the spatial resolution and spectral feature could not be analyzed synchronously by these indexes and there is not a general method to unify the spatial and spectral feature assessment. So in this paper, on the basis of the approximate general model of four traditional fusion methods, including Intensity Hue Saturation(IHS) triangle transform fusion, High Pass Filter(HPF) fusion, Principal Component Analysis(PCA) fusion, Wavelet Transform(WT) fusion, a correlation coefficient assessment method based on IHS cylindrical transform is proposed. By experiments, this method can not only get the evaluation results of spatial and spectral features on the basis of uniform preference, but also can acquire the comparison between fusion image sources and fused images, and acquire differences among fusion methods. Compared with the traditional assessment methods, the new methods is more intuitionistic, and in accord with subjective estimation.

Published
2005
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34. The study of human behaviour dynamics in exercise mode

Author

Shaocheng Qu, Xiaokun Zhu, Bing Zhou, and Li Wang

Subjects
Mechanism (biology), business.industry, Applied Mathematics, media_common.quotation_subject, Mode (statistics), Interval (mathematics), Power law, Computer Science Applications, Modeling and Simulation, Human dynamics, Statistics, Production (economics), Habit, Artificial intelligence, business, Scaling, Mathematics, media_common
Abstract

An empirical analysis of the login datum of fitness club membership over the past 27 months is implemented, which shows that the interval time distribution of their logins presents obvious power-law properties whether all members, groups or individuals. And the scaling indexes of groups are different and linked with their level of activity. Studies on a certain time further reveal that the statistical characteristics of the same community can not be affected by the length of time. Moreover, the power exponents of individuals are also diverse. A conclusion is given to show that the scaling indexes of interval time distribution is dynamically influenced by the level of activity. Finally, by introducing the interest factor and time threshold parameters into the model, human dynamics model based on habit are obtained in order to explore the production mechanism of exercise behaviour of individuals.

Published
2013
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35. Multiresolution approximation of fractal transforms and its applications

Author

D.M. Titterington, Bing Cheng, and Xiaokun Zhu

Subjects
Discrete mathematics, Fractal, Iterated function system, Fractal compression, Fractal transform, Attractor, Algorithm, Data compression, Mathematics
Abstract

To generate a fractal by using an iterated function system (IFS) (Barnsley, 1988) is a very efficient and economic way. This led Barnsley to suggest the use of IFSs for data compression. However, the attractor of an IFS is self-affine but real data are not always self-affine. The real break-through for this problem was made in 1988 by Barnsley (Barnsley and Hurd, 1993) who generalized IFS to local IFS which resulted in so-called fractal transform (FT) for the iteration of functions. The coding of real data by fractal transform has generally achieved high-compression ratio with high-fidelity to the data.

Published
1995
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