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1. Satellite Internet of Things Load Estimation and Prediction

Author

MAO Xiwen, WANG Haitao, and ZHANG Gengxin

Subjects
satellite IoT, load prediction, load estimation, machine learning, Applied optics. Photonics, TA1501-1820
Abstract

【Objective】With the rapid development of the satellite Internet of Things (IoT), a large number of short-burst users are aggravating collisions and interference among users of the access network. To address this issue, several organizations and individuals have put forward some dynamic access schemes. However, for most of the proposed dynamic access schemes, it is necessary to know the exact number of future time slot access applications. At present, some load estimation schemes have been proposed in the literature, but the accuracy of these schemes is not high, and they can only achieve load estimation for current time slot.【Methods】To solve this issue, we propose a load estimation method based on the leading code state and parameter estimation. A load prediction method based on machine learning is also proposed. The load estimation method based on leading code status and parameter estimation analyzes the relationship between the probability of leading code in different states within the time slot of the satellite IoT and the number of requests for access to the current time slot. It gives the maximum likelihood parameter estimation expression and uses the maximum likelihood parameter estimation method to estimate the current time slot load. The load prediction method based on machine learning takes the estimated load value as its historical data, combining the Long and Short Term Memory (LSTM) network and the Auto Regressive Moving Average (ARMA) model to predict the future time slot load.【Results】The simulation results show that the estimated error of the load estimation method based on leading code state and parameter estimation is less than 1%. The comprehensive error of the load prediction method based on load estimation results as historical machine learning data is about 6%.【Conclusion】The predicted error of the proposed load estimation and prediction method is within the acceptable range, thus offering accurate future slot access requests for dynamic access schemes.

Published
2024
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2. Research on the Settlement Law of the Ground and Existing Stations in the Close Under-crossing Construction of Subway Station

Author

XU Mingyang, WANG Haitao, TIAN Jiangtao, ZHANG Zhiwei, and YOU Qiang

Subjects
metro station, closely under-crossing, settlement law, numerical simulation, monitoring data, Transportation engineering, TA1001-1280
Abstract

Objective As the development and utilization of urban underground space advances towards the three-dimensional and multi-dimensional direction, there are more and more over-crossing and under-crossing urban rail transit projects. Among them, the close under-crossing construction of new stations with large cross-section has a significant impact on the surrounding environment. Therefore, it is urgent to carry out an in-depth study on the ground settlement and deformation law of existing stations during the new station construction process closely under-crossing existing stations by Pile-Beam-Arch (PBA) method. Method Based on the actual engineering case of Beijing Metro Line 6 Pinguoyuan Station, which closely under-crosses the existing station with same name on Metro Line 1, the law of ground settlement and deformation of the existing station is analyzed by adopting numerical simulation method in the study. By comparing the actual monitoring data, the actual situation of ground settlement and deformation of the existing station during the construction process is further verified, and the numerical simulation results are compared and analyzed with the measured data. Result & Conclusion The most unfavorable stages for ground settlement and existing structure deformation are the guide hole excavation stage and the second lining arch stage of PBA method. After the completion of second lining arch construction, both the ground settlement and the deformation of the existing structure show rebound phenomenon. In addition, the stiffness of the existing station has a significant inhibiting effect on the ground settlement above, which is manifested in the fact that the ground settlement value of the overlapping section is smaller than that of the non-overlapping section. The deformation of the existing station structure caused by new station constructed with PBA method is mainly the rigid body displacement, while it caused track structure deformation is mainly the overturning deformation, which is locally manifested as rigid body displacement.

Published
2024
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3. New target-HMGCR inhibitors for the treatment of primary sclerosing cholangitis: A drug Mendelian randomization study

Author

Zhou Jie, Xu Yixin, Wang Haitao, and Liu Zhilin

Subjects
primary sclerosing cholangitis, statin, single-nucleotide polymorphism, mendelian randomization, efficacy, Medicine
Abstract

No intervention definitively extends transplant-free survival in primary sclerosing cholangitis (PSC). Statins, inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMGCR), may enhance PSC prognosis, but their efficacy is debated.

Published
2024
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4. Influence Law of Vertical Layer-incremental Foundation Pit Excavation on Existing Station Structural Deformation

Author

ZHANG Zhiwei, YOU Qiang, ZHANG Jiashu, XU Mingyang, and WANG Haitao

Subjects
metro, foundation pit excavation, existing station, Transportation engineering, TA1001-1280
Abstract

Objective Construction disturbances from nearby excavation of foundation pit can cause significant deformation of existing stations in operation, thereby affecting the normal operation of trains. Therefore, it is necessary to study the influence of foundation pit excavation in vertically incremental layers on existing stations located below. Method Taking the construction project of Beijing Subway Line 6 Pingguoyuan Station three-level-section foundation pit as example, the Midas GTS NX finite element software is used to build a foundation pit model. The deformation law of existing station structures caused by deep foundation pit excavation in vertically incremental layers is analyzed, and the simulation results are compared with field monitoring results. Result & Conclusion With the progress of foundation pit excavation, the vertical deformation of existing station structures continuously increases, and the deformation curve of the roof plate exhibits a normal distribution. The mid-span deformation of the station roof is greater than the edge-span deformation, and the vertical deformation at station top is greater than that at the bottom. When the distance between the selected station section and the foundation pit exceeds 9.7 m (approximately 0.81 times the excavation depth), the differential deformation between edge-span and mid-span roof plates disappears. A comparison between numerical simulation data and actual monitoring results reveals that the deformation law of existing stations obtained from numerical simulation analysis is consistent with actual monitoring results, and the maximum deformation is less than the control value of 10.0 mm.

Published
2024
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5. Sarcoma protein kinase inhibition alleviates liver fibrosis by promoting hepatic stellate cells ferroptosis

Author

Cheng Zhengyuan, Zhang Xiaojuan, Chen Pingsheng, Wang Haitao, Wang Kuangjing, and Shen Yingzhou

Subjects
liver fibrosis, hypoxia, hepatic stellate cells, sarcoma protein kinase, ferroptosis, Biology (General), QH301-705.5
Abstract

Liver fibrosis is a type of chronic pathological liver damage involving liver tissue hypoxia and abnormal extracellular matrix deposits. Hepatic stellate cells (HSCs) activation is critical for liver fibrosis. Currently, inhibiting HSCs activation or inducing HSCs ferroptosis is considered an effective strategy for the treatment of liver fibrosis. Sarcoma protein kinase (Src) is an important member of the tyrosine protein kinase family. Hypoxia causes Src phosphorylation at tyrosine 416 (Tyr 416), and inhibiting Src activation can alleviate liver fibrosis. There is currently little research on the relationship between Src activation and ferroptosis in liver fibrosis. 1-(1,1-Dimethylethyl)-1-(4-methylphenyl)-1H-pyrazolo[3,4-d]pyrimidin-4-amine (PP1) is an inhibitor of Src activation at Tyr 416. Therefore, in this study we treated HSC-T6 cells with PP1 under normoxic and hypoxic culture conditions; moreover, PP1 was also used to treat a carbon tetrachloride-induced mouse liver fibrosis model. We explored whether inhibiting Src activation could alleviate liver fibrosis by promoting HSCs ferroptosis in vitro and in vivo. In vitro experiments showed that inhibiting Src activation in HSC-T6 cells significantly reduced hypoxia-inducible factor-1α (HIF-1α) expression and HSC-T6 cells activation, and ferroptosis was significantly increased. In vivo experiments revealed that inhibiting Src activation in fibrotic livers reduced HIF-1α expression; meanwhile, ferroptosis was promoted, and liver fibrosis was alleviated. Therefore, inhibiting Src activation, which increases HSCs ferroptosis, can alleviate liver fibrosis.

Published
2023
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6. Research on the Application of Montage Technique in the Integration of Construction Technique and Design of Cultural Elements of Patchwork Clothing

Author

Wang Haitao

Subjects
ahp, topsis, comprehensive evaluation system, montage technique, 68t01, Mathematics, QA1-939
Abstract

In modern clothing design, quilting as a means of emphasizing pattern decoration and enriching fabric texture form, its application has presented a diversified and diversified trend. This paper utilizes the montage technique in the process of designing patchwork clothing. The cultural elements of quilted clothing are being innovated through the use of the unique creative art technique of montage. Patchwork clothing design and montage techniques are cross-analyzed to explore the commonality of the two in creative techniques and artistic expression. In order to objectively measure the design effect, AHP is used to determine the weights of the indicators, and then TOPSIS is used for the comprehensive evaluation, which is constructed into a comprehensive evaluation model of quilted apparel design integrating the montage technique. The design evaluation results were achieved by combining the consistency test of the model and the hierarchical total ranking. According to the hierarchical analysis method, the weights of the secondary indicators are calculated, and practicality (25.46%), comfort (20.96%), and functionality (15.37%) rank in the top three, which have a greater impact on the effect of quilting garment design incorporating the montage technique. When the two techniques are applied to apparel design, the understanding and application of practicality, comfort, and functionality should be deepened.

Published
2024
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7. Arc erosion characteristics of DC contactor contacts

Author

WANG Haitao and YANG Bo

Subjects
dc contactor, magnetohydrodynamic, arc erosion, dynamic process, current rating, breaking speed, Applications of electric power, TK4001-4102
Abstract

The arc is generated upon contact breaking-off resulting in surface erosion in the terminals and affecting the performance of electrical contact. As there is no natural zero crossing point in the DC power supply system, the erosion caused by arcs is often more severe in DC contactors than that in AC contactors. The arc erosion effect on the contact terminals is analyzed in this paper. Based on the theory of magnetohydrodynamics, a dynamic coupling model of arc and contact terminals considering energy coupling is established. Then, the impacts of the electric current level and breaking speed on the arc erosion in contact terminals are studied by using the model. Simulation results show that the arc temperature near the anode is higher than that near the cathode. It can be noted that the arc temperature and arcing time rise significantly by increasing the current from 20 A to 30 A, which improves the arcing energy by 75.93% and thus worsening the contact erosion. Simulation results also indicate that increasing the breaking-off speed from 0.1 m/s to 0.2 m/s, results in an increase of voltage and current variation rates, an reduction of the arcing time and molten pool volume, a decrease of the arcing energy by 47.83%, and an reduction of the impact of arc erosion on the contact terminal. The experimental results are consistent with the simulations confirming the accuracy of the simulation model.

Published
2023
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8. Fire and coupling disaster emergency management based on mapping knowledge domain

Author

LIU Yongli and WANG Haitao

Subjects
mapping knowledge domain, event logic graph, fire hazard, coupled hazard, emergency plan, Mining engineering. Metallurgy, TN1-997
Abstract

This paper expounds the emergency disposal technology based on mapping knowledge domain, dynamically integrates the mapping knowledge domain and emergency disposal plan, and uses data fusion technology to integrate multi-source heterogeneous data to construct the mapping knowledge domain of fire and coupling disasters, disaster management graph and supervision department graph. The mapping knowledge domain technology is used to establish a multi-department emergency response plan generation model with dynamic injection of data and process, realizes the cross-department and multi-agent efficient dynamic collaborative emergency response method, and provides data basis and auxiliary decision support for the generation of emergency plans.

Published
2022
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9. Construction and application of intelligent ventilation system in Hulusu Coal Mine

Author

GUO Weizhou, SHEN Bin, WANG Yang, LIU Yongli, ZHANG Yanfeng, WANG Haitao, LI Yuan, and WANG Zhensuo

Subjects
intelligent ventilation, ultrasonic wind speed sensor, remote control of air volume, ventilation equipment management, fault diagnosis, Mining engineering. Metallurgy, TN1-997
Abstract

Aiming at the problems of poor real-time ventilation monitoring, lack of remote regulation of ventilation facilities, complex and inefficient air volume regulation process in Hulusu Coal Mine, in order to realize the controllability, visualization and intelligence of air volume regulation, the construction of intelligent ventilation facilities such as accurate air volume measurement device and remote regulation air window, including ultrasonic wind speed sensor and full section wind measuring station, has been carried out in terms of functions, the integrated ventilation intelligent control system of Hulusu Coal Mine is designed and constructed, which realizes the real-time synchronous monitoring of mine air volume, remote regulation of air volume and fault diagnosis of ventilation system, and has the functions of ventilation equipment management, data management, early warning management, authority management and remote control.

Published
2022
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10. Quality of life and associated factors among HIV-infected individuals in Jing’an District, Shanghai

Author

HAN Lei, GU Kaikan, DING Yingying, BAO Yan, YANG Yun, and WANG Haitao

Subjects
hiv, quality of life, sf-36, risk factor, Medicine
Abstract

ObjectiveTo determine the quality of life among HIV-infected individuals and risk factors in Jing’an District of Shanghai.MethodsThis is a cross-sectional study. Cluster sampling strategy was used to select HIV-infected individuals who were registered with the national HIV/AIDS case reporting system in eight community health service centers in Jing’an District of Shanghai. The short form 36 (SF-36) scale, self-rating anxiety scale (SAS), social support scale (SSS) and specifically designed questionnaires were used to collect information. Logistic regression was used to determine the factors associated with quality of life.ResultsIn total, 365 HIV-infected individuals were included in the study. The total average score of quality of life was 79.5±10.4. The scores in general health, vitality and emotional well-being were lower than the norm, whereas the scores in other dimensions were higher than the norm. Multivariable logistic regression indicated that age of 45‒ years (vs age of 18‒ years: OR=0.23, 95%CI: 0.08‒0.68) was significantly associated with the quality of life. Furthermore, smoking (OR=2.18, 95%CI: 1.22‒3.90), lower CD4+T cell counts (

Published
2022
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11. Comparation of HMF technology and MBR for printing and dyeing wastewater treatment

Author

GUO Ziyang, A Ruhan, JIN Tieying, XU Yinong, CHANG Na, and WANG Haitao

Subjects
printing and dyeing wastewater, submerged high-strength membrane filtration, hmf, mbr, Materials of engineering and construction. Mechanics of materials, TA401-492, Environmental engineering, TA170-171
Abstract

In order to meet the influent water quality of reverse osmosis membrane (RO) or nanofiltration membrane (NF) in the water reuse system of printing and dyeing wastewater, and to cope with the impact of actual printing and dyeing wastewater quality and water quantity, a new type was developed and submerged high-strength membrane filtration (HMF) technology for wastewater treatment compared with the traditional membrane bioreactor (MBR) technology. The combined effect of the process was investigated. The results show that compared with the traditional MBR technology, the membrane flux increased from 11~13 L/ (m2·h) to 14~16 L/ (m2·h), and the reflux rate is reduced from 250%~300% to 20%. The water quality of the HMF process is better than that of the MBR process, especially suspend solid, as low as 1 mg/L, which effectively guarantees the influent requirements of the subsequent RO/NF. The pollution level is relatively low, which is conducive to long-term stable operation. At present, the technology has been demonstrated and applied in the advanced treatment of wastewater in the printing and dyeing industry, and has a good promotion prospect.

Published
2022
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12. Effective Fine-Tuning of Vision-Language Models for Accurate Galaxy Morphology Analysis

Author

Wang, Ruoqi, Wang, Haitao, and Luo, Qiong

Subjects
Computer Science - Computer Vision and Pattern Recognition, Astrophysics - Astrophysics of Galaxies, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

Galaxy morphology analysis involves classifying galaxies by their shapes and structures. For this task, directly training domain-specific models on large, annotated astronomical datasets is effective but costly. In contrast, fine-tuning vision foundation models on a smaller set of astronomical images is more resource-efficient but generally results in lower accuracy. To harness the benefits of both approaches and address their shortcomings, we propose GalaxAlign, a novel method that fine-tunes pre-trained foundation models to achieve high accuracy on astronomical tasks. Specifically, our method extends a contrastive learning architecture to align three types of data in fine-tuning: (1) a set of schematic symbols representing galaxy shapes and structures, (2) textual labels of these symbols, and (3) galaxy images. This way, GalaxAlign not only eliminates the need for expensive pretraining but also enhances the effectiveness of fine-tuning. Extensive experiments on galaxy classification and similarity search demonstrate that our method effectively fine-tunes general pre-trained models for astronomical tasks by incorporating domain-specific multi-modal knowledge.

Published
2024

13. Space-time structure and particle-fluid duality of solutions for Boltzmann equation with hard potentials

Author

Lin, Yu-Chu, Wang, Haitao, and Wu, Kung-Chien

Subjects
Mathematics - Analysis of PDEs
Abstract

We study the quantitative pointwise behavior of solutions to the Boltzmann equation for hard potentials and Maxwellian molecules, which generalize the hard sphere case introduced by Liu-Yu in 2004 (Comm. Pure Appl. Math. 57:1543-1608, 2004). The large time behavior of the solution is dominated by fluid structures, similar to the hard sphere case. However, unlike hard sphere, the spatial decay here depends on the potential power $\gamma$ and the initial velocity weight. A key challenge in this problem is the loss of velocity weight in linear estimates, which makes standard nonlinear iteration infeasible. To address this, we develop an Enhanced Mixture Lemma, demonstrating that mixing the transport and gain parts of the linearized collision operator can generate arbitrary-order regularity and decay in both space and velocity variables. This allows us to decompose the linearized solution into fluid (arbitrary regularity and velocity decay) and particle (rapid space-time decay, but with loss of velocity decay) parts, making it possible to solve the nonlinear problem through this particle-fluid duality., Comment: 37 pages

Published
2024

14. Investigation and confirmation of a case of wild mushroom poisoning in Qinhuangdao City

Author

LI Li, LIU Bin, LIU Yanfei, YANG Jian, LIU Changqing, LIU Bo, LI Dongyun, LIU Limei, NIU Jianhua, and WANG Haitao

Subjects
mushroom, poisoning, investigation, identification, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641
Abstract

ObjectiveTo investigate and analyze the epidemiological characteristics of a wild mushroom poisoning event in Qinhuangdao City, identify the species of poisonous mushroom, summarize the experience of investigation and treatment, and put forward prevention and control measures, and provide reference for the treatment and prevention of wild mushroom poisoning patients.MethodsThe poisoning events were analyzed by using the method of epidemiological investigation, morphological identification and mushroom toxin detection.ResultsFour villagers in Qinhuangdao city had nausea, abdominal pain, diarrhea, sweating and shivering after eating wild mushrooms. Patients were treated with vomiting, gastric lavage, atropine and other symptomatic treatment in the hospital, and the prognosis of the patients was good. After morphological identification and toxin detection, it was determined that food poisoning caused by mushroom of inocybe.ConclusionThis is the first reported poisoning event caused by mushroom of inocybe in Hebei Province. The reason of poisoning was misguided by the Internet and poor self-awareness of food safety. Therefore, publicity and education should be strengthened, enhancing the awareness to prevent the poisoning of wild mushroom.

Published
2021
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15. Asynchronous Credit Assignment Framework for Multi-Agent Reinforcement Learning

Author

Liang, Yongheng, Wu, Hejun, Wang, Haitao, and Cai, Hao

Subjects
Computer Science - Multiagent Systems
Abstract

Credit assignment is a core problem that distinguishes agents' marginal contributions for optimizing cooperative strategies in multi-agent reinforcement learning (MARL). Current credit assignment methods usually assume synchronous decision-making among agents. However, a prerequisite for many realistic cooperative tasks is asynchronous decision-making by agents, without waiting for others to avoid disastrous consequences. To address this issue, we propose an asynchronous credit assignment framework with a problem model called ADEX-POMDP and a multiplicative value decomposition (MVD) algorithm. ADEX-POMDP is an asynchronous problem model with extra virtual agents for a decentralized partially observable markov decision process. We prove that ADEX-POMDP preserves both the task equilibrium and the algorithm convergence. MVD utilizes multiplicative interaction to efficiently capture the interactions of asynchronous decisions, and we theoretically demonstrate its advantages in handling asynchronous tasks. Experimental results show that on two asynchronous decision-making benchmarks, Overcooked and POAC, MVD not only consistently outperforms state-of-the-art MARL methods but also provides the interpretability for asynchronous cooperation.

Published
2024

16. 3D hard sphere Boltzmann equation: explicit structure and the transition process from polynomial tail to Gaussian tail

Author

Lin, Yu-Chu, Wang, Haitao, and Wu, Kung-Chien

Subjects
Mathematics - Analysis of PDEs, 35Q20, 82C40
Abstract

We study the Boltzmann equation with hard sphere in a near-equilibrium setting. The initial data is compactly supported in the space variable and has a polynomial tail in the microscopic velocity. We show that the solution can be decomposed into a particle-like part (polynomial tail) and a fluid-like part (Gaussian tail). The particle-like part decays exponentially in both space and time, while the fluid-like part corresponds to the behavior of the compressible Navier-Stokes equation, which dominates the long time behavior and exhibits rich wave motion. The nonlinear wave interactions in the fluid-like part are precisely characterized and therefore we are able to distinguish the linear and nonlinear wave of the solution. It is notable that although the solution has polynomial tail in the velocity initially, the transition process from the polynomial to the Gaussian tail can be quantitatively revealed due to the collision with the background global Maxwellian.

Published
2024

17. An Improved Algorithm for Shortest Paths in Weighted Unit-Disk Graphs

Author

Brewer, Bruce W. and Wang, Haitao

Subjects
Computer Science - Computational Geometry, Computer Science - Data Structures and Algorithms
Abstract

Let $V$ be a set of $n$ points in the plane. The unit-disk graph $G = (V, E)$ has vertex set $V$ and an edge $e_{uv} \in E$ between vertices $u, v \in V$ if the Euclidean distance between $u$ and $v$ is at most 1. The weight of each edge $e_{uv}$ is the Euclidean distance between $u$ and $v$. Given $V$ and a source point $s\in V$, we consider the problem of computing shortest paths in $G$ from $s$ to all other vertices. The previously best algorithm for this problem runs in $O(n \log^2 n)$ time [Wang and Xue, SoCG'19]. The problem has an $\Omega(n\log n)$ lower bound under the algebraic decision tree model. In this paper, we present an improved algorithm of $O(n \log^2 n / \log \log n)$ time (under the standard real RAM model). Furthermore, we show that the problem can be solved using $O(n\log n)$ comparisons under the algebraic decision tree model, matching the $\Omega(n\log n)$ lower bound., Comment: To appear in CCCG 2024

Published
2024

18. Super-resolution reconstruction method of mine image based on online multi-dictionary learning

Author

WANG Haitao, YU Wenjie, and ZHANG Guanglei

Subjects
mine image, super-resolution reconstruction, online dictionary learning, multi-dictionary learning, non-local self-similarity, Mining engineering. Metallurgy, TN1-997
Abstract

Aiming at problem that dictionary learning method was poorly effective in reconstruction of mine image with noise and complex environment, a super-resolution reconstruction method of mine image based on online multi-dictionary learning was proposed. The method uses K-means clustering algorithm to divide image training set into multiple kinds of images, and trains multiple sets of high-resolution dictionaries and low-resolution dictionaries for different kinds of images, so as to improve feature representation ability of the dictionaries for complex environmental images. According to non-local self-similarity of image, non-local constraint is introduced to further constrain solution space of sparse coefficient, and online dictionary learning is used to optimize the dictionaries in the multi-dictionary learning stage, so as to improve accuracy of sparse coefficient solution and anti-noise interference ability of image reconstruction process. The experimental results show that the method can effectively improve quality of reconstructed image, suppress image blocking effect and edge jagged effect caused by noise, enhance image details, and achieve better visual effect.

Published
2020
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19. Atomic motion behavior calculation and bonding mechanism analysis of explosive welding of high-strength and high-hardness titanium alloy Ti6Al4V/aluminum alloy 7075

Author

Wu Xiaoming, Shi Changgen, Wang Haitao, Luo Xuchuan, and Sun Zerui

Subjects
explosive welding, molecular dynamics, binding mechanism, finite element analysis (FEA), SPH, Materials of engineering and construction. Mechanics of materials, TA401-492, Chemical technology, TP1-1185
Abstract

The explosive welding technology of titanium alloy Ti6Al4V/aluminum alloy 7075 is the most valuable research problem in the field of Ti/Al explosive welding. In this paper, the smooth particle hydrodynamics and molecular dynamics algorithms are used to conduct multi-scale numerical calculations on the explosive welding of Ti6Al4V and 7075. The interface morphology, interface atomic movement, lattice changes and crystal defects are comprehensively analyzed. With the calculation as a reference, the Ti6Al4V/7075 composite with a flat interface is prepared. The calculation results indicate that with the transformation of titanium aluminum crystal structure, a large number of various dislocations, mainly 1/6〈110〉dislocations, are generated on the titanium side; During explosive welding, uniform and stable element diffusion occurred. Element diffusion mainly occurred in the unloading stage when the pressure was 0. The melting zone and ablation zone were composed of TiAl and TiAl _3 , respectively; The fundamental reason for the combination of Ti6Al4V/7075 is the diffusion of elements and the solid-phase binding of atoms.

Published
2023
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20. Development of the electron gun filament power supply for small size betatron

Author

LIU Qi, WANG Haitao, CHEN Haisheng, and WANG Renbo

Subjects
betatron, filament power supply, half-bridge circuit, tube wall current, target current, Nuclear engineering. Atomic power, TK9001-9401
Abstract

BackgroundBetatrons are widely used in non-destructive testing, cargo and vehicle security inspection systems, whilst the filament power supply is an important core component of small size betatron. Existing filament power supplies are not suitable for small size betatron.PurposeThis study aims to develop a novel electron gun filament power supply for small size betatron to produce optimal radiation intensity.MethodsAn electron gun filament power supply composed of a filament duty cycle adjustment circuit and an injection current feedback circuit were designed on the basis of operating characteristics of a small size betatron. Two pulse-width modulation (PWM) signals were output from the digital signal processor (DSP) to drive the half-bridge circuit. Positive and negative alternating voltage pulses were output by the half-bridge circuit to the primary of the isolation transformer, and the secondary voltage of the transformer was loaded to the filament for heating of the filament. By collecting the betatron tube wall current and target current as the injection current feedback signal, the duty cycle of the filament voltage pulse was adjusted by DSP according to the feedback signal, and realizes the adjustment of the filament emission current, so that the current injected by the filament into the acceleration tube was kept at the optimal value.ResultsThe experimental test results show that the filament power supply can keep the betatron output dose rate in the best state, and the output dose rate stability is better than 11.3%/10 min.ConclusionsThe filament power supply meets the requirements of small size betatron with advantages of good stability, wide adjustment range and small size. It can be applied to the small size betatron developed by the Engineering Research Center for Nuclear Technology Application of the Ministry of Education of East China University of Technology.

Published
2022
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21. Development and imaging test of small electron induction accelerator main control system

Author

LIU Qi, WANG Haitao, LI Jinhai, CHEN Rui, CHEN Haisheng, WANG Renbo, and TANG Bin

Subjects
betatrons, bremsstrahlung, x-ray, cargo and vehicles radiographic inspection system, Nuclear engineering. Atomic power, TK9001-9401
Abstract

BackgroundBetatrons are widely used in non-destructive testing, cargo and vehicle safety inspection systems.PurposeThis study aims to develop a mian control system of electron induction accelerator for the domestic production of small size betatron, and evaluate its imaging performance. Main control system was developed, including excitation power circuit, electron injection circuit, electron capture circuit and electron displacement circuit.MethodsThe inductor-capacitor parallel (LC) resonant circuit composed of excitation winding and capacitor bank was employed for excitation power circuit to generate a magnetic field that accelerates electrons steadily at the air gap of the electromagnet. The electron gun was applied to electron injection circuit for providing the electron source, and pulling the electron into the acceleration cavity. The electron capture efficiency was improved by a pulse assisted magnetic generated by field electron capture circuit, and the pulsed magnetic field was applied to the electron displacement circuit to instantaneously increase the central magnetic flux for deflecting the electron beam from the equilibrium orbit to the target to produce bremsstrahlung radiation.ResultsThe test results show that the generated X-ray steel penetration reaches 276 mm, the air wire detectability is 2 mm, the spatial resolution is 3 mm, and the contrast sensitivity meets the imaging requirements.ConclusionsThe developed control system and radiator can satisfy cargo and vehicles radiographic inspection system.

Published
2022
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22. Unweighted Geometric Hitting Set for Line-Constrained Disks and Related Problems

Author

Liu, Gang and Wang, Haitao

Subjects
Computer Science - Computational Geometry, Computer Science - Data Structures and Algorithms
Abstract

Given a set $P$ of $n$ points and a set $S$ of $m$ disks in the plane, the disk hitting set problem asks for a smallest subset of $P$ such that every disk of $S$ contains at least one point in the subset. The problem is NP-hard. In this paper, we consider a line-constrained version in which all disks have their centers on a line. We present an $O(m\log^2n+(n+m)\log(n+m))$ time algorithm for the problem. This improves the previously best result of $O(m^2\log m+(n+m)\log(n+m))$ time for the weighted case of the problem where every point of $P$ has a weight and the objective is to minimize the total weight of the hitting set. Our algorithm actually solves a more general line-separable problem with a single intersection property: The points of $P$ and the disk centers are separated by a line $\ell$ and the boundary of every two disks intersect at most once on the side of $\ell$ containing $P$., Comment: To appear in MFCS 2024

Published
2024

23. On Line-Separable Weighted Unit-Disk Coverage and Related Problems

Author

Liu, Gang and Wang, Haitao

Subjects
Computer Science - Computational Geometry, Computer Science - Data Structures and Algorithms
Abstract

Given a set $P$ of $n$ points and a set $S$ of $n$ weighted disks in the plane, the disk coverage problem is to compute a subset of disks of smallest total weight such that the union of the disks in the subset covers all points of $P$. The problem is NP-hard. In this paper, we consider a line-separable unit-disk version of the problem where all disks have the same radius and their centers are separated from the points of $P$ by a line $\ell$. We present an $O(n^{3/2}\log^2 n)$ time algorithm for the problem. This improves the previously best work of $O(n^2\log n)$ time. Our result leads to an algorithm of $O(n^{{7}/{2}}\log^2 n)$ time for the halfplane coverage problem (i.e., using $n$ weighted halfplanes to cover $n$ points), an improvement over the previous $O(n^4\log n)$ time solution. If all halfplanes are lower ones, our algorithm runs in $O(n^{{3}/{2}}\log^2 n)$ time, while the previous best algorithm takes $O(n^2\log n)$ time. Using duality, the hitting set problems under the same settings can be solved with similar time complexities., Comment: To appear in MFCS 2024

Published
2024

24. CREF: An LLM-based Conversational Software Repair Framework for Programming Tutors

Author

Yang, Boyang, Tian, Haoye, Pian, Weiguo, Yu, Haoran, Wang, Haitao, Klein, Jacques, Bissyandé, Tegawendé F., and Jin, Shunfu

Subjects
Computer Science - Software Engineering
Abstract

Program repair techniques offer cost-saving benefits for debugging within software development and programming education scenarios. With the proven effectiveness of Large Language Models (LLMs) in code-related tasks, researchers have explored their potential for program repair. However, it is crucial to recognize that existing repair benchmarks may have influenced LLM training data, potentially causing data leakage. To evaluate LLMs' realistic repair capabilities, (1) we introduce an extensive, non-crawled benchmark, referred to as TutorCode, comprising 1,239 C++ defect codes and associated information such as tutor guidance, solution description, failing test cases, and the corrected code. Our work assesses the repair performance of 12 LLMs on TutorCode, measuring repair correctness (TOP-5 and AVG-5) and patch precision (RPSR). (2) We then provide a comprehensive investigation into which types of extra information can help LLMs improve their performance in repairing defects. Among these types, tutor guidance was found to be the most effective information in enhancing LLM repair capabilities. To fully harness LLMs' conversational capabilities and the benefits of augmented information, (3) we introduce a novel conversational semi-automatic repair framework CREF assisting human tutor. It demonstrates a remarkable AVG-5 improvement of 17.2%-24.6% compared to the baseline, achieving an impressive AVG-5 of 76.6% when utilizing GPT-4. These results highlight the potential for enhancing LLMs' repair capabilities through interactions with tutors and historical conversations involving incorrect responses. The successful application of CREF in a real-world educational setting demonstrates its effectiveness in reducing tutors' workload and improving students' learning experience, while also showcasing its promise for facilitating other software engineering tasks, such as code review.

Published
2024

28. Dynamic Convex Hulls for Simple Paths

Author

Brewer, Bruce, Brodal, Gerth Stølting, and Wang, Haitao

Subjects
Computer Science - Computational Geometry, Computer Science - Data Structures and Algorithms
Abstract

We consider the planar dynamic convex hull problem. In the literature, solutions exist supporting the insertion and deletion of points in poly-logarithmic time and various queries on the convex hull of the current set of points in logarithmic time. If arbitrary insertion and deletion of points are allowed, constant time updates and fast queries are known to be impossible. This paper considers two restricted cases where worst-case constant time updates and logarithmic time queries are possible. We assume all updates are performed on a deque (double-ended queue) of points. The first case considers the monotonic path case, where all points are sorted in a given direction, say horizontally left-to-right, and only the leftmost and rightmost points can be inserted and deleted. The second case assumes that the points in the deque constitute a simple path. Note that the monotone case is a special case of the simple path case. For both cases, we present solutions supporting deque insertions and deletions in worst-case constant time and standard queries on the convex hull of the points in $O(\log n)$ time, where $n$ is the number of points in the current point set. The convex hull of the current point set can be reported in $O(h+\log n)$ time, where $h$ is the number of edges of the convex hull. For the 1-sided monotone path case, where updates are only allowed on one side, the reporting time can be reduced to $O(h)$, and queries on the convex hull are supported in $O(\log h)$ time. All our time bounds are worst case. In addition, we prove lower bounds that match these time bounds, and thus our results are optimal. For a quick comparison, the previous best update bounds for the simple path problem were amortized $O(\log n)$ time by Friedman, Hershberger, and Snoeyink [SoCG 1989]., Comment: To appear in SoCG 2024

Published
2024

29. VisRec: A Semi-Supervised Approach to Radio Interferometric Data Reconstruction

Author

Wang, Ruoqi, Wang, Haitao, Luo, Qiong, Wang, Feng, and Wu, Hejun

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Astrophysics - Astrophysics of Galaxies, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Radio telescopes produce visibility data about celestial objects, but these data are sparse and noisy. As a result, images created on raw visibility data are of low quality. Recent studies have used deep learning models to reconstruct visibility data to get cleaner images. However, these methods rely on a substantial amount of labeled training data, which requires significant labeling effort from radio astronomers. Addressing this challenge, we propose VisRec, a model-agnostic semi-supervised learning approach to the reconstruction of visibility data. Specifically, VisRec consists of both a supervised learning module and an unsupervised learning module. In the supervised learning module, we introduce a set of data augmentation functions to produce diverse training examples. In comparison, the unsupervised learning module in VisRec augments unlabeled data and uses reconstructions from non-augmented visibility data as pseudo-labels for training. This hybrid approach allows VisRec to effectively leverage both labeled and unlabeled data. This way, VisRec performs well even when labeled data is scarce. Our evaluation results show that VisRec outperforms all baseline methods in reconstruction quality, robustness against common observation perturbation, and generalizability to different telescope configurations.

Published
2024

30. Standard Gaussian Process Can Be Excellent for High-Dimensional Bayesian Optimization

Author

Xu, Zhitong, Wang, Haitao, Phillips, Jeff M, and Zhe, Shandian

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

A longstanding belief holds that Bayesian Optimization (BO) with standard Gaussian processes (GP) -- referred to as standard BO -- underperforms in high-dimensional optimization problems. While this belief seems plausible, it lacks both robust empirical evidence and theoretical justification. To address this gap, we present a systematic investigation. First, through a comprehensive evaluation across eleven widely used benchmarks, we found that while the popular Square Exponential (SE) kernel often leads to poor performance, using Matern kernels enables standard BO to consistently achieve top-tier results, frequently surpassing methods specifically designed for high-dimensional optimization. Second, our theoretical analysis reveals that the SE kernels failure primarily stems from improper initialization of the length-scale parameters, which are commonly used in practice but can cause gradient vanishing in training. We provide a probabilistic bound to characterize this issue, showing that Matern kernels are less susceptible and can robustly handle much higher dimensions. Third, we propose a simple robust initialization strategy that dramatically improves the performance of the SE kernel, bringing it close to state of the art methods, without requiring any additional priors or regularization. We prove another probabilistic bound that demonstrates how the gradient vanishing issue can be effectively mitigated with our method. Our findings advocate for a re-evaluation of standard BOs potential in high-dimensional settings.

Published
2024

31. Algorithms for Computing Closest Points for Segments

Author

Wang, Haitao

Subjects
Computer Science - Computational Geometry, Computer Science - Data Structures and Algorithms
Abstract

Given a set $P$ of $n$ points and a set $S$ of $n$ segments in the plane, we consider the problem of computing for each segment of $S$ its closest point in $P$. The previously best algorithm solves the problem in $n^{4/3}2^{O(\log^*n)}$ time [Bespamyatnikh, 2003] and a lower bound (under a somewhat restricted model) $\Omega(n^{4/3})$ has also been proved. In this paper, we present an $O(n^{4/3})$ time algorithm and thus solve the problem optimally (under the restricted model). In addition, we also present data structures for solving the online version of the problem, i.e., given a query segment (or a line as a special case), find its closest point in $P$. Our new results improve the previous work., Comment: Accepted to STACS 2024

Published
2024

33. Optimal design and stress analysis of the transmission line inspection robot along the ground line

Author

Wang Haitao, Yan Biwu, Pu Ziheng, Xiong Yuyao, Fan Qiang, Li Jian, and Zheng Lei

Subjects
stress analysis, inspection, mobile robots, power overhead lines, finite element analysis, power transmission lines, voltage 500.0 kV, transmission line conditions, inspection robot operations, optimisation design, caterpillar track robot, wheel-claw mechanism, existing robots, corresponding ground wire, mechanics calculation, obstacle-surmounting method, ground line, transmission line inspection robot, optimal design, Engineering (General). Civil engineering (General), TA1-2040
Abstract

Most of the previous literatures of the transmission line inspection robot along the ground wire tend to focus on the obstacle-surmounting method and motion characteristics. There is less research on the mechanics calculation of the corresponding ground wire. Most of the existing robots are designed with the wheel-claw mechanism. There is less research on other types of robots. A caterpillar track robot along the ground line is designed in this study. The optimisation design of the obstacle-surmounting method is carried out. The typical 500 kV transmission line model is established. The stress of the ground wire in the process of robot moving along the ground wire is calculated and analysed under different control climate conditions with the help of the finite element method. The results show that the stress of the ground line has a certain safety margins. However, it may exceed the safety range under harsh climate conditions when the transmission line has heavy gradient. The inspection robot operations need reasonable planning according to the calculation results and the transmission line conditions.

Published
2019
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34. Real-time correction method of uranium mine caliper based on prompt neutron well logging

Author

LAI Yihui, WANG Haitao, and CHEN Rui

Subjects
uranium logging, prompt neutron, caliper, correction method, Nuclear engineering. Atomic power, TK9001-9401
Abstract

BackgroundIn the exploration of uranium resources, the prompt fission neutron logging method saves the exploration cost and improves the detection efficiency with its advantage of directly measuring uranium. However, this method is greatly affected by the moderation and absorption of source neutrons by the formation environment, and must be corrected on site.PurposeThis study aims to reduce the impact on the caliper variation for prompt neutron well logging by making use of the capture γ spectrum.MethodsFirst of all, the corresponding relationship between caliper and thermal neutron capture γ spectroscopy was analyzed by Monte Carlo simulation based on the facts of 14 MeV deuterium-tritium (D-T) pulse neutron sources with a source distance of 30 cm for the uranium prompt fission neutron logging tube, two 3He gas detectors for neutron measurement, and one LaBr3(Ce) detector for γ spectrum acquisition. Well diameters of 110 mm, 130 mm and 160 mm were taken as simulation holes. Then, the variation of caliper was characterized by the hydrogen peak count rate of the captured γ spectrum, and the variation law of the hydrogen peak count rate was represented by a fitting function. Finally, the corresponding relationship between the hydrogen peak count rate and the caliper variation was obtained for the real-time correction of uranium mine caliper.ResultsSimulation results results shows that the change of well diameter can be characterized by the characteristic rate of hydrogen. The proposed method can reduce the influence of caliper change on the interpretation results of uranium fission prompt neutron logging.ConclusionsThis method has the ability to improve the reliability of uranium fission prompt neutron logging.

Published
2021
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37. Senescent endothelial cells promote pathogenic neutrophil trafficking in inflamed tissues

Author

Rolas, Loïc, Stein, Monja, Barkaway, Anna, Reglero-Real, Natalia, Sciacca, Elisabetta, Yaseen, Mohammed, Wang, Haitao, Vazquez-Martinez, Laura, Golding, Matthew, Blacksell, Isobel A, Giblin, Meredith J, Jaworska, Edyta, Bishop, Cleo L, Voisin, Mathieu-Benoit, Gaston-Massuet, Carles, Fossati-Jimack, Liliane, Pitzalis, Costantino, Cooper, Dianne, Nightingale, Thomas D, Lopez-Otin, Carlos, Lewis, Myles J, and Nourshargh, Sussan

Published
2024
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45. Experimental study on the shape of plunge pool in the Horizontal Swirl Spillway Tunnel

Author

Zhou Heng, Li Hui, Xing Ruijiao, Guo Xinlei, Wang Haitao, and Di Shengjie

Subjects
Environmental sciences, GE1-350
Abstract

According to the study on the shape of plunge pool in the horizontal swirl spillway tunnel, the design scheme of a plunge pool with better energy dissipation effect is proposed. Based on the hydraulic physical model test, which includes atmospheric pressure and decompression tests, and combined with the different design scheme of a plunge pool, measurement results of fluctuating pressure. Main frequency and sidewall pressure are analysed. The results show that the inlet section of the plunge pool is connected by a gradual variable section which length of gradient segment 6m. The shape of the gradient section is a long round variable gate hole. To improve the side wall pressure, the inlet section is increasing from 6.0m to 14.0m. Finally, the proposed plunge pool has the advantages of simple design and convenient construction, and these studies provide reference and support for the design of hydropower dams in western China.

Published
2021
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