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183 results on '"Zhao, Haoxiang"'

1. F3T: A soft tactile unit with 3D force and temperature mathematical decoupling ability for robots

Author

Yang, Xiong, Ren, Hao, Guo, Dong, Ling, Zhengrong, Zhang, Tieshan, Li, Gen, Tang, Yifeng, Zhao, Haoxiang, Wang, Jiale, Chang, Hongyuan, Dong, Jia, and Shen, Yajing

Subjects
Computer Science - Robotics
Abstract

The human skin exhibits remarkable capability to perceive contact forces and environmental temperatures, providing intricate information essential for nuanced manipulation. Despite recent advancements in soft tactile sensors, a significant challenge remains in accurately decoupling signals - specifically, separating force from directional orientation and temperature - resulting in fail to meet the advanced application requirements of robots. This research proposes a multi-layered soft sensor unit (F3T) designed to achieve isolated measurements and mathematical decoupling of normal pressure, omnidirectional tangential forces, and temperature. We developed a circular coaxial magnetic film featuring a floating-mountain multi-layer capacitor, facilitating the physical decoupling of normal and tangential forces in all directions. Additionally, we incorporated an ion gel-based temperature sensing film atop the tactile sensor. This sensor is resilient to external pressure and deformation, enabling it to measure temperature and, crucially, eliminate capacitor errors induced by environmental temperature changes. This innovative design allows for the decoupled measurement of multiple signals, paving the way for advancements in higher-level robot motion control, autonomous decision-making, and task planning.

Published
2024

2. Study on mechanical and electrical properties improvement of insulating paper modified by cellulose nanocrystals.

Author

Zhang, Daning, Zhai, Xinnan, Wang, Siyu, Li, Xuan, Xu, Pengjiang, Zhao, Haoxiang, and Zhang, Guan-jun

Subjects
YOUNG'S modulus, DOPING agents (Chemistry), DIELECTRIC properties, CONCENTRATION gradient, SCANNING electron microscopy, CELLULOSE nanocrystals
Abstract

The mechanical and dielectric properties of transformer insulating paper are key factors that require close attention to ensure optimal operation. In this study, a novel approach of enhancing properties by nanocellulose modification was proposed. To investigate the effect of doping, insulating paper with different doping mass fractions of cellulose nanocrystals (CNCs) was prepared, and multiple properties of the sample were characterized. By applying a doping concentration gradient, the non-monotonic trend in performance with doping levels was revealed, and the impact of doping concentration on the data variability was investigated. The effects of CNC doping on the surface pore size of the samples were analyzed by SEM (scanning electron microscopy) and a mercury intrusion method, and the regularity of CNC dispersion uniformity with doping concentration was investigated. The Brunauer, Emmett, and Teller model was employed to fit the water vapor adsorption isotherm data, providing an analysis of the impact of doping on hydrogen bond connections and the moisture adsorption properties. Tensile strength and Young's modulus were measured and analyzed using the Page model and the Halpin–Kardos model. The tensile strength of the 6 wt. % CNC-modified paper was increased by 6.91%. 10 wt. % CNC-modified paper had a Young's modulus increase of 11.98%. 3 wt. % CNC-modified paper has a 28.53% increase in the AC breakdown field strength and an 8.72% increase in the DC breakdown field strength. The influence of CNC on the dielectric properties of the insulating paper was discussed using the Havriliak–Negami (H–N) model. The results indicate that the introduction of CNC can effectively enhance the comprehensive performance of oil-immersed insulating paper. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Partial damp diagnostic method of oil-paper insulating bushing based on frequency domain spectroscopy

Author

CHEN Xiaolin, FU Xiaotao, WU Qiandong, ZHAO Haoxiang, LI Yuan, and MU Haibao

Subjects
oil-paper insulation, high voltage bushing, partial damp, frequency domain spectroscopy (fds), interface relaxation polarization, fault diagnosis, Applications of electric power, TK4001-4102
Abstract

Partial dampness is the initial stage in the bushing damp process,so the effective diagnosis of partial dampness can avoid the further development of the damp. The partial damp diagnosis method of bushing based on the frequency domain spectroscopy (FDS) is proposed in this paper. Firstly,oil-paper insulation samples with different moisture content are prepared,and partial damped samples are formed through combination. Then the FDS characteristics are obtained. The results show that partial distribution of moisture leads to oil-paper insulation interfaces with different moisture content,and the interface relaxation polarization loss peak is introduced in the FDS curves. The greater the degree of partial dampness in the radial direction,the greater the amplitude of the loss peak,and it moves to the high frequency direction. The effectiveness of the diagnosis of partial dampness of bushing based on the characteristics of the interface relaxation polarization loss peak is verified by the simulation model of the transformer bushing. It shows that a new method for early fault warning and diagnosis of the transformer bushing is provided.

Published
2022
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16. Impacts of Land Use Changes on Landscape Patterns and Ecosystem Service Values in Counties (Villages) in Ethnic Regions of China: A Case Study of Jianghua Yao Autonomous County, Hunan Province.

Author

Shen, Shiming, Zhu, Liuyan, Xie, Zhengying, Fang, Ting, Zhao, Haoxiang, and Fang, Zhengtao

Abstract

This study, using Jianghua Yao Autonomous County in Hunan Province as a case, systematically analyzes the response of ecosystem service value (ESV) to land use and landscape pattern changes by employing landscape-level indices and landscape-type-level indices. The findings provide a reliable basis for scientifically formulating land use planning and ecological protection policies in ethnic regions, thereby promoting regional ecological security and sustainable development. This study reveals that (1) the land use structure in the county underwent significant changes between 2000 and 2020, with grassland and shrubland areas decreasing substantially by 71.66% and 78.41%, respectively, while urban and arable land areas increased significantly by 228.30% and 15.84%, respectively. Particularly under the scenario of prioritizing economic development, these changes led to increased landscape fragmentation and a decline in ecosystem service value (from CNY 296.571 billion in 2020 to CNY 287.959 billion in 2030). (2) In contrast, the scenarios of ecological protection and sustainable development significantly enhanced the region's ecosystem service value by increasing forest and water area, effectively maintaining the stability of the landscape pattern. These findings provide important evidence for the formulation of scientifically sound land use planning and ecological protection policies, contributing to the dual goals of economic development, tourism growth and ecological protection in Jianghua Yao Autonomous County and similar regions. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Projection of the Potential Global Geographic Distribution of the Solanum Fruit Fly Bactrocera latifrons (Hendel, 1912) (Diptera: Tephritidae) Based on CLIMEX Models.

Author

Wei, Yajie, Xian, Xiaoqing, Zhao, Haoxiang, Guo, Jianyang, Yang, Nianwan, Gong, Zhi, Liu, Wanxue, and Peng, Zhengqiang

Subjects
INTRODUCED insects, BACTROCERA, TEPHRITIDAE, DIPTERA, ATMOSPHERIC models
Abstract

The solanum fruit fly Bactrocera latifrons (Diptera: Tephritidae) is an invasive alien insect that causes huge economic losses to pepper and other solanaceous plant industries. It is mainly distributed in South and Southeast Asia, SW Europe, Western USA, and in some African countries. However, the potential global geographical distribution of B. latifrons is unknown. Therefore, in this study, based on the current (1981–2010) and future (2040–2059) climatic scenarios determined using the CNRM-CM5, Access1.0, GFDL-ESM-2M, and NorESM1-M models, we used a species distribution model (CLIMEX 4.0) to project the potential global geographic distribution of B. latifrons to prevent further invasion and harm. In the current climate scenario, South America (1286.06 × 104 km2), Africa (1435.47 × 104 km2), and Oceania (410.66 × 104 km2) have the largest proportions of suitable land areas for B. latifrons colonization. Under all four future climate models, the global potential suitable area for Bactrocera latifrons is projected to decrease and shift towards higher latitudes. This study provides an important baseline upon which researchers, quarantine personnel, and governments can develop the appropriate control strategies against B. latifrons. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Time-Varying Evolution and Impact Analysis of Forest Tourism Carbon Emissions and Forest Park Carbon Sinks in China.

Author

Wang, Liguo, Zhao, Haoxiang, Wu, Wenna, Song, Wei, Zhou, Qishan, and Ye, Yanting

Subjects
CARBON cycle, FOREST reserves, CARBON emissions, NATURAL resources, FOREST surveys
Abstract

Forests are an important part of natural resources and play an important role in carbon sinks. We measured carbon sinks in provincial forest parks using data from four forest inventory surveys in China and the forest stock expansion method. Carbon emissions from forest tourism were also estimated using energy statistics and forest park tourism data. On this basis, spatial analysis was used to summarize the spatial and temporal evolution of the carbon balance and the analysis of influencing factors. The results show the following: (1) With the passage of time, the carbon emissions from forest tourism in all provinces have increased to different degrees, and the national forest tourism carbon emissions have increased from 1,071,390.231 (million tons) in 2003 to 286,255,829.7 (million tons) in 2018; spatially, the distribution of carbon emissions from forest tourism is uneven, with an overall high in the south and low in the north, and a high in the east and a low in the west. (2) The carbon sink of forest parks showed a trend of gradual growth and spatially formed a spatial pattern of high in the northeast and low in the southwest, which is consistent with the distribution of forest resources in China. (3) For forest tourism carbon emissions, the total number of tourists, tourism income, and playing roads are significant influencing factors, and the baseline regression coefficients are 0.595, 0.433, and 0.799, respectively, while for forest park carbon sinks, the number of forest park employees can play a certain positive role in carbon sinks, with the regression coefficient being 1.533. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Enhancement and Prediction of Mechanical Properties of Microcellulose/ Nanocellulose-Modified Insulating Paper

Author

Zhai, Xinnan, Zhang, Daning, Li, Xuan, Shao, Xianjun, Zhang, Tianbo, Zhan, Jiangyang, Zhao, Haoxiang, Mu, Haibao, and Zhang, Guan-Jun

Abstract

The insulating paper in oil-paper insulated transformers is subjected to significant mechanical vibration and mechanical shock, putting considerable demands on the insulating paper’s strength and resistance to deformation. Therefore, effective enhancement and accurate prediction of mechanical properties are crucial in the application of cellulose-insulating paper. In this article, modified insulating paper with different mass fractions of cellulose nanowhiskers (CNWs), nanofibrillated cellulose (NFC), and microfibrillated cellulose (MFC) are prepared. The microscopic morphology, stress-strain curves, and Young’s modulus of the modified insulating paper are measured. The modification effects of microcellulose/nanocellulose with different aspect ratios on the mechanical properties of the insulating paper are compared. 10 wt% mass fraction of CNW-modified paper exhibits the highest Young’s modulus with an enhancement of 11.99%. The mechanism of microcellulose/nanocellulose modification on insulating paper is analyzed in terms of its strength, morphology, interface, and agglomeration. The prediction of Young’s modulus of modified insulating paper under different doping concentrations is realized based on the Halpin-Tsai model for filler modification under ideal conditions, considering the effects of agglomerated and interfacial phases, on the basis of detailed experimental results and comprehensive analysis. Experimental validation shows that the error of the proposed prediction model is less than 1.57%. This study is very beneficial for nano-modification and mechanical property enhancement of cellulose paper.

Published
2024
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22. An Ultra-Compact and Low-Cost LAMP-Based Virus Detection Device.

Author

Guo, Dong, Ling, Zhengrong, Tang, Yifeng, Li, Gen, Zhang, Tieshan, Zhao, Haoxiang, Ren, Hao, Shen, Yajing, and Yang, Xiong

Subjects
RESPIRATORY diseases, EXOTHERMIC reactions, PHASE change materials, THERMAL insulation, CELL phones
Abstract

Timely and accurate detection of viruses is crucial for infection diagnosis and treatment. However, it remains a challenge to develop a portable device that meets the requirement of being portable, powerless, user-friendly, reusable, and low-cost. This work reports a compact ∅30 × 48 mm portable powerless isothermal amplification detection device (material cost ∼$1 USD) relying on LAMP (Loop-Mediated Isothermal Amplification). We have proposed chromatographic-strip-based microporous permeation technology which can precisely control the water flow rate to regulate the exothermic reaction. This powerless heating combined with phase-change materials can maintain a constant temperature between 50 and 70 °C for a duration of up to 49.8 min. Compared with the conventional methods, it avoids the use of an additional insulation layer for heat preservation, greatly reducing the size and cost. We have also deployed a color card and a corresponding algorithm to facilitate color recognition, data analysis, and storage using a mobile phone. The experimental results demonstrate that our device exhibits the same limit of detection (LOD) as the ProFlex PCR for SARS-CoV-2 pseudovirus samples, with that for both being 10 3 copies/μL, verifying its effectiveness and reliability. This work offers a timely, low-cost, and easy way for respiratory infectious disease detection, which could provide support in curbing virus transmission and protecting the health of humans and animals, especially in remote mountainous areas without access to electricity or trained professionals. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Mechanism study of the conductivity characteristics of cellulose electrical insulation influenced by moisture.

Author

Zhao, Haoxiang, Mu, Haibao, Zhang, Daning, Baumeier, Björn, Yao, Huanmin, Guo, Guangzhi, and Zhang, Guanjun

Subjects
*ELECTRIC insulators & insulation, *FRONTIER orbitals, *MOLECULAR dynamics, *CELLULOSE, *ELECTRIC distortion, *MOISTURE, *CELLULOSE synthase, *SILICONE rubber
Abstract

Cellulose insulating paper is widely used in the power industry for its good electrical insulating properties. Moisture sharply increases its conductivity, which directly leads to the weakening of insulation performance and greatly increases the risk of subsequent electric field distortion and insulation breakdown. This paper focuses on the microscopic mechanism of moisture changing the characteristics of charge transport in cellulose insulation and attempts to reveal the related conductivity mechanism. To achieve this purpose, microscopic and macroscopic perspectives are integrated and several simulation and experimental methods are utilized comprehensively. The molecular dynamics simulation results showed that most water molecules in damped cellulose were individually and uniformly adsorbed on the hydroxyl groups by hydrogen bond, and the quantum chemistry computation results showed that the lowest unoccupied molecular orbital more appeared on the water molecule and the corresponding density of state increased. Then, experimentally, it was confirmed that the trap energy level decreased by the thermally stimulated current method. On this basis, the promotion effect of moisture on charge transport is predicted and verified by polarization and depolarization current methods. As the moisture content increased, more charge carriers escaped from the trap by hopping and participated in long-range continuous charge motion. Therefore, after dampness, the current of cellulose insulating paper increased exponentially with the increase in electric field strength, which was consistent with the hopping conductivity mechanism. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Regional population and social welfare from the perspective of sustainability: Evaluation indicator, level measurement, and interaction mechanism.

Author

Wang, Xueyi, Li, Mingchun, He, Taiyi, Li, Ke, Wang, Shengzhe, and Zhao, Haoxiang

Subjects
SOCIAL services, REGIONAL development, ENVIRONMENTAL indicators, POPULATION dynamics, SUSTAINABILITY, DEMOGRAPHIC characteristics, SOCIAL dynamics
Abstract

Key to regional sustainable development are the development and interplay of population dynamics and social welfare, each playing a significant role. As a representative region with demographic characteristics such as negative population growth and large labor outflow, the development and interaction between population and social welfare in Nanchong deserve in-depth exploration. This article takes the development of population and social welfare in Nanchong as the research object, and constructs an evaluation indicator system of population and social welfare through research backtracking, and uses entropy method and coupling coordination model to measure the development level and interactive effect of population and social welfare in Nanchong from 2010 to 2021. The research results show that: Firstly, the comprehensive evaluation results of population in Nanchong shows a linear upward trend, which indicates the stable positive effect of population structure and distribution, the gradual improvement effect of population quality effectively compensate for the weakening effect of population quantity, thus achieving the positive development of population. Secondly, the comprehensive evaluation results of social welfare in Nanchong shows an exponential upward trend, which indicates the social welfare has maintained a rapid growth momentum in various dimensions and the long-term positive effects have completely absorbed the negative effects, thus achieving the positive development of social welfare. Thirdly, during the sample period, the population and social welfare in Nanchong consistently maintained a high level of interaction strength, with factors diffusing and integrating. On this basis, the diffusion theory is used as an empirical reference to construct three interactive mechanisms between the population and social welfare in Nanchong and the implications are inferred from the empirical results. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Research on the Construction of Financial Supervision Information System Based on Machine Learning

Author

Ge Lin, Ai Shangle, Zhao Haoxiang, Yu Jingyue, and Yang Junyao

Subjects
Article Subject, Computer Networks and Communications, Electrical and Electronic Engineering, Information Systems
Abstract

In order to fully implement systematic, continuous and effective supervision of financial institutions and promote the safe, steady, and efficient operation of China’s financial system, this research needs to develop a fully intelligent financial supervision information system, so as to take measures to effectively prevent and resolve financial risks. In this paper, based on ML (machine learning), an LSTM (long short-term memory) model with good comprehensive performance is built. This model is different from the existing scorecard model which relies on statistical learning. It not only further reduces the dependence on financial experts, but also has the ability of rapid iteration. The post-loan risk early warning model based on RF (random forest) algorithm is designed. The model parameters are optimized, which makes the risk early warning model have higher accuracy. The results show that when the data amount is 10,000 to 50,000, the accuracy of the model is relatively high when it is input into the model. When the amount of data is low, the overall throughput of the model is still very high. It shows that the pre-warning model of post-lending risk constructed in this paper has a strong risk prediction ability.

Published
2022

36. Dielectric Characteristic Analysis and Insulation State Evaluation of Packaging Material for Power Module With Different Aging Degrees

Author

Yao, Huanmin, Zhan, Jiangyang, Mu, Haibao, Li, He, Ding, Ning, Zhao, Haoxiang, Zhang, Dewen, Zhang, Daning, and Zhang, Guanjun

Abstract

Epoxy resin (EP) exhibits excellent electrical and mechanical properties, which make it a promising material for insulation in high-voltage power modules. However, prolonged exposure to high temperatures can lead to thermo-oxidative aging of EP, ultimately resulting in irreparable damage to the insulation. This study aims to analyze the impact of aging on EP dielectric properties and establish a model for assessing the aging state. First, the surface morphology of EP before and after thermo-oxidative aging was observed, followed by testing the frequency domain spectroscopy (FDS) curves of the sample. Subsequently, the electric field stress distribution and overall dielectric loss characteristics of the power module were studied under different aging degrees and voltage frequencies. Through decomposing FDS curves, the study revealed how thermo-oxidative aging affects the dielectric properties, and an evaluation model of aging state was constructed. The results indicate that aging can significantly increase the total dielectric loss and space charge polarization loss of the power module. The dielectric characteristic parameters corresponding to the space charge polarization were selected to establish an aging evaluation model, and the evaluation error is less than 0.064.

Published
2024
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37. A Fast Dielectric Response Measurement Instrument With Dynamic Power Supply Tracking and Active Suppression of Temperature Fluctuations

Author

Zhang, Daning, Xu, Lulin, Tian, Wenrui, Mu, Haibao, Yao, Huanmin, Zhao, Haoxiang, Tian, Jie, and Zhang, Guan-Jun

Abstract

This article proposes a fast frequency domain dielectric spectroscopy test scheme for diagnosing oil–paper insulation. The high-voltage output section introduces dynamic power supply tracking (DPST) and cascading techniques to generate high-voltage excitation signals. The DPST can increase the amplifier's voltage slew rate (SR) from 13 V per microsecond to 36.3 V per microsecond without crossover distortion. In the microcurrent measurement section, the error active suppression structure of bias current and bias current under time-varying temperature conditions is proposed to improve the temperature stability of the measurement circuit. The fast testing technology shortens the test period by 65% in the low-frequency band by using the method of multifrequency signal synthesis and partial cycle waveform fitting. The experimental results show that the total harmonic distortion and noise (THD+N) of the output voltage of the instrument are less than or equal to 0.078%. The voltage range is 780 Vpp. The standard deviation of current is less than 1.5%, and the standard deviation of tan δ is less than 1.7%, which verifies the stability of the designed instrument.

Published
2023
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