Your search keyword '"Kun YU"' showing total 1,573 results

1. High-precision control of microstructure and mechanical properties of Ti–6Al–4V thin-walled titanium alloy components by laser peening without coating

Author

Zichuan Yu, Kun Yu, Xinlei Pan, Yanqing Yu, Xiaoqing Liang, and Liucheng Zhou

Subjects

Laser peening without coating, Titanium alloy, Mechanical property, Microstructure property, Continuous dynamic recrystallization, Mining engineering. Metallurgy, TN1-997

Abstract

In this paper, the stress distribution and evolution of LPwC and LSP in thin-walled model are compared by simulation. The mechanical properties and microstructure changes of LPwCed TC4 titanium alloy thin-walled components were further analyzed by experiments, and the mechanism of LPwC induced grain refinement was analyzed in detail. The results show that compared with LSP, the stress field introduced by LPwC is more uniform, the depth of the influence layer is shallower, and the shock wave energy decays faster. At the same time, LPwC can control the deformation of the specimen more accurately. At 30 mJ energy, the high cycle fatigue limit of the LPwCed TC4 titanium alloy thin-walled sample is 467.1 MPa, which is 14.3 % higher than that of the untreated sample. The maximum hardness can reach 367.2 HV0.1, which is 12.0 % higher than that of the untreated sample, and the depth of the influence layer is 0.3 mm. The surface residual stress is −61.43 MPa, and the depth of the influence layer can reach 250 μm. At the same time, the formation of dynamic recrystallized grains under the action of LPwC promotes the texture orientation of the sample to change from [ 10−10 ] to [-12-10 ].

Published

2024

2. Impact of water table on hierarchically nested groundwater flow system

Author

Jun Zhang, Rong-zhe Hou, Kun Yu, Jia-qiu Dong, and Li-he Yin

Subjects

water table configuration, groundwater flow pattern, analytical models, top boundary conditions, ordos plateau, Ecology, QH540-549.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

Water table configuration gives rise to hierarchically nested groundwater flow systems. However, there remains a lack of comprehensive understanding regarding the controlling factors of water table and its impact on flow systems. Moreover, it remains challenging to identify characteristics of water table space variation through limited groundwater observations at the regional scale. Based on two ideal two-dimensional cross-section analytical models, this study presents a simplified approach to preliminarily assess the nonlinear interactions between water table variation and three driving factors: Topography, geology and climate. Two criteria, C1 and C2, are utilized to address issues at different scales ranging from basin to local: (i) the influence of various factors on water table configuration; and (ii) the influence of water table on groundwater flow pattern. Then, the Ordos Plateau is taken as an example to explore the role of the water table in nested groundwater systems using the provided approach and criterion. The application of this approach in the Ordos Plateau demonstrates its appropriateness as a practical method for preliminarily determining the characteristics of water table configuration and its impact on flow systems. The study explores the mechanism influencing spatial variation in the water table and improves understanding of the interaction between topography, geology, and climate on groundwater flow patterns.

Published

2024

3. Metabolic differences in MSTN and FGF5 dual-gene edited sheep muscle cells during myogenesis

Author

Mingming Chen, Yan Li, Xueling Xu, Shuqi Wang, Zhimei Liu, Shiyu Qi, Dandan Si, Zhuo Man, Shoulong Deng, Guoshi Liu, Yue Zhao, Kun Yu, and Zhengxing Lian

Subjects

MSTN, FGF5, Sheep, Skeketal muscle cells, Metabolomics, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Dynamic metabolic reprogramming occurs at different stages of myogenesis and contributes to the fate determination of skeletal muscle satellite cells (MuSCs). Accumulating evidence suggests that mutations in myostatin (MSTN) have a vital role in regulating muscle energy metabolism. Here, we explored the metabolic reprogramming in MuSCs and myotube cells in MSTN and FGF5 dual-gene edited sheep models prepared previously, and also focused on the metabolic alterations during myogenic differentiation of MuSCs. Our study revealed that the pathways of nucleotide metabolism, pantothenate and CoA biosynthesis were weakened, while the unsaturated fatty acids biosynthesis were strengthened during myogenic differentiation of sheep MuSCs. The MSTN and FGF5 dual-gene editing mainly inhibited nucleotide metabolism and biosynthesis of unsaturated fatty acids in sheep MuSCs, reduced the number of lipid droplets in per satellite cell, and promoted the pentose phosphate pathway, and the interconversion of pentose and glucuronate. The MSTN and FGF5 dual-gene editing also resulted in the inhibition of nucleotide metabolism and TCA cycle pathway in differentiated myotube cells. The differential metabolites we identified can be characterized as biomarkers of different cellular states, and providing a new reference for MSTN and FGF5 dual-gene editing in regulation of muscle development. It may also provide a reference for the development of muscle regeneration drugs targeting biomarkers.

Published

2024

4. A meta-analysis of the effects of design thinking on student learning

Author

Qing Yu, Kun Yu, and Rongri Lin

Subjects

History of scholarship and learning. The humanities, AZ20-999, Social Sciences

Abstract

Abstract Design thinking (DT) is becoming an innovative and popular teaching method. Recently, DT has been used as an unconventional method to develop skills of problem-solving, creativity, and innovation. However, its effects on student learning are unclear. This research aimed to examine the DT’s effects on student learning. The meta-analytic result based on 25 articles showed that DT positively affected student learning (r = 0.436, p =3 months); (4) for secondary school and university students; (5) on student learning engagement, motivation, problem-solving skills, and academic achievement; (6) with the model of Observe, Synthesize, Ideate, and Prototype, and Empathize, Define, Ideate, Prototype, Test; (7) when team size is

Published

2024

5. A two-dimensional thin film structure with spectral selective emission capability suitable for high-temperature environments

Author

Xinkai Li, Yufang Liu, Kun Yu, and Mengdan Qian

Subjects

Spectral selective emission materials, Radiation cooling, Infrared stealth, Multilayer film, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Spectral selective emission materials, characterized by their high emission efficiency within specific wavelength ranges, play a crucial role in various fields such as infrared stealth and radiative cooling. In this study, leveraging the tunneling effect of ultrathin metal layers and the impedance matching principle, we designed a one-dimensional multilayer thin film structure composed of Mo/Ge/Al. This design successfully achieved spectral selective emission within the 3–14 μm infrared spectrum range, showcasing superior high-temperature infrared stealth capabilities. Research findings indicate that the infrared atmospheric window (ε3–5 μm = 0.40, ε8–14 μm = 0.30) maintains a low emissivity within the temperature range from room temperature to 400 °C, while high emissivity in non-infrared atmospheric windows (ε5–8 μm = 0.81) enables radiative cooling. The use of high emissivity in the non-infrared atmospheric window reduced the surface temperature of this structure by 15.3 °C compared to untreated Si substrate under similar heating conditions. The temperature reduction was 34.1 °C when compared to a Si substrate coated with a 200 nm Al film. This straightforward and easily scalable structure not only presents novel solutions for applications in infrared stealth and radiative cooling but also holds vast potential for diverse fields including military, aerospace, and industrial manufacturing, injecting fresh impetus and possibilities into technological advancement.

Published

2024

6. Facet Engineering Boosts Interfacial Compatibility of Inorganic‐Polymer Composites

Author

Kun Yu, Guangli Ye, Jun Zhang, Liangjie Fu, Xiongbo Dong, and Huaming Yang

Subjects

Anhydrite, facet engineering, inorganic‐polymer, interfacial compatibility, mechanical properties, Science

Abstract

Abstract The interfacial compatibility between inorganic particles and polymer is crucial for ensuring high performance of composites. Current efforts to improve interfacial compatibility preferentially rely on organic modification of inorganic particles, leading to their complex process, high costs, and short lifespans due to aging and decomposition of organic modifiers. However, the fabrication of inorganic particles free from organic modification that is highly compatible in polymer still remains a great challenge. Herein, a novel facet‐engineered inorganic particle that exhibit high compatibility with widely used polymer interface without organic modification is reported. Theoretical calculations and experimental results show that (020) and (102) facets of inorganic particles modulate local coordination environment of Ca atoms, which in turn regulate d‐orbital electron density of Ca atoms and electron transfer paths at interfaces between polymer and inorganic particles. This difference alters the molecular diffusion, orientation of molecular chains on surface of inorganic particles, further modulating interfacial compatibility of composites. Surprisingly, the facet‐engineered inorganic particles show exceptional mechanical properties, especially for tensile strain at break, which increases by 395%, far superior to state‐of‐the‐art composites counterparts. Thus, the method can offer a more benign approach to the general production of high‐performance and low‐cost polymer‐inorganic composites for diverse potential applications.

Published

2024

7. Optimal energy sharing for renewable portfolio standard and carbon cap-and-trade scheme: A two-step energy trading approach

Author

Chun Wu, Xingying Chen, Haochen Hua, Kun Yu, Lei Gan, and Bo Wang

Subjects

Chance constraint, Carbon emission permits, Energy trading, Game equilibrium, Renewable portfolio standard, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

Based on the renewable portfolio standard and carbon cap-and-trade scheme, consumers faced with the demand of power and carbon emission permits shall be able to participate in three markets, i.e., green power market, electricity market and carbon market. In this paper, we propose a two-step energy trading approach to help consumers optimize their utility, considering the conflict of interest regarding whether to purchase power from the aforementioned three markets and how much power to purchase from each market. This approach takes into account several factors, including the benefits of participating in demand response, the costs associated with consumer dissatisfaction, the costs of power purchased from the electricity market, the costs of renewable power purchased from the green power market, and the costs of carbon emission permits purchased from the carbon market. The two-step formulation establishes an equilibrium problem with equilibrium constraints. A chance-constrained optimization method is utilized due to the uncertain fluctuation of renewable power in the two steps. The equilibrium problem with equilibrium constraints in the two steps can be settled by the nonlinear optimization of multiple subproblems with corresponding Karush-Kuhn-Tucker conditions. Simulations show that the proposed approach is able to significantly improve the utility of the consumers in the energy trading process among green power, electricity and carbon markets.

Published

2024

8. Score-based incentive demand response for load aggregators considering power-score redeem behavior of residential consumers

Author

Yunchu Wang, Yong Yan, Zhenzhi Lin, Zhi Zhang, Yuanqian Ma, Li Yang, Xingying Chen, and Kun Yu

Subjects

Demand Response, Loyalty Program, Power-Score, Residential Consumers, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

A large amount of residential demand-side resources can be aggregated and utilized under attractive demand response mechanisms. Based on the consumer loyalty program in the research of marketing, a new score-based incentive demand response (SIDR) strategy considering power-score redeem behavior was presented. A bi-level SIDR optimization model that combines the SIDR parameters optimization with the residential consumers’ demand response optimization is proposed. At the lower level, a weight coefficient was modeled based on the construal level theory and fuzzy theory to clarify the influence of incentive step-size and reward distance on residential consumers’ redeem behavior. Then, the optimization model of residential consumers’ demand response was proposed, considering residential consumers’ redeem behavior and comfort in electricity consumption. At the upper level, the optimization model of SIDR incentive parameters is proposed for load aggregators to maximize the demand response profit. The case study on the data of the demand-side bidding market in Zhejiang province, China, illustrates that the SIDR strategy considering power-score redeem behavior can help load aggregators formulate a more reasonable SIDR mechanism and obtain more profit than other incentive-based demand response strategies, thereby enhancing the flexibility and economics of the power system.

Published

2024

9. High-impedance faulty feeder detection for cross-country faults in distribution networks based on zero-sequence active power regulation

Author

Yuting Lan, Kun Yu, Xiangjun Zeng, Rong Cai, Qingbo Deng, Chenyu Wu, Shigeng He, Shijie Xu, and Youcheng Jia

Subjects

High-impedance faults, Cross-country faults, Flexible grounding, Zero-sequence active power regulation, Faulty feeder detection, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

The weak characteristics of high-impedance faults and the complex attributes of cross-country faults make faulty feeder detection of cross-country high-impedance faults difficult in medium-voltage networks. This paper deduces the zero-sequence equivalent circuit of cross-country faults through a three-sequence two-port network, analyzes the influence of grounding resistance on cross-country faults, and then explores the limitations of the traditional passive feeder detection methods. Moreover, this paper proposes a novel faulty feeder detection method for cross-country high-impedance faults based on zero-sequence active power regulation. First, based on the zero-sequence current varying characteristics under the regulation of zero-sequence voltage, construct a continuous adjustment region of zero-sequence voltage within the feeder insulation tolerance range. Next, based on the zero-sequence active power varying characteristics in each feeder, propose a discriminant formula for the zero-sequence active power fluctuation coefficient. Finally, adjusting zero-sequence voltage can actively amplify the differences in zero-sequence active power fluctuations between healthy feeders and faulty feeders and accurately select faulty feeders of cross-country high-impedance faults in medium-voltage networks. Various fault conditions are simulated in the PSCAD/EMTDC simulation and field test to verify the effectiveness of the proposed method. The proposed method can accurately identify all faulty feeders of cross-country high-impedance faults in the medium-voltage distribution network.

Published

2024

10. The single-strand DNA-binding protein SSB1 is involved in the expression of salivary gland radiation injury repair

Author

Xian Wang, Yuetong Wang, Xianglin Zeng, Haoyu Lu, Dongqin Mo, Yuetao Li, Zhiqing Liu, Yude Huang, Kun Yu, and Daiyou Wang

Subjects

single-strand DNA-binding protein 1, salivary gland, radioactive damage, DSB repair, γ-H2AX, PARP1, Therapeutics. Pharmacology, RM1-950

Abstract

ObjectivesSingle-strand DNA-binding protein 1 (SSB1) plays a crucial role in the cellular response to DNA damage. This study aimed to explore the expression and regulation of SSB1 in normal rat salivary gland tissues and tissues following radiation, with a specific emphasis on its involvement in the repair of salivary gland injury.MethodsA total of 45 adult SD rats were randomly assigned to one control group or eight experimental groups. In the control group, five rats were euthanized without irradiation, and their parotid gland tissues were collected for analysis. The experimental groups received a dose of 6 Gy of radiation targeting the head and neck region; subsequently, five rats from each group were euthanized hly to collect parotid gland tissue samples, resulting in a total of eight experimental groups. The expression levels of SSB1, γ-H2AX, and PARP1 in the parotid gland tissues were assessed via immunohistochemistry, while changes in SSB1 gene expression were quantified via RT-qPCR.ResultsNo significant morphological differences were observed between the two groups following HE staining. In the immunohistochemistry (IHC) analysis, notable tissue-specific variation in SSB1 expression was identified, with higher levels detected in the ducts than in the acini and connective tissue. The expression of SSB1 gene initially increased post-radiation before subsequently decreasing, ultimately returning to baseline levels, as corroborated by the RT-qPCR results. In contrast, γ-H2AX and PARP1 exhibited minimal expression in the control group; however, their expression peaked at 1 h in the experimental group before gradually declining to levels comparable to those of the control group.ConclusionRadiation induces time-dependent upregulation of SSB1 expression in rat salivary glands, indicating that SSB1 may play a role in radiation-induced repair processes.

Published

2024

11. A MSTNDel73C mutation with FGF5 knockout sheep by CRISPR/Cas9 promotes skeletal muscle myofiber hyperplasia

Author

Ming-Ming Chen, Yue Zhao, Kun Yu, Xue-Ling Xu, Xiao-Sheng Zhang, Jin-Long Zhang, Su-Jun Wu, Zhi-Mei Liu, Yi-Ming Yuan, Xiao-Fei Guo, Shi-Yu Qi, Guang Yi, Shu-Qi Wang, Huang-Xiang Li, Ao-Wu Wu, Guo-Shi Liu, Shou-Long Deng, Hong-Bing Han, Feng-Hua Lv, Di Lian, and Zheng-Xing Lian

Subjects

MSTN, FGF5, dual-gene biallelic mutation, FOSL1, myogenesis, Medicine, Science, Biology (General), QH301-705.5

Abstract

Mutations in the well-known Myostatin (MSTN) produce a ‘double-muscle’ phenotype, which makes it commercially invaluable for improving livestock meat production and providing high-quality protein for humans. However, mutations at different loci of the MSTN often produce a variety of different phenotypes. In the current study, we increased the delivery ratio of Cas9 mRNA to sgRNA from the traditional 1:2 to 1:10, which improves the efficiency of the homozygous mutation of biallelic gene. Here, a MSTNDel73C mutation with FGF5 knockout sheep, in which the MSTN and FGF5 dual-gene biallelic homozygous mutations were produced via the deletion of 3-base pairs of AGC in the third exon of MSTN, resulting in cysteine-depleted at amino acid position 73, and the FGF5 double allele mutation led to inactivation of FGF5 gene. The MSTNDel73C mutation with FGF5 knockout sheep highlights a dominant ‘double-muscle’ phenotype, which can be stably inherited. Both F0 and F1 generation mutants highlight the excellent trait of high-yield meat with a smaller cross-sectional area and higher number of muscle fibers per unit area. Mechanistically, the MSTNDel73C mutation with FGF5 knockout mediated the activation of FOSL1 via the MEK-ERK-FOSL1 axis. The activated FOSL1 promotes skeletal muscle satellite cell proliferation and inhibits myogenic differentiation by inhibiting the expression of MyoD1, and resulting in smaller myotubes. In addition, activated ERK1/2 may inhibit the secondary fusion of myotubes by Ca2+-dependent CaMKII activation pathway, leading to myoblasts fusion to form smaller myotubes.

Published

2024

12. De novo and inherited micro-CNV at 16p13.11 in 21 Chinese patients with defective cardiac left-right patterning

Author

Kun Yu, Weicheng Chen, Yan Chen, Libing Shen, Boxuan Wu, Yuan Zhang, and Xiangyu Zhou

Subjects

16p13.11, copy number variation, deletion, duplication, congenital heart disease, ciliopathy, Genetics, QH426-470

Abstract

ObjectiveCopy number changes at Chromosomal 16p13.11 have been implicated in a variety of human diseases including congenital cardiac abnormalities. The clinical correlation of copy number variants (CNVs) in this region with developmental abnormalities remains controversial as most of the patients inherit the duplication from an unaffected parent.MethodsWe performed CNV analysis on 164 patients with defective left-right (LR) patterning based on whole genome-exome sequencing (WG-ES) followed by multiplex ligation-dependent probe amplification (MLPA) validation. Most cases were accompanied with complex congenital heart disease (CHD).ResultsCNVs at 16p13.11 were identified in a total of 21 cases, accounting for 12.80% (21/164) evaluated cases. We observed a marked overrepresentation of chromosome 16p13.11 duplications in cases when compared with healthy controls according to literature reports (15/164, 9.14% versus 0.09% in controls). Notably, in two independent family trios, de novo 16p13.11 micro-duplications were identified in two patients with laterality defects and CHD. Moreover, 16p13.11 micro-duplication was segregated with the disease in a family trio containing 2 affected individuals. Notably, five coding genes, NOMO1, PKD1P3, NPIPA1, PDXDC1, and NTAN1, were potentially affected by micro-CNV at 16p13.11 in these patients.ConclusionOur study provides new family-trio based evidences to support 16p13.11 micro-duplications predispose individuals to defective cardiac left-right patterning and laterality disorder.

Published

2024

13. Effects of service stress on the deformation behavior and microstructures of Zn-0.5Mg-0.05Fe alloy from ambient to high temperatures

Author

Xin Chu, Zhendi Fu, Yiting Liu, Hao Tian, Yan Liu, Jun Wang, Jueming Song, Zheng Li, Zijun Tang, Yang Yan, and Kun Yu

Subjects

Zn-Mg-Fe alloy, Powder metallurgy, Dynamic recrystallization mechanism, Processing map, Constitutive analysis, Mining engineering. Metallurgy, TN1-997

Abstract

To overcome challenges in the traditional melt casting process of zine alloys, such as oxidative burnout, compositional segregation, and grain coarsening, this study carried out hot compression deformation tests on Zn-0.5Mg-0.05Fe alloys prepared by powder metallurgy. The results show that increasing deformation temperature and decreasing strain rate reduce rheological stress. The hot compression deformation process exhibits three phases, as rheological stress increases, work hardening, dynamic softening, and steady-state fluidization are observed, respectively. An intrinsic equation for the hot compression process is derived as = 1.334 × 1010 × [sinh(0.0053σ)]7.62947exp(-109.931691/RT). Processing conditions for Zn-0.5Mg-0.05Fe alloy are determined from a processing map, suggesting that a safe zone of 25°C–130 °C deformation temperatures with 0.13s−1-0.36s−1 strain rates, and 120°C–200 °C deformation temperatures with 0.01s−1-0.6s−1 strain rates. Electron Back-scattering Patterns (EBSD) and Transmission Electron Microscope (TEM) results show both discontinuous dynamic recrystallization (DDRX) and continuous dynamic recrystallization (CDRX) during the hot deformation compression process. DRX reduces deformation resistance, refines the grains, and improves the mechanical properties of the alloys. This study provides theoretical insights and process guidance for preparing degradable zinc alloys with excellent mechanical properties.

Published

2024

14. Brain tumour segmentation framework with deep nuanced reasoning and Swin‐T

Author

Yang Xu, Kun Yu, Guanqiu Qi, Yifei Gong, Xiaolong Qu, Li Yin, and Pan Yang

Subjects

image segmentation, medical image processing, Photography, TR1-1050, Computer software, QA76.75-76.765

Abstract

Abstract Tumour medical image segmentation plays a crucial role in clinical imaging diagnosis. Existing research has achieved good results, enabling the segmentation of three tumour regions in MRI brain tumour images. Existing models have limited focus on the brain tumour areas, and the long‐term dependency of features is weakened as the network depth increases, resulting in blurred edge segmentation of the targets. Additionally, considering the excellent segmentation performance of the Swin Transformer(Swin‐T) network, its network structure and parameters are relatively large. To address these limitations, this paper proposes a brain tumour segmentation framework with deep nuanced reasoning and Swin‐T. It is mainly composed of the backbone hybrid network (BHN) and the deep micro texture extraction module (DMTE). The BHN combines the Swin‐T stage with a new downsampling transition module called dual path feature reasoning (DPFR). The entire network framework is designed to extract global and local features from multi‐modal data, enabling it to capture and analyze deep texture features in multi‐modal images. It provides significant optimization over the Swin‐T network structure. Experimental results on the BraTS dataset demonstrate that the proposed method outperforms other state‐of‐the‐art models in terms of segmentation performance. The corresponding source codes are available at https://github.com/CurbUni/Brain‐Tumor‐Segmentation‐Framework‐with‐Deep‐Nuanced‐Reasoning‐and‐Swin‐T.

Published

2024

15. Flow behavior and dynamic recrystallization mechanism of a new near-alpha titanium alloy Ti-0.3Mo-0.8Ni-2Al-1.5Zr

Author

Yongsheng Wang, Zhengdao Li, Hongyan Wang, Meiyu Hou, Kun Yu, Yaoping Xu, and Han Xiao

Subjects

Titanium alloy, Flow behavior, Hot processing map, Dynamic recrystallization, Mining engineering. Metallurgy, TN1-997

Abstract

A new near-α titanium alloy Ti-0.3Mo-0.8Ni-2Al-1.5Zr was designed based on Ti-0.3Mo-0.8Ni (TA10). The hot compression tests were carried out at temperatures of 800–970 °C and strain rates of 0.01–5 s−1. The results show that the flow softening phenomenon in the α + β phase region is more distinct than that in the single β phase region. The Arrhenius constitutive models based on strain compensation in the α+β phase region and β phase region were established respectively, and the correlation coefficient between the predicted flow peak stress values and the experimental values reached 0.99365. The hot processing map of the alloy was established, the processing parameters of the peak efficiency: 800 ≤ T ≤ 818 °C, 0.01 ≤ ε˙ ≤ 0.0235 s−1, and 960 ≤ T ≤ 970 °C, 0.01 ≤ ε˙ ≤ 0.0213 s−1. The microstructure evolution and deformation mechanism of the compressed specimens were researched by electron backscatter diffraction (EBSD) technique. There were two nucleation mechanisms for dynamic recrystallization (DRX): sub-grains growth nucleation and high angle grain boundaries (HAGBs) bulging nucleation, the former was continuous dynamic recrystallization (CDRX), and the latter was discontinuous dynamic recrystallization (DDRX). The flow stress in the α+β phase region was softened by CDRX and dynamic recovery (DRV), while the principal deformation mechanisms in the β phase region are DRV and DDRX. The dislocation strain energy and recrystallization ability at different temperatures were quantitatively analyzed by the kernel average misorientation (KAM) and the geometrically necessary dislocation (GND), and the results showed that more complete recrystallization occurred at lower temperature in the α + β phase region. The HCP slip was principally completed by prismatic ⟨a⟩ and pyramidal ⟨c+a⟩ slip systems during the hot compression, while BCC was a mixed mode of {110}, {112} and {113} multiple slips.

Published

2024

16. Structural characterization and biological compatibilities of PEO coated Ti–Mg metal matrix composites

Author

Yuqing Qiao, Dan Zhang, Zihan Yang, Ziwei Zhu, Xiaopeng Lu, Boyi Ou, Jingshu Zhang, Shi Jin, Qiang Wang, and Kun Yu

Subjects

3D printing, Ti–Mg, Plasma electrolytic oxidation, Corrosion resistance, Mining engineering. Metallurgy, TN1-997

Abstract

Both titanium (Ti) and magnesium (Mg) exhibit exceptional qualities for biomedical applications. The rigorous selection of a suitable material for advancing artificial mandible implantation is of paramount importance. The porous titanium scaffold was fabricated by 3D printing, and subsequently Ti–Mg composites with gradient magnesium content were prepared by pressureless infiltration. Ti–Mg composites with three distinct mass ratios are prepared based on the different melting points of Ti and Mg. A protective coating has been applied to the surface of the composites using plasma electrolytic oxidation (PEO) to further improve their properties. A comprehensive investigation of the obtained samples was conducted, including the macroscopic and microstructures, element compositions, parameters such as thickness, roughness, and water contact angle of the coating, as well as the corrosion behavior and biocompatibility evaluations. Cytocompatibility evaluation and morphology was done in 6-time diluted extracts on tissue culture plastic surface. The PEO-Ti-Mg-900 (with 20% magnesium content) has shown the best behavior in corrosion resistance, cell proliferation and cytotoxicity, indicating its further application in the artificial mandible implantation.

Published

2024

17. A global dataset of sandstone detrital composition by Gazzi‐Dickinson method

Author

Xiaolong Dong, Xiumian Hu, Wen Lai, Weiwei Xue, Shijie Zhang, Yiqiu Zhang, Wei An, Haiming Fan, Sijin Chen, Cui Li, Xingyun Wang, Yue Wu, Jinlv Chen, Yajun Zhang, and Kun Yu

Subjects

detrital composition, Gazzi‐Dickinson method, provenance analysis, sandstone, spatiotemporal information, Meteorology. Climatology, QC851-999, Geology, QE1-996.5

Abstract

Abstract Detrital composition of sandstone is the most important data for siliciclastic studies including sandstone classification, provenance analysis, oil and gas exploration. A large amount of detrital composition data has accumulated over the past decades, however, they are scattered in publications without unified standards. Here we constructed a global dataset of detrital components of sandstones from 646 peer‐reviewed publications using Gazzi‐Dickinson method. A total of 19,861 samples from Precambrian to Quaternary are involved in this dataset. For each sample, we present details on reference information, geographic information, geological background, depositional age and the original data. It is a high‐quality dataset for the information on each sandstone sample from different studies which was standardized. The dataset can be used widely, such as for stratigraphic comparison, provenance analysis, exploring the general laws of the source‐to‐sink process and geological engineering.

Published

2024

18. Application of Improved HF-DBSCAN Algorithm in Analyzing Complex Trajectory Data of Wi-Fi Users in Smart Campus

Author

Likun Li and Kun Yu

Subjects

Electronic computers. Computer science, QA75.5-76.95, Cybernetics, Q300-390

Abstract

With the development of wireless network technology and the increasingly widespread application of mobile intelligent terminals, a large amount of wireless network data has been generated in smart campuses. By analyzing the trajectory data through clustering algorithms, more valuable user data information can be obtained. However, current clustering algorithms have high computational difficulty, long running time, and poor clustering accuracy for complex trajectories. Based on this background, the study proposes a spatial clustering of Application with Noise by Density-Based Spatial Clustering of Application with Noise combining Hausdorff and Frechet. The method is denoted as (Hausdorff and Frechet-Density Based Spatial Clustering of Application with Noise, HF-DBSCAN). DBSCAN denotes the Density Based Spatial Clustering of Application with Noise. In the experimental results, compared to the AH-DBSCAN, DBSCAN, and FD-DBSCAN algorithms, the running time of HF-DBSCAN algorithm in complex trajectory cluster analysis is reduced by 59.33%, 39.82%, and 35.12%, respectively, and the contour coefficient is closer to 1; the Davies-Boldin Index (DBI) values decreased by 59.24%, 64.42%, and 68.24%, respectively. The experiment shows that the optimized HF-DBSCAN algorithm has lower computational difficulty, better clustering performance, and higher clustering accuracy, which verifies the effectiveness of this study.

Published

2024

19. Fault location method for distribution network Considering distortion of traveling wavefronts

Author

Youpeng Wang, Liwei Xie, Feng Liu, Kun Yu, Xiangjun Zeng, Lanxi Bi, and Xin Tang

Subjects

Robust local mean decomposition, Multi-branches, Distribution line, Fault traveling wave location, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

To reduce the distortion effects of traveling wavefronts for fault location in distribution networks, a novel fault traveling wave detection method employing Robust Local Mean Decomposition (RLMD), Teager Energy Operator (TEO) and Incremental Difference Ratio (IDR) is proposed. According to the dispersion characteristic of traveling waves with multi-branch lines, the sampled faulty traveling wave signal is filtered using the RLMD method, then the TEO is used to determine the first half-wave time interval of the fault traveling wave. Finally, the IDR is proposed to detect the initial moment of the faulty traveling wave. And according to the fault traveling wave transmission path of multi-branch lines, the complex multi-branch line fault location problem is transformed into a three-terminal fault location problem. The fault traveling wave location method is proposed based on the three-terminal fault matrix, which achieves the fault location through the gradual reduction of the fault area range. Simulation and experiment results indicate that the method proposed in this paper can effectively calculate the arrival time of faulty traveling waves, and is more suitable for fault detection in multi-branch distribution lines compared to existing methods. The new proposed faulty location method can achieve reliable location to reduce location errors.

Published

2024

20. Response of photosynthetic characteristics and yield of grape to different CO2 concentrations in a greenhouse

Author

Yufan Zhou, Hossam Salah Mahmoud Ali, Jinshan Xi, Dongdong Yao, Huanhuan Zhang, Xujiao Li, Kun Yu, and Fengyun Zhao

Subjects

air injection system, CO2, grapes, photosynthesis, yield, subsurface drip, Plant culture, SB1-1110

Abstract

Due to the enclosed environment of greenhouse grape production, the supply of CO2 required for photosynthesis is often insufficient, leading to photosynthetic downregulation and reduced yield. Currently, the optimal CO2 concentration for grape production in greenhouses is unknown, and the precise control of actual CO2 levels remains a challenge. This study aims to investigate the effects of different CO2 concentrations on the photosynthetic characteristics and yield of grapes, to validate the feasibility of a CO2 gas irrigation system, and to identify the optimal CO2 concentration for greenhouse grape production. In this study, a CO2 gas irrigation system combining CO2 enrichment and gas irrigation techniques was used with a 5-year-old Eurasian grape variety (Vitis vinifera L.) ‘Flame Seedless.’ Four CO2 concentration treatments were applied: 500 ppm (500 ± 30 µmol·mol−1), 700 ppm (700 ± 30 µmol·mol−1), 850 ppm (850 ± 30 µmol·mol−1), and 1,000 ppm (1,000 ± 30 µmol·mol−1). As CO2 concentration increased, chlorophyll a, chlorophyll b, and carotenoids in grape leaves all reached maximum values at 700 ppm and 850 ppm during the same irrigation cycle, while the chlorophyll a/b ratio was lower than at other concentrations. The net photosynthetic rate (Pn) and water use efficiency (WUE) of grape leaves were the highest at 700 ppm. The transpiration rate and stomatal conductance at 700 ppm and 850 ppm were significantly lower than those at other concentrations. The light saturation point and apparent quantum efficiency reached their maximum at 850 ppm, followed by 700 ppm. Additionally, the maximum net photosynthetic rate, carboxylation efficiency, electron transport rate, and activities of SOD, CAT, POD, PPO, and RuBisCO at 700 ppm were significantly higher than at other concentrations, with the highest yield recorded at 14.54 t·hm−2. However, when the CO2 concentration reached 1,000 ppm, both photosynthesis and yield declined to varying degrees. Under the experimental conditions, the optimal CO2 concentration for greenhouse grape production was 700 ppm, with excessive CO2 levels gradually inhibiting photosynthesis and yield. The results provide a theoretical basis for the future application of CO2 fertilization and gas irrigation techniques in controlled greenhouse grape production.

Published

2024

21. Dual-band high quality-factor perfect absorber based on uniaxial/biaxial anisotropic van der Waals polar crystals

Author

Didi Song, Biyuan Wu, Yufang Liu, Xiaohu Wu, and Kun Yu

Subjects

Tamm phonon polaritons, Dual-band absorber, Polarization-dependent, Hexagonal boron nitride, α-phase molybdenum trioxide, Physics, QC1-999

Abstract

Phonon polaritons (PhPs) in two-dimensional van der Waals crystals, such as hexagonal boron nitride (hBN) and α-phase molybdenum trioxide (α-MoO3), exhibit remarkable spatial confinement and extremely low optical losses, offering possibilities for the development of novel micro and nanophotonic devices at mid-infrared wavelengths. Here, we demonstrate the potential of the proposed Tamm structure to achieve dual-band high quality-factor perfect absorption within the mid-infrared range. This structure utilizes upper and lower spacer layers to isolate the anisotropic materials hBN and α-MoO3 from one-dimensional photonic crystals, where the Tamm phonon polaritons (TPhPs) are respectively excited at the interfaces, facilitating strong coupling with incident light and leading to significant dual-band perfect absorption phenomena. The results demonstrate that due to polariton resonances, the absorption peaks exhibit extremely narrow absorption bandwidths, with the maximum quality-factor reaching up to 297. In addition, tunable resonant wavelengths and polarization-dependent absorption properties are also demonstrated in the proposed Tamm structure. This study provides an alternative and straightforward approach for constructing dynamic and multifunctional optical devices such as optical modulators, tunable multi-band filters and biosensors.

Published

2024

22. The influence of yttrium and manganese additions on the degradation and biocompatibility of magnesium-zinc-based alloys: In vitro and in vivo studies

Author

Lei Shi, Yang Yan, Chun-sheng Shao, Kun Yu, Bo Zhang, and Liang-jian Chen

Subjects

Magnesium alloy, Biodegradation, Biocompatibility, Bone regeneration, Bone defect repair, Mining engineering. Metallurgy, TN1-997

Abstract

The repair and regeneration of bone defects are highly challenging orthopedic problems. Recently, Mg-based implants have gained popularity due to their unique biodegradation and elastic modulus similar to that of human bone. The aim of our study is to develop a magnesium alloy with a controllable degradation that can closely match bone tissue to help injuries heal in vivo and avoid cytotoxicity caused by a sudden increase in ion concentration. In this study, we prepared and modified Mg-3 Zn, Mg-3Zn-1Y, and Mg-2Zn-1Mn by hot extrusion, and used Mg-2.5Y-2.5Nd was as a control. We then investigated the effect of additions of Y and Mn on alloys’ properties. Our results show that Mn and Y can improve not only compression strength but also corrosion resistance. The alloy Mg-2Zn-1Mn demonstrated good cytocompatibility in vitro, and for this reason we selected it for implantation in vivo. The degraded Mg-2Zn-1Mn implanted a bone defect area did not cause obvious rejection and inflammatory reaction, and the degradation products left no signs of damage to the heart, liver, kidney, or brain. Furthermore, we find that Mg-2Zn-1Mn can promote an osteoinductive response in vivo and the formation of bone regeneration.

Published

2024

23. Elite, transformable haploid inducers in maize

Author

Brent Delzer, Dawei Liang, David Szwerdszarf, Isadora Rodriguez, Gonzalo Mardones, Sivamani Elumalai, Francine Johnson, Samson Nalapalli, Rachel Egger, Erin Burch, Kerry Meier, Juan Wei, Xiujuan Zhang, Huaping Gui, Huaibing Jin, Huan Guo, Kun Yu, Yubo Liu, Becky Breitinger, Ana Poets, Jason Nichols, Wan Shi, David Skibbe, Qiudeng Que, and Timothy Kelliher

Subjects

Zea mays L., Doubled haploids, Transformation, Genome editing, QTL, Agriculture, Agriculture (General), S1-972

Abstract

The introduction of alleles into commercial crop breeding pipelines is both time consuming and costly. Two technologies that are disrupting traditional breeding processes are doubled haploid (DH) breeding and genome editing (GE). Recently, these techniques were combined into a GE trait delivery system called HI-Edit (Haploid Inducer-Edit) [1]. In HI-Edit, the pollen of a haploid inducer line is reprogrammed to deliver GE traits to any variety, obviating recurrent selection. For HI-Edit to operate at scale, an efficient transformable HI line is needed, but most maize varieties are recalcitrant to transformation, and haploid inducers are especially difficult to transform given their aberrant reproductive behaviors. Leveraging marker assisted selection and a three-tiered testing scheme, we report the development of new Iodent and Stiff Stalk maize germplasm that are transformable, have high haploid induction rates, and exhibit a robust, genetically-dominant anthocyanin native trait that may be used for rapid haploid identification. We show that transformation of these elite “HI-Edit” lines is enhanced using the BABYBOOM and WUSCHEL morphogenetic factors. Finally, we evaluate the HI-Edit performance of one of the lines against both Stiff Stalk and non-Stiff Stalk testers. The strategy and results of this study should facilitate the development of commercially scalable HI-Edit systems in diverse crops.

Published

2024

24. Coordinated planning and operation of inter seasonal heat storage and P2G devices integrated to urban multi-energy system

Author

Kun Yu, Zengguang Cen, Xingying Chen, Le Bu, Lei Gan, Zijie Huang, Jun Shen, and Haochen Hua

Subjects

Urban multi-energy flow system, Inter seasonal heat storage, Electric hydrogen production, Joint optimization of planning and operation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

With the urbanization construction and the advancement of the carbon peaking and carbon neutrality goals, urban energy systems are characterized by coupling multi-energy networks and a high proportion of renewable energy. Urban energy systems need to improve the quality of energy use, as well as to achieve energy conservation and emission reduction. Inter-seasonal heat technology has satisfactory engineering application prospects in promoting renewable energy consumption and the energy supply of urban multi-energy systems. Considering inter-seasonal heat storage and electric hydrogen production, a joint optimization method of planning and operation is proposed for the urban multi-energy flow system. First, the operation framework of inter-seasonal heat storage and electric hydrogen production system is established, which clarifies the energy flow of the urban multi-energy system. Secondly, aiming at the goals of minimizing the equipment’s annual investment cost and the multi-energy system annual operation cost, combined with the time series period division method, a planning operation model has been established considering multi-objectives. Through case study, it is shown that the proposed model can promote the renewable energy consumption and reduce the operation cost of the whole system.

Published

2023

25. Accurately Measuring the Infrared Spectral Emissivity of Inconel 601, Inconel 625, and Inconel 718 Alloys during the Oxidation Process

Author

Longfei Li, Fayu Wang, Jiaying Gao, Kun Yu, Lan Wang, and Yufang Liu

Subjects

infrared spectral emissivity, measurement accuracy, nickel-based alloys, surface temperature correction, low thermal conductivity, thermal oxidation, Chemical technology, TP1-1185

Abstract

Accurate measurement of the infrared spectral emissivity of nickel-based alloys is significant for applications in aerospace. The low thermal conductivity of these alloys limits the accuracy of direct emissivity measurement, especially during the oxidation process. To improve measurement accuracy, a surface temperature correction method based on two thermocouples was proposed to eliminate the effect of thermal conductivity changes on emissivity measurement. By using this method, the infrared spectral emissivity of Inconel 601, Inconel 625, and Inconel 718 alloys was accurately measured during the oxidation process, with a temperature range of 673–873 K, a wavelength range of 3–20 μm, and a zenith angle range of 0–80°. The results show that the emissivity of the three alloys is similar in value and variation law; the emissivity of Inconel 718 is slightly less than that of Inconel 601 and Inconel 625; and the spectral emissivity of the three alloys strongly increases in the first hour, whereafter it grows gradually with the increase in oxidation time. Finally, Inconel 601 has a lower emissivity growth rate, which illustrates that it possesses stronger oxidation resistance and thermal stability. The maximum relative uncertainty of the emissivity measurement of the three alloys does not exceed 2.6%, except for the atmospheric absorption wavebands.

Published

2024

26. The HPV viral regulatory mechanism of TLRs and the related treatments for HPV-associated cancers

Author

Shi-Yu Qi, Miao-Miao Yang, Chong-Yang Li, Kun Yu, and Shou-Long Deng

Subjects

human papillomavirus, toll-like receptors, TLR agonists, cancer, TLR therapy, Immunologic diseases. Allergy, RC581-607

Abstract

Infection with human papillomavirus (HPV) typically leads to cervical cancer, skin related cancers and many other tumors. HPV is mainly responsible for evading immune tumor monitoring in HPV related cancers. Toll like receptors (TLRs) are particular pattern recognition molecules. When the body is facing immune danger, it can lead to innate and direct adaptive immunity. TLR plays an important role in initiating antiviral immune responses. HPV can affect the expression level of TLR and interfere with TLR related signaling pathways, resulting in sustained viral infection and even carcinogenesis. This paper introduces the HPV virus and HPV related cancers. We discussed the present comprehension of TLR, its expression and signaling, as well as its role in HPV infection. We also provided a detailed introduction to immunotherapy methods for HPV related diseases based on TLR agonists. This will provide insights into methods that support the therapeutic method of HPV related conditions with TLR agonists

Published

2024

27. Multi-time-scale voltage control of the distribution network with energy storage equipped soft open points

Author

Xiaohua Ding, Xingying Chen, Kun Yu, Feifan Cao, and Bo Wang

Subjects

battery energy storage systems, droop control, distribution network, state-of-charge interval, particle swarm optimization, multi-time scale, General Works

Abstract

The integration of distributed generation (DG) units into distribution networks (DNs) has brought about several operational challenges, including voltage issues and increased power loss. Energy storage equipped soft open points (E-SOPs) can accurately and flexibly control active and reactive power flows to address these problems. Additionally, the photovoltaic (PV) inverter and the network reconfiguration (NR) play a significant role in voltage control by adjusting the reactive power and the topology of the DN, respectively. However, due to differences in response times, there is a lack of systematic coordination between NR and the inverters of the E-SOP and PV. This paper proposes a multi-time-scale voltage control model that includes day-ahead NR scheduling, inter-day droop control optimization of the PV and E-SOP, and real-time local droop control. Considering the uncertainties of renewable DG outputs and loads, a robust optimization method is used in the day-ahead stage to obtain a reliable network structure. Then, with more accurate intra-day predictions, a stochastic optimization method is used to obtain the optimal state-of-charge interval, aiming to provide a flexible regulation range for battery energy storage to cope with the power fluctuations during the real-time stage. In addition, to address the intra-day voltage control model with bilinear constraints of the droop control function, a particle swarm optimization method is used. The results are verified on a 33-bus DN system through comparative analyses, showing effective performance.

Published

2024

28. Investigation into X-point emissivity in metallic materials for temperature measurement

Author

Gangquan Wang, Yinxue Bai, Naiya Yan, Longfei Li, Kaihua Zhang, Baolin Zhao, Yufang Liu, and Kun Yu

Subjects

X-point emissivity, Lorentz-Drude model, Numerical analysis, Temperature measurement, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Amidst the swift progression of thermal radiation, the application of high-temperature spectral radiation characteristics in metallic materials has become pervasive across domains such as temperature measurement and material identification. X-Point is the intersection of the metal emissivity isotherms. The scope of X-point emissivity has been inadequately explored in prior investigations. The present study employs a concerted approach that amalgamates the simulation of the Lorentz-Drude model theory and the emissivity measurement based on the energy contrast method, to comprehensively investigate the X-point emissivity of metal materials. The results demonstrate that: (1) the simulation of X-point emissivity is achieved for the first time by the incorporation of the Lorentz-Drude model of electron-phonon scattering. (2) Validation of the model's feasibility is demonstrated by the measurement of the X-point emissivity of tungsten, and the inaugural measurement of vanadium's X-point emissivity. (3) Pioneeringly, X-point emissivity finds application in metal temperature measurement, exhibiting an accuracy 0.3 % superior to that of pyrometers. This research establishes an effective methodology for the model simulation of metal X-point emissivity and its application in radiation temperature measurement scenarios.

Published

2024

29. Malware traffic detection based on type II fuzzy recognition

Author

Weisha Zhang, Jiajia Liu, Jimin Peng, Qiang Liu, and Kun Yu

Subjects

traffic detection, Malware, fuzzy recognition, feature extraction, association rules, Physics, QC1-999

Abstract

In recent years, a surge in malicious network incidents and instances of network information theft has taken place, with malware identified as the primary culprit. The primary objective of malware is to disrupt the normal functioning of computers and networks, all the while surreptitiously gathering users’ private and sensitive information. The formidable concealment and latency capabilities of malware pose significant challenges to its detection. In light of the operational characteristics of malware, this paper conducts an initial analysis of prevailing malware detection schemes. Subsequently, it extracts fuzzy features based on the distinct characteristics of malware traffic. The approach then integrates traffic detection techniques with Type II fuzzy recognition theory to effectively monitor malware-related traffic. Finally, the paper classifies the identified malware instances according to fuzzy association rules. Experimental results showcase that the proposed method achieves a detection accuracy exceeding 90%, with a remarkably low false alarm rate of approximately 5%. This method adeptly addresses the challenges associated with malware detection, thereby making a meaningful contribution to enhancing our country’s cybersecurity.

Published

2024

30. Investigation on the microstructures, mechanical properties and impact initiation characteristics of Al/PTFE reactive materials reinforced by TiH2 particles

Author

Xiangchun Xu, Hongjie Fang, Qingchun Zhang, Juemin Song, Zheng Li, Junxue Bao, Daipeng Zeng, Gang Liu, Xiansheng Wang, and Kun Yu

Subjects

Energetic materials, Al/PTFE/TiH2, Dynamic mechanical properties, Impact reaction mechanism, Impact energy release, Mining engineering. Metallurgy, TN1-997

Abstract

Aluminum/Polytetrafluoroethylene (Al/PTFE) is a representative energetic material, which can be used in many fields including defense weapon fragments, insensitive penetrator or oil-well perforation. However, the insufficient mechanical strength of traditional ingredient has seriously restricted its penetration ability, and traditional additives improve its compressive strength at the expense of reactivity. Hence, innovative component design and advanced manufacturing technology should be applied to Al/PTFE composite. In this investigation, TiH2 as a new reinforcement is introduced into Al/PTFE to improve both strength and reactivity. Quasi-static and dynamic compressive tests were conducted, and the impact reaction process was recorded by high-speed camera. The results shown Al/PTFE/TiH2 composites are all elasto-plastic materials, significant strain hardening and strain rate hardening phenomenon were observed. The compressive strength increased first and then decreased with increase in TiH2 content, reached the maximum of 185.1 MPa at the strain rate of 5000 s−1 when TiH2 content was 30 %, which increased by 30.4 % compared to traditional Al/PTFE. A newly-developed drop-weight device was used to quantitatively characterize reactivity, and the reaction efficiency reached 8.2 % when TiH2 content was 30 %, increased by 43.2 % compared to Al/PTFE. The formation of oriented PTFE nano-fibers was considered the important strengthening mechanism. The established Johnson–Cook model was agreed well with experimental results. Combining the results of thermogravimetry-differential scanning calorimetry (TG-DSC) tests with X-ray diffraction (XRD) analysis of reaction residues, the reaction mechanism was clarified. The impact initiation reaction was in a mechano-chemical manner and the reactivity was speculated to be the results of multiple actions between Al/PTFE and TiH2.

Published

2023

31. PF4 induces inflammatory response through NF-kB signal pathway in rats with intracerebral haemorrhage

Author

Na Hu, Ran An, Kun Yu, Yanzhong Chang, and Weijuan Gao

Subjects

cerebral haemorrhage, pf4, nf-kb, inflammation, Medicine

Abstract

Intracerebral haemorrhage (ICH) is a lethal cerebrovascular disorder with a high mortality and morbidity. Although it is a major public health problem, there is no effective treatment for ICH. After ICH, the primary and secondary mechanisms are mentioned when discussing brain injury. The transcription factor, nuclear factor-kappa B (NF-kB), is an important regulator of inflammatory responses. The role of platelet factor 4 (PF4) in ICH is unclear. To study the effect of PF4 on inflammatory response of rats in ICH, a rat model of striatum ICH was established by injecting autologous blood from the autogenous femoral artery into the right striatum of rats. Forty-eight hours after ICH, the expression of PF4, NF-kB (P-P65) and inflammatory changes in rats were determined with WB and ELISA. Heme was used to induce PC12 cell damage, simulate the ICH model in vitro, and detect PF4, P-P65 and striatal inflammatory changes. Short hairpin RNA (shRNA-PF4) was used to knock-down the expression of PF4 in PC12 cells to detect changes in inflammatory factors. The results showed that 48 hours after surgery, the behavioural score of cerebral haemorrhage was the lowest. The expression of PF4 and P-P65 in the striatum of the ICH group was significantly higher compared with the sham surgery group. The expression of interleukin (IL)-6 and IL-1b in the ICH group was also greatly improved. After inhibiting NF-kB expression, PF4 expression was decreased. In short, ICH enhances the expression of PF4, which induces an inflammatory response in rats with cerebral haemorrhage through the NF-kB signalling pathway. Reducing the expression of PF4 can attenuate the inflammatory response.

Published

2023

32. Research on neural processes with multiple latent variables

Author

Xiao‐Han Yu, Shao‐Chen Mao, Lei Wang, Shi‐Jie Lu, and Kun Yu

Subjects

encoder–decoder, multiple latent variables, neural process, regression, Photography, TR1-1050, Computer software, QA76.75-76.765

Abstract

Abstract Neural Process (NP) fully combines the advantages of neural network and Gaussian Process (GP) to provide an efficient method for solving regression problems. Nonetheless, limited by the dimensionality of the latent variable, NP has difficulty fitting the observed data completely and predicting the targets perfectly. To remedy these drawbacks, the authors propose a concise and effective improvement of the latent path of NP, which the authors term Multi‐Latent Variables Neural Process (MLNP). MLNP samples multiple latent variables and integrates the representations corresponding to the latent variables in the decoder with adaptive weights. MLNP inherits the desirable property of linear computation scales of NP and learns the approximate distribution over objective functions from contexts more flexibly and accurately. By applying MLNP to 1‐D regression, real‐world image completion, which can be seen as a 2‐D regression task, the authors demonstrate its significant improvement in the accuracy of prediction and contexts fitting capability compared with NP. Through ablation experiments, the authors also verify that the number of latent variables has a great impact on the prediction accuracy and fitting capability of MLNP. Moreover, the authors also analyze the roles played by different latent variables in reconstructing images.

Published

2023

33. Improving Teaching and Learning in Higher Education through Machine Learning: Proof of Concept’ of AI’s Ability to Assess the Use of Key Microskills

Author

Christopher Dann, Shirley O’Neill, Seyum Getenet, Subrata Chakraborty, Khaled Saleh, and Kun Yu

Subjects

artificial intelligence, higher education, machine learning, microskills, reflective practice, Education

Abstract

Advances in artificial intelligence (AI), including intelligent machines, are opening new possibilities to support teaching and learning in higher education. This research has found a ‘proof of concept’ in the application of machine learning in the assessment of educators’ use of four key microskills, drawn from an internationally established framework. The analysis of teaching videos where these microskills were demonstrated multiple times in front of a green screen or in a space formed the data set. Multiple videos of this nature were recorded to allow for increased analysis and deconstruction of the video components to enable the application of machine learning. The results showed how AI can be used to support the collaborative and reflective practice of educators in a time when online teaching has become the norm. Having achieved a ‘proof of concept’, this research has laid the groundwork to allow for the whole framework of ten microskills to be applied in this way thus adding a new dimension to its use. Providing such critical information that is not currently available in such a systematic and personalised way to educators in the higher education sector can also support the validity of formative assessment practices.

Published

2024

34. Research on the Configuration of a 100% Green Electricity Supplied Zero-Carbon Integrated Energy Station

Author

Jieyu Xie, Xingying Chen, Kun Yu, Lei Gan, Haochen Hua, Bo Wang, and Yuelong Qu

Subjects

integrated energy station, 100% green electricity supply, configuration, electro-thermal storage synergy, virtual energy storage, Technology

Abstract

In the context of rapid growth in renewable energy installations and increasingly severe consumption issues, this paper designs a 100% green electricity supplied zero-carbon integrated energy station. It aims to analyze its configuration focusing on the following three core features: zero carbon emissions, 100% green electricity supply, and a centralized–distributed system structure. It discusses equipment selection and provides models for configuring upstream green electricity resources, power generation, energy storage, transformer, and energy conversion. The study examines the synergy between lithium-ion battery storage and modular molten salt thermal storage, along with the virtual energy storage characteristics formed by thermal load inertia, supported by mathematical models. Based on the data from a green electricity system in an Eastern Chinese city and typical load profiles, the paper validates a specific configuration for a 100% green electricity supplied zero-carbon integrated energy station, confirming model accuracy and calculating the required scale of upstream green electricity resources. It proves that establishing an electro-thermal storage synergy system is crucial for addressing the significant fluctuations in renewable energy output. It also argues that leveraging thermal load inertia to create virtual storage can reduce the investment in energy storage system construction.

Published

2024

35. Adaptive Bi-Directional LSTM Short-Term Load Forecasting with Improved Attention Mechanisms

Author

Kun Yu

Subjects

load forecast, clustering, bi-directional LSTM, attention mechanism, pattern recognition, Technology

Abstract

Special load customers such as electric vehicles are emerging in modern power systems. They lead to a higher penetration of special load patterns, raising difficulty for short-term load forecasting (STLF). We propose a hierarchical STLF framework to improve load forecasting accuracy. An improved adaptive K-means clustering algorithm is designed for load pattern recognition and avoiding local sub-optimal clustering centroids. We also design bi-directional long-short-term memory neural networks with an attention mechanism to filter important load information and perform load forecasting for each recognized load pattern. The numerical results on the public load dataset show that our proposed method effectively forecasts the residential load with a high accuracy.

Published

2024

36. Effects of Fresh Groundwater and Seawater Mixing Proportions and Salt-Freshwater Displacement on Coastal Aquifer Microbial Communities

Author

Lin Chen, Meng Ma, Xiao Li, Kun Yu, Chuanshun Zhi, Long Cheng, Hongwei Ma, Zhuo Wang, and Xin Qian

Subjects

domestication experiment, seawater intrusion, seawater mixing proportion, microbial community, salt-freshwater displacement, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

Seawater intrusion significantly affects the microbial communities within coastal aquifers. Investigating the spatial distribution of groundwater microbial communities in coastal regions is crucial for understanding seawater intrusion. The primary objective of this study is to develop a novel microbial index-based method for detecting seawater intrusion. Groundwater microbial samples were collected and sent to the laboratory in the west coastal area of Longkou City, Shandong Province. By characterizing the microbial community within the whole interval of seawater intrusion into fresh groundwater and discussing the effects of salt-freshwater displacement intensities on groundwater microbial communities, including diversity, structure, and function, using indoor domestication experiments, we reveal the response of microorganisms to the seawater intrusion process under in situ environmental conditions. The results show that the microbial community diversity is highest in environments with a seawater mixing proportion (P(sm)) of 2.5% and lowest in those with a P(sm) of 75%. When considering species abundance and evolutionary processes, the microbial community structure is similar at higher P(sm) levels, while it is similar at lower P(sm) levels based on the presence or absence of species. Tenericutes, Flavobacteriia, Rhodobacterales, Flavobacteriales, Rhodobacteraceae, Flavobacteriaceae, Cohaesibacteraceae, and Cohaesibacter are significantly positively correlated with the P(sm). Strong salt-freshwater displacement enhanced the richness and evenness of the microbial community, whereas weak displacement showed the opposite trend. Strong displacement affects the functional profiles of the microbial community. This study effectively addressed the challenge of obtaining samples in coastal areas and also incorporated salt-freshwater displacement intensities, which can more comprehensively describe the microbial community characteristics within the groundwater of coastal aquifers.

Published

2024

37. Increasing GSH-Px Activity and Activating Wnt Pathway Promote Fine Wool Growth in FGF5-Edited Sheep

Author

Xue-Ling Xu, Su-Jun Wu, Shi-Yu Qi, Ming-Ming Chen, Zhi-Mei Liu, Rui Zhang, Yue Zhao, Shun-Qi Liu, Wen-Di Zhou, Jin-Long Zhang, Xiao-Sheng Zhang, Shou-Long Deng, Kun Yu, Yan Li, and Zheng-Xing Lian

Subjects

FGF5, secondary hair follicle, proliferation, cortisol, antioxidant, Wnt, Cytology, QH573-671

Abstract

Fibroblast growth factor 5 (FGF5) plays key roles in promoting the transition from the anagen to catagen during the hair follicle cycle. The sheep serves as an excellent model for studying hair growth and is frequently utilized in various research processes related to human skin diseases. We used the CRISPR/Cas9 system to generate four FGF5-edited Dorper sheep and only low levels of FGF5 were detected in the edited sheep. The density of fine wool in GE sheep was markedly increased, and the proportion of fine wool with a diameter of 14.4–20.0 μm was significantly higher. The proliferation signal in the skin of gene-edited (GE) sheep was stronger than in wild-type (WT) sheep. FGF5 editing decreased cortisol concentration in the skin, further activated the activity of antioxidant enzymes such as Glutathione peroxidase (GSH-Px), and regulated the expression of Wnt signaling pathways containing Wnt agonists (Rspondins, Rspos) and antagonists (Notum) in hair regeneration. We suggest that FGF5 not only mediates the activation of antioxidant pathways by cortisol, which constitutes a highly coordinated microenvironment in hair follicle cells, but also influences key signals of the Wnt pathway to regulate secondary hair follicle (SHF) development. Overall, our findings here demonstrate that FGF5 plays a significant role in regulating SHF growth in sheep and potentially serves as a molecular marker of fine wool growth in sheep breeding.

Published

2024

38. Effect of laser shock peening on microstructure and mechanical properties of laser cladding 30CrMnSiNi2A high-strength steel

Author

Lingfeng Wang, Kun Yu, Xing Cheng, Tong Cao, and Liucheng Zhou

Subjects

Medicine, Science

Abstract

Abstract The effect of laser shock peening (LSP) on the microhardness and tensile properties of laser cladding (LC) 30CrMnSiNi2A high-strength steel was studied. After LSP, the microhardness of the cladding zone reached approximately 800 HV0.2, which was 25% higher than that of the substrate, while the cladding zone without LSP had an approximately 18% increase in its microhardness. Two strengthening processes were designed: groove LSP + LC + surface LSP versus LC + surface LSP. The former's tensile strength and yield strength were less than 10% weaker than those of forged materials, which is the best mechanical property recovery found in LC samples. The microstructural characteristics of the LC samples were analysed by scanning electron microscopy (SEM) and electron backscatter diffraction. Under the action of the laser-induced shock wave, the grain size of the LC sample surface was refined, the low-angle grain boundaries on the surface layer increased significantly, and the austenite grain length was reduced from 30–40 μm in the deep layer to 4–8 μm in the surface layer. In addition, LSP modulated the residual stress field, hence preventing the weakening effect of the LC process's thermal stress on the components' mechanical properties.

Published

2023

39. Hair cluster detection model based on dermoscopic images

Author

Ya Xiong, Kun Yu, Yujie Lan, Zeyuan Lei, and Dongli Fan

Subjects

hair loss, dermatoscope, hair cluster detection, feature fusion, dual attention module, Physics, QC1-999

Abstract

Introduction: Hair loss has always bothered many people, with numerous individuals potentially facing the issue of sparse hair.Methods: Due to a scarcity of accurate research on detecting sparse hair, this paper proposes a sparse hair cluster detection model based on improved object detection neural network and medical images of sparse hair under dermatoscope to optimize the evaluation of treatment outcomes for hair loss patients. A new Multi-Level Feature Fusion Module is designed to extract and fuse features at different levels. Additionally, a new Channel-Space Dual Attention Module is proposed to consider both channel and spatial dimensions simultaneously, thereby further enhancing the model’s representational capacity and the precision of sparse hair cluster detection.Results: After testing on self-annotated data, the proposed method is proven capable of accurately identifying and counting sparse hair clusters, surpassing existing methods in terms of accuracy and efficiency.Discussion: Therefore, it can work as an effective tool for early detection and treatment of sparse hair, and offer greater convenience for medical professionals in diagnosis and treatment.

Published

2024

40. Adaptation and validation of the university-to-work success scale among Chinese university graduates

Author

Qiuping Jin and Kun Yu

Subjects

university-to-work success, career adaptability, adult identity, measurement validation, university-to-work transition, Psychology, BF1-990

Abstract

IntroductionWhether university graduates successfully make the transition from the university to work is critical for their career development. However, a comprehensive measurement of university-to-work success (UWS) that applies across different contexts remains lacking.MethodsTo address this gap, we adapted and validated the first comprehensive UWS measurement, the university-to-work success scale (UWSS), among samples of Chinese university graduates with three studies. We also provided new construct validity evidence for the scale and examined its measurement invariance across gender.ResultsThe findings of the current study showed that the 24-item UWSS-Chinese version clearly showed four factors (career satisfaction, income and financial independence, confidence in career future, and adaptation to work) that were consistent with the original scale. Moreover, construct validity analysis revealed that UWSS was positively associated with proposed antecedents (i.e., career adaptability) and outcome (i.e., adult identity). It also showed incremental validity over general indicators of career success (i.e., career adaptability) in predicting adult identity establishment. Additionally, the measurement also showed measurement invariance across gender.DiscussionOverall, these findings implied that the UWSS-Chinese version had good psychometric properties to be used in future studies and practice in China.

Published

2023

41. A new trapdoor spider of Cyclocosmia Ausserer, 1871 from southern China (Araneae, Halonoproctidae)

Author

Kun Yu, Changze Li, Shuyuan Zhang, and Feng Zhang

Subjects

Opisthosomal disc, early stages of spiderling, mor, Biology (General), QH301-705.5

Abstract

The genus Cyclocosmia Ausserer, 1871 previously included ten species from North America and Asia, six of which have been recorded from China.A new species, Cyclocosmia ruyi Yu & Zhang sp. n., is described and diagnosed, based on both sexes from Guangxi Province, China. Morphological characters for the early stages of juveniles of the new species are also provided.

Published

2023

42. A two-stage hybrid biomarker selection method based on ensemble filter and binary differential evolution incorporating binary African vultures optimization

Author

Wei Li, Yuhuan Chi, Kun Yu, and Weidong Xie

Subjects

Feature selection, Ensemble filter method, Binary differential evolution, African vultures optimization, Microarray data, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background In the field of genomics and personalized medicine, it is a key issue to find biomarkers directly related to the diagnosis of specific diseases from high-throughput gene microarray data. Feature selection technology can discover biomarkers with disease classification information. Results We use support vector machines as classifiers and use the five-fold cross-validation average classification accuracy, recall, precision and F1 score as evaluation metrics to evaluate the identified biomarkers. Experimental results show classification accuracy above 0.93, recall above 0.92, precision above 0.91, and F1 score above 0.94 on eight microarray datasets. Method This paper proposes a two-stage hybrid biomarker selection method based on ensemble filter and binary differential evolution incorporating binary African vultures optimization (EF-BDBA), which can effectively reduce the dimension of microarray data and obtain optimal biomarkers. In the first stage, we propose an ensemble filter feature selection method. The method combines an improved fast correlation-based filter algorithm with Fisher score. obviously redundant and irrelevant features can be filtered out to initially reduce the dimensionality of the microarray data. In the second stage, the optimal feature subset is selected using an improved binary differential evolution incorporating an improved binary African vultures optimization algorithm. The African vultures optimization algorithm has excellent global optimization ability. It has not been systematically applied to feature selection problems, especially for gene microarray data. We combine it with a differential evolution algorithm to improve population diversity. Conclusion Compared with traditional feature selection methods and advanced hybrid methods, the proposed method achieves higher classification accuracy and identifies excellent biomarkers while retaining fewer features. The experimental results demonstrate the effectiveness and advancement of our proposed algorithmic model.

Published

2023

43. Active Fault-Locating Scheme for Hybrid Distribution Line Based on Mutation of Aerial-Mode Injected Pulse

Author

Zhuang Jiang, Xiangjun Zeng, Feng Liu, Kun Yu, Lanxi Bi, and Youpeng Wang

Subjects

hybrid distribution line, pulse injection, aerial-mode traveling wave, zero-mode traveling wave, active fault location, Technology

Abstract

Due to the overlap of initial traveling wave signals, the traveling wave propagation process in hybrid distribution lines is complicated to analyze. The most significant challenge posed by the traditional passive traveling wave-locating method for hybrid distribution lines lies in identifying the fault section and distinguishing the reflected wave from the fault point or the hybrid connection points. Based on this approach, with the application of the aerial-mode component of the pulse signal generated at the fault point, a fault-section-identification and fault-locating scheme for hybrid distribution feeders with active pulse injection is proposed. When power in a line is cut after a single-to-line ground (SLG) fault occurs, the same pulse is injected into the three phases from the neutral point of the coupling capacitor bank to construct the zero-mode component, which propagates to the SLG fault three-phase asymmetrical point, producing an aerial-mode component that is reflected back to the first end of the line. With the application of the arrival time of an aerial-mode wavefront, it is simple to locate the SLG fault for arbitrary forms of hybrid lines. The simulation results confirm the feasibility of the fault-locating scheme under different feeders, different fault locations, and fault resistances. The results of the experiments confirm the high practical value of the proposed method.

Published

2024

44. Purification and Biochemical Characterization of Polyphenol Oxidase Extracted from Wheat Bran (Wan grano)

Author

Kun Yu, Wei He, Xiaoli Ma, Qi Zhang, Chunxu Chen, Peiyan Li, and Di Wu

Subjects

wheat polyphenol oxidase, purification, biochemical characterization, Organic chemistry, QD241-441

Abstract

Currently, little is known about the characteristics of polyphenol oxidase from wheat bran, which is closely linked to the browning of wheat product. The wheat PPO was purified by ammonium sulfate precipitation, DEAE-Sepharose ion-exchange column, and Superdex G-75 chromatography column. Purified wheat PPO activity was 11.05-fold higher, its specific activity was 1365.12 U/mg, and its yield was 8.46%. SDS-PAGE showed that the molecular weight of wheat PPO was approximately 21 kDa. Its optimal pH and temperature were 6.5 and 35 °C for catechol as substrate, respectively. Twelve phenolic substrates from wheat and green tea were used for analyzing the substrate specificity. Wheat PPO showed the highest affinity to catechol due to its maximum Vmax (517.55 U·mL−1·min−1) and low Km (6.36 mM) values. Docking analysis revealed strong affinities between catechol, gallic acid, EGCG, and EC with binding energies of −5.28 kcal/mol, −4.65 kcal/mol, −4.21 kcal/mol, and −5.62 kcal/mol, respectively, for PPO. Sodium sulfite, ascorbic acid, and sodium bisulfite dramatically inhibited wheat PPO activity. Cu2+ and Ca2+ at 10 mM were considered potent activators and inhibitors for wheat PPO, respectively. This report provides a theoretical basis for controlling the enzymatic browning of wheat products fortified with green tea.

Published

2024

45. Application fruit tree hole storage brick fertilizer is beneficial to increase the nitrogen utilization of grape under subsurface drip irrigation

Author

Dongdong Yao, Jianli Yang, Haifeng Jia, Yufan Zhou, Qi Lv, Xujiao Li, Huanhuan Zhang, Phillip Fesobi, Huaifeng Liu, Fengyun Zhao, and Kun Yu

Subjects

fruit tree hole storage brick, grape, 15 N-urea, nitrogen absorption and distribution, subsurface drip irrigation, Plant culture, SB1-1110

Abstract

It is very important to promote plant growth and decrease the nitrogen leaching in soil, to improve nitrogen (N) utilization efficiency. In this experiment, we designed a new fertilization strategy, fruit tree hole storage brick (FTHSB) application under subsurface drip irrigation, to characterise the effects of FTHSB addition on N absorption and utilization in grapes. Three treatments were set in this study, including subsurface drip irrigation (CK) control, fruit tree hole storage brick A (T1) treatment, and fruit tree hole storage brick B (T2) treatment. Results showed that the pore number and size of FTHSB A were significantly higher than FTHSB B. Compared with CK, T1 and T2 treatments significantly increased the biomass of different organs of grape, N utilization and 15N content in the roots, stems and leaves, along with more prominent promotion at T1 treatment. When the soil depth was 15–30 cm, the FTHSB application significantly increased the soil 15N content. But when the soil depth was 30–45 cm, it reduced the soil 15N content greatly. T1 and T2 treatments obviously increased the activities of nitrite reductase (NR) and glutamine synthetase (GS) in grape leaves, also the urease activity(UR) in 30 cm of soil. Our findings suggest that FTHSB promoted plant N utilization by reducing N loss in soil and increasing the enzyme activity related to nitrogen metabolism. In addition, this study showed that FTHSB A application was more effective than FTHSB B in improving nitrogen utilization in grapes.

Published

2023

46. A planarized Mo/ZnS multilayer film for infrared stealth at high temperature

Author

Kun Yu, Yaoyi Wang, Wei Zhang, Peng Shen, Mengdan Qian, Yufang Liu, and Kaihua Zhang

Subjects

Pectral selective emission, Multilayer film, Infrared stealth, High-temperature resistance, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The ability to selectively emit in specific spectral bands, known as spectral selective emission, is highly valuable in thermal photovoltaic systems, infrared stealth, radiation heat dissipation, and other fields. This paper presents a planarized molybdenum/zinc sulfide (Mo/ZnS) multilayer film design to achieve infrared stealth under high temperatures. By utilizing the distinctive radiation characteristics of an ultra-thin Mo layer and impedance matching, selective emission in the infrared band can be achieved. The fabricated multilayer films have low emissivity in the atmospheric window (ε(3–5μm) = 0.19; ε(8–14μm) = 0.29), but high emissivity in the non-atmospheric window (ε(5–8μm) = 0.7). In addition to ensuring infrared stealth performance, the films can also withstand high temperatures up to 723K with good high-temperature resistance. Moreover, the proposed design has several advantages, including structural simplicity, ductility, and ease of mass production. This work could bring added convenience to many applications, including infrared stealth, in the future.

Published

2023

47. A comparative investigation of flexible arc suppression devices in distribution network

Author

Bishuang Fan, Nan Zheng, Xiangjun Zeng, Haihang Ma, Wen Wang, Kun Yu, and Chao Zhuo

Subjects

Electronics, TK7800-8360

Abstract

Abstract With the rapid development of social economy, power supply reliability of the distribution network has become particularly important. The distribution network has long been faced with problems such as overvoltage, single‐phase grounding failure and grounding protection. Passive, active, and hybrid arc suppression devices (ASDs) are proposed to solve these problems. Passive ASDs have the advantages of high reliability, low control complexity and good economic benefits, and have been widely used in distribution networks. With the wide application of power electronic components in distribution network, the active part and harmonic part of ground current, which cannot be effectively eliminated by passive ASDs, increase sharply. Therefore, an active arc suppression method is proposed. However, due to the high cost and low reliability of the active equipment, the hybrid ASD has better arc suppression effect. In this paper, the existing ASDs are reviewed, and specific simulation models are established to verify the principle and performance of three different ASDs. The advantages and disadvantages of the three ASDs are compared in detail, and the possible problems and research directions in the future research of arc suppression technology are prospected.

Published

2023

48. Low‐carbon operation method of the building based on dynamic carbon emission factor of power system

Author

Le Bu, Xingying Chen, Lei Gan, Kun Yu, Yue Zhou, Jiawei Cao, and Yuan Cao

Subjects

Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Abstract Energy conservation and carbon reduction in building energy is an important way to achieve the global goal of ‘carbon neutrality’. Common low‐carbon operation strategies of buildings rely on price incentives to guide users’ behaviour, which is difficult to make users aware of the impact of their energy consumption behaviour on carbon emissions. In this paper, the power system's dynamic carbon emission factors (CEF) were used to release information on energy consumption and carbon emission to building users. At the same time, the differential effects of building envelope and external temperature in the Building Information Modelling were considered. An optimisation method of building low‐carbon energy consumption strategy considering both the building and power carbon emission was established to improve the comprehensive carbon reduction ability of the building and power system. The simulation results show that the proposed method effectively coordinates the building virtual energy storage and demand response. By incorporating the dynamic energy carbon transaction cost into the objective function, the target signal of carbon reduction is transmitted to users so that the volatility of the renewable Energy and other random energy behaviours can be considered in the dynamic CEF.

Published

2023

49. Quantification of the three-dimensional root system architecture using an automated rotating imaging system

Author

Qian Wu, Jie Wu, Pengcheng Hu, Weixin Zhang, Yuntao Ma, Kun Yu, Yan Guo, Jing Cao, Huayong Li, Baiming Li, Yuyang Yao, Hongxin Cao, and Wenyu Zhang

Subjects

Automated imaging, Multi-view stereo, 3D root phenotyping, Global/local root trait, Root segmentation, Initial root angle, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Crop breeding based on root system architecture (RSA) optimization is an essential factor for improving crop production in developing countries. Identification, evaluation, and selection of root traits of soil-grown crops require innovations that enable high-throughput and accurate quantification of three-dimensional (3D) RSA of crops over developmental time. Results We proposed an automated imaging system and 3D imaging data processing pipeline to quantify the 3D RSA of soil-grown individual plants across seedlings to the mature stage. A multi-view automated imaging system composed of a rotary table and an imaging arm with 12 cameras mounted with a combination of fan-shaped and vertical distribution was developed to obtain 3D image data of roots grown on a customized root support mesh. A 3D imaging data processing pipeline was developed to quantify the 3D RSA based on the point cloud generated from multi-view images. The global architecture of root systems can be quantified automatically. Detailed analysis of the reconstructed 3D root model also allowed us to investigate the Spatio-temporal distribution of roots. A method combining horizontal slicing and iterative erosion and dilation was developed to automatically segment different root types, and identify local root traits (e.g., length, diameter of the main root, and length, diameter, initial angle, and the number of nodal roots or lateral roots). One maize (Zea mays L.) cultivar and two rapeseed (Brassica napus L.) cultivars at different growth stages were selected to test the performance of the automated imaging system and 3D imaging data processing pipeline. Conclusions The results demonstrated the capabilities of the proposed imaging and analytical system for high-throughput phenotyping of root traits for both monocotyledons and dicotyledons across growth stages. The proposed system offers a potential tool to further explore the 3D RSA for improving root traits and agronomic qualities of crops.

Published

2023

50. Skin Disease Segmentation Method Based on Network Feature Aggregation Module and Edge Enhanced Attention Mechanism

Author

Haoran Wang, Kun Yu, Songyuheng Gao, Qiangqiang Li, and Qianjun Guan

Subjects

Attention mechanism, SwinTransformer, RSUnet, Unet, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This article proposes a skin disease segmentation network RSUnet based on network feature aggregation module and edge enhanced attention mechanism. The network subject adopts an encoding decoding structure, dividing the left encoding layer into four layers according to the order of feature map resolution from large to small. Multiple convolutional layers are used to capture the contextual information of the lesion image and extract image features. Using ResNext as the backbone feature extraction network and SwinTransformer as the auxiliary feature extraction network, fully absorbing the advantages of CNN and Transformer. In order to better combine the two and improve the segmentation of skin disease images, which may include hair, blood vessels, bubbles, etc., causing errors in the segmentation results. Propose a network feature aggregation module and input it into the next layer of feature extraction convolutional block bottleneck in ResNext. Secondly, considering that the edge shape of skin diseases is variable and fuzzy, and the segmentation task is difficult, an edge enhancement attention mechanism is proposed to increase the weight allocation of edges and enhance the edge details of the lesion area. The RSUnet designed based on the above ideas achieved better Jaccard, accuracy, recall, and dice values on the ISIC2018 dataset for skin disease segmentation compared to neural networks such as Unet, Unet++, DeepLabV3+, PSPNet, and FPN.

Published

2023