Your search keyword '"Jingke Zhang"' showing total 157 results

1. Effects of superplasticizer on properties of calcined ginger nuts-based grouting material for earthen site cracks

Author

Xin Wen, Nan Wang, Jingke Zhang, Lixiang Zhang, Yanfei Wei, and Wenting Gu

Subjects

Earthen site, Calcined Ginger Nuts, Grouting material, Superplasticizer, Workability, Numerical simulation, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Grout injection is an effective technique for repairing cracks in earthen sites. This study aims to address the challenges of Calcined Ginger Nuts (CGN)-based grout and enhance its engineering performance by investigating the compatibility of different superplasticizers. We examined the effects of Polycarboxylate Superplasticizer (PCE) and Naphthalene Superplasticizer (PNS) on the properties of CGN-based grout, focusing on fluidity, rheological properties, mechanical strength, volume stability, color difference, and pore structure. The engineering applicability of the optimized CGN-based grout with superplasticizers was assessed using COMSOL Multiphysics. The results show that fluidity increased with higher dosages of PCE and PNS. The grout containing these superplasticizers behaved as a shear-thinning fluid, following the power law model. Specifically, the consistency coefficient of grout with 0.5 wt% PCE and PNS decreased by 39.73% and 64.83%, respectively. Additionally, 2.9 wt% PCE and PNS reduced volume shrinkage rate by 6.86% and 6.27%, respectively. Initially, increasing the dosage of PCE and PNS improved compressive and flexural strength, but these properties later declined. XRD analysis revealed that PNS above 1.1 wt% and PCE weakened the hydration reaction, while both superplasticizers promoted carbonation. Mercury Intrusion Porosimetry (MIP) showed that 1.1 wt% PCE and PNS reduced the proportion of capillary pores by 13.79% and 10.11%, respectively. Based on these findings, 0.5 wt% PNS demonstrated the best compatibility with CGN-based grout, whereas PCE showed poor compatibility. Numerical simulations using COMSOL Multiphysics confirmed that 0.5 wt% PNS provided superior grouting effectiveness. Therefore, the CGN based grout with 0.5wt% PNS demonstrates excellent engineering performance and applicability. This study offers valuable insights into optimizing CGN-based grout for the preservation of earthen sites.

Published

2024

2. An approach based on P-wave velocity for grouting effectiveness evaluation in earthen sites

Author

Weihao Li, Jingke Zhang, Nan Wang, Yichen Zhang, Bojia Qi, Jiayi Chen, and Xingduo Yin

Subjects

Earthen sites, P-wave velocity, Non-destructive testing, Grouting, Effectiveness evaluation, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Grouting technology is the primary method for repairing cracks in earthen sites. However, there has been a long-standing lack of effective methods for evaluating grouting effectiveness. This paper proposes a field evaluation method based on P-wave velocity. This method explicitly discusses two scenarios where the P-wave velocity of the grout is either higher or lower than that of the soil, using the depth ℎ of the “hypothetical crack” as the evaluation indicator. The experimental results indicate that specimens with 20% and 40% defects show increases in ℎ values of 0.0113 m and 0.0166 m, respectively. Laboratory tests have demonstrated that this method can accurately evaluate grouting effectiveness and is not affected by the P-wave velocity of the soil. The application of this evaluation method to three typical earthen sites resulted in more reliable and easily quantifiable evaluation outcomes. By considering the width of grout, the method provides a more intuitive comparison of reparation effectiveness. The study demonstrates the feasibility of the proposed method, thereby facilitating effective crack reparation in earthen sites.

Published

2024

3. Ancient architectural pathology of blue bricks and brick carvings in Northwest China: Example from the White Temple Tower

Author

Hao Zhang, Jingke Zhang, Lixiang Zhang, Yangwen Ying, Nan Wang, Dawei Li, and Hongsheng Xu

Subjects

Accelerate aging, The White Temple Tower, Blue brick carving, Weathering characteristics, Salt weathering, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Rising damp is one of the main problems affecting historical masonry structures worldwide, as it affects the appearance of heritage architecture and reduces strength. In this study, to reproduce the pathologies as much as possible and explain the mechanism, the aging test was set up with the climate data (temperature, humidity, etc.) derived from the real environment in nature at the location of the White Temple Tower, which was the object of this study. The tests mimicked the temperature, humidity, and types of salt solutions as closely as possible. Unlike the traditional aging test (producing specimens in accordance with some standards), two samples of blue brick carvings and blue brick cubes were used for the test. The results show that brick carvings suffered more severe surface degradation than brick cubes under various circumstances. Brick specimens' mechanical characteristics, such as wave velocity and compressive strength, were greatly diminished, and there was a fluctuating trend in surface hardness and color difference. The data indicate a size effect on the weathering between brick carvings and brick cubes, with the former displaying a faster rate of weathering under identical conditions. The experiment successfully simulates some of the phenomena observed in the field and provides an idea for studying the weathering of brick artifacts.

Published

2024

4. ER-MACG: An Extreme Precipitation Forecasting Model Integrating Self-Attention Based on FY4A Satellite Data

Author

Mingyue Lu, Jingke Zhang, Manzhu Yu, Hui Liu, Caifen He, Tongtong Dong, and Yongwei Mao

Subjects

extreme rainfall nowcasting, ER-MACG, FY4A, Zhejiang, Science

Abstract

Extreme precipitation events often present significant risks to human life and property, making their accurate prediction an essential focus of current research. Recent studies have primarily concentrated on exploring the formation mechanisms of extreme precipitation. Existing prediction methods do not adequately account for the combined terrain and atmospheric effects, resulting in shortcomings in extreme precipitation forecasting accuracy. Additionally, the satellite data resolution used in prior studies fails to precisely capture nuanced details of abrupt changes in extreme precipitation. To address these shortcomings, this study introduces an innovative approach for accurately predicting extreme precipitation: the multimodal attention ConvLSTM-GAN for extreme rainfall nowcasting (ER-MACG). This model employs high-resolution Fengyun-4A(FY4A) satellite precipitation products, as well as terrain and atmospheric datasets as inputs. The ER-MACG model enhances the ConvLSTM-GAN framework by optimizing the generator structure with an attention module to improve the focus on critical areas and time steps. This model can alleviate the problem of information loss in the spatial–temporal convolutional long short-term memory network (ConvLSTM) and, compared with the standard ConvLSTM-GAN model, can better handle the detailed changes in time and space in extreme precipitation events to achieve more refined predictions. The main findings include the following: (a) The ER-MACG model demonstrated significantly greater predictive accuracy and overall performance than other existing approaches. (b) The exclusive consideration of DEM and LPW data did not significantly enhance the ability to predict extreme precipitation events in Zhejiang Province. (c) The ER-MACG model significantly improved in identifying and predicting extreme precipitation events of different intensity levels.

Published

2024

5. Enhanced Winter Wheat Seedling Classification and Identification Using the SETFL-ConvNeXt Model: Addressing Overfitting and Optimizing Training Strategies

Author

Chuang Liu, Yuanyuan Yin, Rui Qian, Shuhao Wang, Junjie Xia, Jingke Zhang, and Liqing Zhao

Subjects

transfer learning, pre-training–fine-tuning, winter wheat greening period, Agriculture

Abstract

The growth status of winter wheat seedlings during the greening period is called the seedling situation. Timely and accurate determinations of the seedling situation type are important for subsequent field management measures and yield estimation. To solve the problems of low-efficiency artificial classification, subjective doping, inaccurate classification, and overfitting in transfer learning in classifying the seedling condition of winter wheat seedlings during the greening period, we propose an improved ConvNeXt winter wheat seedling status classification and identification network based on the pre-training–fine-tuning model addressing over-fitting in transfer learning. Based on ConvNeXt, a SETFL-ConvNeXt network (Squeeze and Excitation attention-tanh ConvNeXt using focal loss), a winter wheat seedling identification and grading network was designed by adding an improved SET attention module (Squeeze and Excitation attention-tanh) and replacing the Focal Loss function. The accuracy of the SETFL-ConvNeXt reached 96.68%. Compared with the classic ConvNeXt model, the accuracy of the Strong class, First class, and Third class increased by 1.188%, 2.199%, and 0.132%, respectively. With the model, we also compared the effects of different optimization strategies, five pre-training-fine-tuning models, and the degree of change in the pre-trained model. The accuracy of the fine-tuning models trained in the remaining layers increased by 0.19–6.19% using the last three frozen blocks, and the accuracy of the pre-trained model increased by 3.1–8.56% with the least degree of change method compared with the other methods. The SETFL-ConvNeXt network proposed in this study has high accuracy and can effectively address overfitting, providing theoretical and technical support for classifying winter wheat seedlings during the greening period. It also provides solutions and ideas for researchers who encounter overfitting.

Published

2024

6. Measurement and evaluation method of radar anti-jamming effectiveness based on principal component analysis and machine learning

Author

Liangwei Qi, Jingke Zhang, Zong-Feng Qi, Lu Kong, and Yu Tang

Subjects

Bipartite covering array, Machine learning, Measurement and evaluation, Principal component analysis, Radar jamming effectiveness, Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

Abstract With the development of modern electronic countermeasure technology, the fight between radar jamming and anti-jamming has become increasingly fierce. Experts have done a lot of highly effective work on radar anti-jamming performance. However, the emergence of various new complex interferences has rendered existing methods unable to meet the needs. In this manuscript, we consider the measurement and evaluation method of radar anti-jamming effectiveness based on principal component analysis and machine learning. Firstly, taking into account the diversity of variables in radar countermeasure experiments and the complexity of constraints between variables, we propose a bipartite covering array for the experimental scheme, which requires that each level combination of any radar parameter and jammer parameter occurs at least once, to ensure the rationality of the experiments. Secondly, according to the characteristics of multiple jammers and the analysis of impacts on radar performances, we combine the existing indicators and use the principal component analysis method to obtain two comprehensive indicators, which better reflect radar performances. Finally, we select the best model as a prediction for radar comprehensive indicators by comparing several machine learning algorithm models, including classification and regression tree, random forest, xgboost, and SVM. Additional experiments verify the effectiveness of the resulted model.

Published

2023

7. Potential pharmacological mechanisms of tanshinone IIA in the treatment of human neuroblastoma based on network pharmacological and molecular docking Technology

Author

Ning Tang, Yan Wang, Jiarui Miao, Yang Zhao, Yue Cao, Wentao Sun, Jingke Zhang, Hua Sui, and Bing Li

Subjects

neuroblastoma, tanshinone IIA, network pharmacology, molecular docking, gene ontology, Therapeutics. Pharmacology, RM1-950

Abstract

Tanshinone IIA (Tan-IIA) is the main bioactive component of Chinese herbal medicine salvia miltiorrhiza (Danshen). Sodium sulfonate of Tan-IIA is widely used in the treatment of cardiovascular and cerebrovascular diseases. Tan-IIA also has inhibitory effects on tumor cells such as gastric cancer, but its therapeutic effect and mechanism on human neuroblastoma have not been evaluated, so its pharmacological mechanism is systematically evaluated by the combined method of network pharmacology and molecular docking. PharmMapper and SwissTargetPrediction predicted 331 potential Tan-IIA-related targets, and 1,152 potential neuroblastoma-related targets were obtained from GeneCards, DisGeNET, DrugBank, OMIM and Therapeutic Target databases (TTD), 107 common targets for Tan-IIA and neuroblastoma. Through gene ontology (GO) functional annotation, Kyoto Encyclopedia of Genes and Genomesa (KEGG) pathway enrichment, protein-protein interaction (PPI) network and cytoHubba plug-in, 10 related signal pathways (Pathways in cancer, PI3K-Akt signaling pathway, Prostate cancer, etc.) and 10 hub genes were identified. The results of molecular docking showed that Tan-IIA could interact with 10 targets: GRB2, SRC, EGFR, PTPN1, ESR1, IGF1, MAPK1, PIK3R1, AKT1 and IGF1R. This study analyzed the related pathways and targets of Tan-IIA in the treatment of human neuroblastoma, as well as the potential anticancer and anti-tumor targets and related signaling pathways of Tan-IIA, which provides a reference for us to find and explore effective drugs for the treatment of human neuroblastoma.

Published

2024

8. Impact of Level 4 Automated Vehicles on Mode Choice Using a Needs-Based Approach

Author

Chen Zhijian, Ge Ying-En, Shikun Liu, Jiandong Qiu, Jingke Zhang, and Jing Kang

Subjects

Transportation engineering, TA1001-1280, Transportation and communications, HE1-9990

Abstract

With the emergence of Level 4 automated vehicles, it is necessary to investigate the impact of these vehicles on mode choice. Previous studies have looked at the potential benefits and drawbacks of automated vehicles, but there has been little research done on how these vehicles will impact individuals’ travel behaviors. This paper proposes a needs-based approach to study the impact of Level 4 automated vehicles on mode choice. The approach takes into consideration the travel needs of different individuals and their willingness to adopt new technologies. Through a stated preference survey in China, the data on travel preferences and the perceived safety levels of automated vehicles can be collected. Then, a model is built to simulate the adoption of Level 4 automated vehicles and estimate the mode split for different scenarios. The results indicated that private AV modes are preferred, and business and nonwork trips may be the targeted market for all AV modes. Overall, value of automation increases with income for private modes, with large variance. Furthermore, Pro-AV attitude has a positive effect on value of automation, especially for self-owned AV and AV subscription. Accordingly, the needs-based approach demonstrates a promising method to study the impact of new technologies on travel behaviors and provides insights for policy makers to promote more sustainable transportation systems.

Published

2024

9. A rigid–flexible coupling finite element model of coupler for analyzing train instability behavior during collision

Author

Jingke Zhang, Tao Zhu, Bing Yang, Xiaorui Wang, Shoune Xiao, Guangwu Yang, Yanwen Liu, and Quanwei Che

Subjects

Intermediate coupler, Rigid–flexible coupling finite element model, Design buckling load, Actual buckling load, Lateral buckling instability, Railroad engineering and operation, TF1-1620

Abstract

Abstract Rail vehicles generate huge longitudinal impact loads in collisions. If unreasonable matching exists between the compressive strength of the intermediate coupler and the structural strength of the car body, the risk of car body structure damage and train derailment will increase. Herein, a four-stage rigid–flexible coupling finite element model of the coupler is established considering the coupler buckling load. The influence of the coupler buckling load on the train longitudinal–vertical–horizontal buckling behavior was studied, and the mechanism of the train horizontal buckling instability in train collisions was revealed. Analysis results show that an intermediate coupler should be designed to ensure that the actual buckling load is less than the compressive load when the car body structure begins to deform plastically. The actual buckling load of the coupler and the asymmetry of the structural strength of the car body in the lateral direction are two important influencing factors for the lateral buckling of a train collision. If the strength of the two sides of the car body structure in the lateral direction is asymmetrical, the deformation on the weaker side will be larger, and the end of the car body will begin to deflect under the action of the coupler force, which in turn causes the train to undergo sawtooth buckling.

Published

2023

10. Ultrasound‐targeted microbubble destruction mediates PDE5i/NO integration for cavernosum remodeling and penile rehabilitation

Author

Wende Yang, Chen Qiu, Jiancheng Zhai, Wei Zhang, Chengwu Huang, Jun Shao, Jingke Zhang, Shigao Chen, Xiaoyan Miao, Peng Chen, Bo Wei, Jie Ren, and Hongbo Wei

Subjects

erectile dysfunction, microbubble, penile rehabilitation, UTMD, Chemical engineering, TP155-156, Biotechnology, TP248.13-248.65, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Erectile dysfunction (ED) caused by cavernous nerve injury (CNI) is refractory to heal mainly ascribed to the adverse remodeling of the penis induced by ineffectual microvascular perfusion, fibrosis, and neurotrophins scarcity in cavernosum. Phosphodiesterase type V inhibitors (PDE5i) have been regarded as an alternative candidate drug for avoiding penile neuropathy. However, the therapeutic efficacy is severely limited due to poor accumulation under systemic medication and endogenous nitric oxide (NO) deficiency in cavernosum. Herein, an innovative liposomal microbubble (MB) loaded with both Sildenafil (one of PDE5i) and NO was designed. Ultrasound‐targeted MB destruction (UTMD)‐mediated efficient release and integration erectogenic agents into corpus cavernosum with high biosafety. On a bilateral CNI rat model, the multifunctional MB‐cooperated UTMD improved microvascular perfusion in penis, simultaneously, alleviated hypoxia and oxidative stress, indicating successful activation of NO–cyclic guanosine monophosphate pathway. Also, evaluation of the endothelial/muscular composition, intracavernosal pressure, and neural integrity in the penis proved that coordinated intervention reversed the abnormal structural remodeling and promoted the recovery of functional erection. Our work demonstrates that MB loading Sildenafil and NO combined with UTMD hold great promise to “awaken” the efficacy of PDE5i in neurogenic ED, which provided a superior option for ensuring penile rehabilitation.

Published

2023

11. Nonlinear Dynamic Mechanical Characteristics of Air Springs Based on a Fluid–Solid Coupling Simulation Method

Author

Yuru Li, Shoune Xiao, Junke Xie, Tao Zhu, and Jingke Zhang

Subjects

air spring, nonlinear characteristics, numerical simulation, dynamic characteristics, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The use of air springs has become widespread in various industries due to their exceptional superelastic properties; however, their strong nonlinear characteristics have become a hindrance to numerical simulations of air springs and have garnered increasing attention. This paper examined the nonlinear dynamic mechanical characteristics of air springs from a fluid–structure interaction perspective and verified the accuracy of the simulation analysis model through quasistatic tension and compression experiments. The average relative errors for air spring load and gas pressure were found to be 8.1% and 7.7%, respectively, which supports the validity of the model. The impact of frequency and amplitude excitations on the axial load characteristics of air springs was investigated through tension and torsion testing. The results showed that increasing the excitation frequency improves the stability of the axial load, while increasing the excitation amplitude enhances the axial load value. The change in axial compression was found to be more significant than that in axial tension, as it was affected not only by the axial load but also by the radial load, which is a key factor affecting the dynamic characteristics of air springs. A radial load analysis model was established to study the influence of frequency and amplitude excitations on the axial load characteristics of air springs. The simulation results indicated that under different amplitudes, the radial load of air springs goes through four stages: a steady period, rising period, steady period, and falling period. Additionally, under the same amplitude, the radial load value increases with an increase in frequency. This research on the dynamic load characteristics of air springs under amplitude and frequency excitations is important for their application in low-frequency and low-amplitude vibration environments, and its findings can be utilized to improve the technical parameters of air springs for suspension damping.

Published

2023

12. Multiple-Beam Steering Using Graphene-Based Coding Metasurfaces

Author

Bin Zheng, Xin Rao, Yuyu Shan, Chuandong Yu, Jingke Zhang, and Na Li

Subjects

antenna, beam manipulation, coding metasurfaces, graphene, Mechanical engineering and machinery, TJ1-1570

Abstract

Recently, the coding metasurface has gained significant attention due to its exceptional potential in controlling electromagnetic (EM) waves with the rapid development of wireless communication systems. Meanwhile, graphene shows tremendous promise for the implementation of reconfigurable antennas due to its high tunable conductivity and its unique property that makes it a very suitable material for realizing steerable coded states. In this paper, we first propose a simple structured beam reconfigurable millimeter wave (MMW) antenna using a novel graphene-based coding metasurface (GBCM). Different from the previous method, its coding state can be manipulated by altering the sheet impedance of graphene instead of bias voltage. Then, we design and simulate several most popular coding sequences, including dual-, quad-and single-beam-generated implement, 30° beam deflection, as well as a random coding sequence for radar cross-section (RCS) reduction. The theoretical and simulation results show that graphene has great potential for MMW manipulation applications, which lay a foundation for the subsequent development and fabrication of GBCM.

Published

2023

13. Effect of Sulfate on the Aggregation of Clay Particles in Loess

Author

Liuyang Gu, Jingke Zhang, Lianxing Guo, and Qingfeng Lv

Subjects

sulfate, aggregation, Atterberg limits, microstructure, macroscopic characterization, Science

Abstract

The type and structure of clay minerals are among the main factors affecting the physical and mechanical properties of loess, and the salt content plays a dominant role in many factors affecting aggregation. In this study, the grain size analysis, Atterberg limits tests, scanning electron microscopy (SEM), and energy spectrum analysis (EDS) were used to explore the microstructure and physicochemical mechanisms of the aggregation of clay particles. Finally, the unconfined compressive test, direct shear test, and elastic wave velocity test were conducted to explore the effect of sulfate agglomeration on loess properties. The results show that the salt-washing process leads to the loss of the original soluble salt, dispersion of the original aggregates, and increase of fine particles, such as fine silt and clay. With the increase of sulfate content, the content of fine silt and clay decreases, the liquid limit and plasticity index decrease, the plasticity limit remains unchanged, the aggregate content of fine silt and clay increases, the adsorption capacity weakens, and the diffusion layer compresses and thins. The mechanical test results show that when the sulfate content is less than 3%, the sulfate is almost completely dissolved and the aggregate is less, which increases compressive strength and the cohesion; when the sulfate content is more than 3%, too much sulfate cannot be dissolved and precipitated; hence, the aggregate increases. However, the existence of large volume mirabilite crystals reduces the cementation, which reduces the compressive strength, increases the internal friction angle, and weakens the cohesion.

Published

2022

14. Two-Dimensional Barrage Jamming against SAR Using a Frequency Diverse Array Jammer

Author

Jingke Zhang, Yonghu Zeng, Zongfeng Qi, Liandong Wang, Ya Wang, and Xujian Shen

Subjects

synthetic aperture radar (SAR), frequency diverse array (FDA), frequency offset, micro-motion modulation, barrage jamming, Chemical technology, TP1-1185

Abstract

Due to the modulation of tiny frequency offset on the array elements, a frequency diverse array (FDA) jammer can generate multiple range-dimension point false targets, and many deception jamming methods against SAR using an FDA jammer have been studied. However, the potential of the FDA jammer to generate barrage jamming has rarely been reported. In this paper, a barrage jamming method against SAR using an FDA jammer is proposed. To achieve two-dimensional (2-D) barrage effect, the stepped frequency offset of FDA is introduced to generate range-dimensional barrage patches, and the micro-motion modulation is employed to increase the extent of barrage patches along the azimuth direction. Mathematical derivations and simulation results demonstrate the validity of the proposed method in generating flexible and controllable barrage jamming.

Published

2023

15. Comparison of the retrieving precision of potato leaf area index derived from several vegetation indices and spectral parameters of the continuum removal method

Author

Shanjun Luo, Yingbin He, Zhuozhuo Wang, Dingding Duan, Jingke Zhang, Yuantao Zhang, Yaqiu Zhu, Jinkuan Yu, Shengli Zhang, Fei Xu, Jing Sun, Zhongcai Han, and Weihua Jiao

Subjects

retrieving, leaf area index, continuum removal method, regression analysis, vegetation index, potato, Oceanography, GC1-1581, Geology, QE1-996.5

Abstract

Leaf area index (LAI) is one of the important variables for crop growth monitoring and yield estimating. In this article, the potato LAI was retrieved by several vegetation indices (VIs) and spectral parameters of the continuum removal method (SPCRM) to provide accurate estimates. A comparison of the two methods of retrieving precision was completed. The data source for computing VIs and SPCRM was hyperspectral reflectance data for the life cycle, derived from two potato cultivars, Favorite (early maturing variety) and Yanshu 4 (late maturing variety), through field experiments. Sensitive bands were identified to indicate seven VIs by correlation analysis. Additionally, seven SPCRM were computed. Based on these methods, the potato LAI was retrieved and tested. Meanwhile, a comparison of the retrieving precision was implemented. The results showed that compared with the filtered spectral reflectance and VIs, the correlation between the potato LAI and the continuum removal spectral reflectance and its retrieved SPCRM were higher. The determination coefficients (R2) of the retrieving models of four parameters, the total area (S), the left area (Sl), the right area (Sr) and the depth area ratio (W), derived from the continuum removal method were all above 0.801, and their fitting coefficients (r) were all above 0.868, with the mean relative errors (MRE) all

Published

2019

16. Anti-Pulmonary Fibrosis Activities of Triterpenoids from Oenothera biennis

Author

Juanjuan Liu, Jingke Zhang, Mengnan Zeng, Meng Li, Shuangshuang Xie, Xiaoke Zheng, and Weisheng Feng

Subjects

Oenothera biennis L., triterpenoids, anti-pulmonary fibrosis activities, BEAS-2B cells, RTCA, Organic chemistry, QD241-441

Abstract

Five new triterpenoids, oenotheralanosterols C-G (1–5), with seven known triterpenoidcompounds, namely 2α,3α,19α-trihydroxy-24-norurs4,12-dien-28-oic acid (6), 3β,23-dihydroxy-1-oxo-olean-12-en-28-oic acid (7), remangilone C (8), knoxivalic acid A (9), termichebulolide (10), rosasecotriterpene A (11), androsanortriterpene C (12), were extracted and separated from the dichloromethane part of Oenothera biennis L. The anti-pulmonary fibrosis activities of all the compounds against TGF-β1-induced damage tonormal human lung epithelial (BEAS-2B) cells were investigated in vitro. The results showed that compounds 1–2, 6, 8, and 11 exhibited significant anti-pulmonary fibrosis activities, with EC50 values ranging from 4.7 μM to 9.9 μM.

Published

2022

17. Research on Calculation Method for Maximum Mean Acceleration in Longitudinal Train Collision

Author

Jingke Zhang, Xiaorui Wang, Tao Zhu, Bing Yang, Shoune Xiao, Guangwu Yang, Yanwen Liu, and Benhuai Li

Subjects

Physics, QC1-999

Abstract

A large number of numerical simulations are required to design an energy absorption scheme for train crashworthiness, leading to low design efficiency in the early stage. Based on train collision dynamics theory and the finite element method, a dynamic finite element model of longitudinal train collision is established. According to the model, we studied the acceleration time-history characteristics during the train collision process, obtained the mean-peak ratio coefficient, and determined the calculation formula for the maximum mean acceleration of a longitudinal train collision. Through characteristic analysis of the vehicle acceleration, interface force, and other parameters during a longitudinal train collision, the calculation method of the mean acceleration was improved. The analysis shows that the maximum mean acceleration depends on two stages in the collision process: (1) the coupler action of the head vehicle: the mean-peak ratio coefficient of the head vehicle is 0.7 in this stage, and the mean-peak ratio coefficient of other vehicles is 0.43; (2) the coupler of the collision interface is cut off, and the energy absorption devices of the head vehicle or intermediate vehicle absorb energy; the mean-peak ratio coefficient of the vehicle is 0.93 in this stage. On this basis, a mathematical function is established describing the mean acceleration of the vehicle and the average crushing force of the coupler collapse tube and the energy-absorbing device. The calculation formula is obtained for the maximum mean acceleration of the longitudinal train collision, and the results are compared with the mean acceleration obtained by numerical simulation. The Kruskal–Wallis ANOVA multisample independent nonparametric test was conducted to verify the reliability of the calculation results in the 95% confidence interval. The calculation formula can be used to calculate the maximum mean acceleration in the energy allocation stage of train crashworthiness design to effectively improve the efficiency of train collision energy allocation.

Published

2021

18. Four New Benzoylamide Derivatives Isolated from the Seeds of Lepidium apetalum Willd. and Ameliorated LPS-Induced NRK52e Cells via Nrf2/Keap1 Pathway

Author

Meng Li, Beibei Zhang, Mengnan Zeng, Jingke Zhang, Zhiguang Zhang, Weisheng Feng, and Xiaoke Zheng

Subjects

Lepidium apetalum Willd. seeds, benzoylamide derivatives, NRK-52e cell, LPS, Nrf2/Keap1 pathway, Organic chemistry, QD241-441

Abstract

Four new benzoylamide derivatives, lepidiumamide B–E (1–4), were isolated from the seeds of Lepidium apetalum Willd. The structures were determined by a combination of MS and NMR analyses. All compounds were evaluated for their protective effects against NRK-52e cell injury induced by lipopolysaccharide (LPS) in vitro. These compounds showed significantly protective activity and ameliorated LPS-induced NRK52e cells via the Nrf2/Keap1 pathway. The discovery of these active compounds is important for the prevention and treatment of renalinjury.

Published

2022

19. Numerical simulation of the behaviors of test square for prehistoric earthen sites during archaeological excavation

Author

Xudong Wang, Zongren Yu, Jingke Zhang, Qinglin Guo, Shanlong Yang, and Manli Sun

Subjects

Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

During the process of archaeological excavation in the regions of Southeast China, collapse of test square usually occurs due to poor site-specific conditions. In this paper, the fast Lagrangian analysis of continua in three dimensions (FLAC3D) is employed to reveal the behaviors of test square. Taking the archaeological works in Liangzhu prehistoric earthen sites as the research background, the paper first introduces the geological setting, excavation procedure and monitoring scheme of the studied test square. Then, the deformation of four sides of the test square is modeled using FLAC3D. By comparison, it shows that the numerical results are consistent with the results from field monitoring. The result suggests that the numerical simulation can be effectively applied to representing the actual behaviors of the test square, which is helpful for determination of excavation scheme and stability evaluation of the test square during archaeological excavation. Keywords: Prehistoric earthen site, Archaeological excavation, Test square behaviors, Field monitoring, Numerical simulations

Published

2018

20. A modified calculation model for the saturation-dependent thermal conductivity of fine-textured soils

Author

Jun Bi, Wenwu Chen, Jingke Zhang, Yingmin Zhang, Wenjun Fan, and Bobo Jia

Subjects

Physics, QC1-999

Abstract

Thermal conductivity of soils is an important parameter in heat and water transfer analysis of soils. Here, a modified model was proposed to calculate the saturation-dependent thermal conductivity of fine-textured soils from the completely dry condition to the full water saturation. In the study, we developed a new parallel-series model for calculating the thermal conductivity of soils at the completely dry condition with a weighting parameter. The weighting parameter can be calculated using the ratio of the thermal conductivity of air to the thermal conductivity of solid grains. We also proposed a simplified equation to calculate the parameter a of the model proposed by Bi et al. using sand content and thermal conductivity of soils at the full water saturation. Substituting the new parallel-series model and the simplified equation for the parameter a into the model proposed by Bi et al., yielding the modified model. The modified model was evaluated with 14 soil samples. Results show that the modified model could well estimate the thermal conductivity from the completely dry condition to the full water saturation. Keywords: Thermal conductivity, Saturation-dependent, Parallel-series model, Weighting parameter

Published

2019

21. Deceptive jamming against multi-channel SAR-GMTI

Author

Jingke Zhang, Zongfeng Qi, Yonghu Zeng, and Liandong Wang

Subjects

synthetic aperture radar, radar clutter, jamming, radar imaging, radar interferometry, image motion analysis, object detection, interference suppression, multichannel sar-gmti, three-channel clutter suppression, deceptive moving target, deceptive jamming, synthetic aperture radar ground moving target indication, signal model, interferometry processing, false moving targets, controllable radial velocity, located azimuth position, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Aimed at the problem that the deceptive jamming against synthetic aperture radar ground moving target indication generated by single jammer cannot work effectively in multi-channel SAR, a novel deceptive jamming against multi-channel SAR-GMTI based on two jammers is studied. First, signal model of the novel deceptive jamming is built. Then, based on three-channel clutter suppression and interferometry processing, the amplitude and interferometric phase of deceptive moving target generated by the novel deceptive jamming are derived. Last, simulation experiment validates that the novel deceptive jamming can generate false moving targets with the controllable radial velocity and located azimuth position in the multi-channel SAR.

Published

2019

22. Experimental and Simulation Studies on the Compressive Properties of Brazed Aluminum Honeycomb Plates and a Strength Prediction Method

Author

Lanxin Jiang, Shoune Xiao, Jingke Zhang, Ruijuan Lv, Bing Yang, Dawei Dong, Guangwu Yang, and Tao Zhu

Subjects

brazed aluminum honeycomb plate, out-of-plane compression, in-plane compression, Mining engineering. Metallurgy, TN1-997

Abstract

To study the compressive mechanical properties of a new type of brazed aluminum honeycomb plate (BAHP), tensile tests on single- and brazed-cell walls as well as compression tests in the out-of-plane, in-plane longitudinal, and transverse directions were conducted. Compared to the material properties of a traditional glued aluminum honeycomb plate (GAHP), those of the single- and brazed-cell walls of the BAHP are entirely different. Therefore, their characteristics should be considered separately when performing theoretical and simulation analysis. Under out-of-plane compression, the core of the BAHP did not debond, owing to its higher strength than that of the GAHP. In comparison, under in-plane compression in the longitudinal and transverse directions, the load–displacement characteristics, ultimate load, and failure modes also differed, and there was no large-scale cracking. Considering the characteristics of the BAHP, a strength prediction method was proposed. The simulation results demonstrated that the model built based on the new method was highly consistent with the experimental results. Defects with uneven height and debonding will cause the overall instability, and the degree of defects will influence the strength and instability displacement, which have little impact on the elastic stage. Moreover, the model considering defects is closer to the test results.

Published

2020

23. Direction-of-arrival estimation for partially polarised signals with switch-based multi-polarised uniform linear array.

Author

Yujian Pan, Jingke Zhang, and Zongfeng Qi

Published

2022

24. Channel estimation for hybrid mmWave massive MIMO via low rank Hankel matrix reconstruction.

Author

Yujian Pan, Zongfeng Qi, Jingke Zhang, and Feng Wang

Published

2022

25. An Adaptive Multilook Approach of Multitemporal Interferometry Based on Complex Covariance Matrix for SAR Small Datasets.

Author

Jingke Zhang, Huina Song, Mengyuan Wang, Zhaoyang Qiu, Xuyang Teng, and Qi Zhang

Published

2022

26. Study on the Data Storage Technology of Mini-Airborne Radar Based on Machine Learning.

Author

Haishan Tian, Qiong Yang, Huabing Wang, and Jingke Zhang

Published

2023

27. A Novel Algorithm of Radar Emitter Identification Based Convolutional Neural Network and Random Vector Functional-Link.

Author

Zhiwen Zhou, Jingke Zhang, and Taotao Zhang

Published

2019

28. Damage Assessment of Earthen Sites of the Ming Great Wall in Qinghai Province: A Comparison between Support Vector Machine (SVM) and BP Neural Network.

Author

Yumin Du, Wenwu Chen, Kai Cui, Jingke Zhang, Zhuo Chen, and Qiyong Zhang

Published

2020

29. Finite Element Analysis of Tensile Properties for Single-Strap Butt Joint of Carbon Fiber Reinforced Composite.

Author

Lanxin Jiang, Shoune Xiao, Bing Yang, Guangwu Yang, Tao Zhu, Dawei Dong, and Jingke Zhang

Published

2019

30. miRNA-142-3p aggravates hydrogen peroxide-induced human umbilical vein endothelial cell premature senescence by targeting SIRT1.

Author

Pengfei Tong, Jingke Zhang, Shuang Liu, Jiyang An, Gehan Jing, Laifeng Ma, Ruihua Wang, and Zhengfeng Wang

Subjects

*CELLULAR aging, *UMBILICAL veins, *SIRTUINS, *ENDOTHELIAL cells, *VASCULAR endothelial cells, *P16 gene

Abstract

Vascular endothelial cell premature senescence plays an important part in stroke. Many microRNAs (miRNAs) are known to be involved in the pathological process of vascular endothelial cell premature senescence. The present study aimed to investigate the mechanism of hydrogen peroxide (H~2O2)-induced premature senescence in human umbilical vein endothelial cells (HUVECs) and effect of miR-142-3p on hydrogen peroxide (H2O2)-induced premature senescence. HUVECs were exposed to H2O2 to establish a model premature senescence in endothelial cells. CCK-8 assay was performed to detect cell viability. Senescence-associated ß-galactosidase staining assay and senescence-related proteins p16 and p21 were used to detect changes in the degree of cell senescence. RT-qPCR and Western blot were conducted to measure mRNA and protein levels, respectively. The scratch wound-healing assay, transwell assay, and EdU assay were performed to evaluate the ability of migration and proliferation, respectively. miRNA-142-3p and silencing information regulator 2 related enzyme 1 (SIRT1) binding was verified using Targetscan software and a dual-luciferase assay. We found that miRNA-142-3p is abnormally up-regulated in HUVECs treated with H2O2. Functionally, miRNA-142-3p inhibition may mitigate the degree of HUVEC senescence and improve HUVEC migration and proliferation. Mechanistically, SIRT1 was validated to be targeted by miRNA-142-3p in HUVECs. Moreover, SIRT1 inhibition reversed the effects of miRNA-142-3p inhibition on senescent HUVECs exposed to H2O2. To our knowledge, this is the first study to show that miRNA-142-3p ameliorates H2O2-induced HUVECs premature senescence by targeting SIRT1 and may shed light on the role of the miR-142-3p/SIRT1 axis in stroke treatment. [ABSTRACT FROM AUTHOR]

Published

2024

31. Three-level saturated orthogonal arrays with less β-wordlength pattern

Author

Jingke Zhang, Beibei Fan, Umer Daraz, and Yu Tang

Subjects

Statistics and Probability

Published

2023

32. Research Progress on the Chemical Components and Pharmacological Activities of Gesneriaceae

Author

Xiaoyan Deng, Meng Li, Ying Yang, Bowen Zhang, Weisheng Feng, Xiaoke Zheng, and Jingke Zhang

Subjects

Pharmacology, Organic Chemistry, Drug Discovery, Plant Science

Published

2023

33. Deep Null Space Learning Improves Dataset Recovery for High Frame Rate Synthetic Transmit Aperture Imaging

Author

Jingke Zhang, Lijie Huang, and Jianwen Luo

Subjects

Acoustics and Ultrasonics, Electrical and Electronic Engineering, Instrumentation

Published

2023

34. Performance Evaluation of Data Enhancement Methods in SAR Ship Detection

Author

Chi Zhang, Xi Zhang, Jie Zhang, Gui Gao, Jingke Zhang, Genwang Liu, Yongjun Jia, Xiaochen Wang, Yi Zhang, and Yongshou Dai

Subjects

Environmental Engineering, Industrial and Manufacturing Engineering

Published

2022

35. A review of selected small specimen test techniques for identifying deformation and failure properties of metallic materials

Author

Xiaorui Wang, Tao Zhu, Jingke Zhang, Haoxu Ding, Shoune Xiao, Liantao Lu, Bing Yang, Guangwu Yang, and Yanwen Liu

Subjects

Mechanics of Materials, Mechanical Engineering, General Materials Science

Published

2022

36. Influence of Moisture Content on Physical and Mechanical Properties of Chinese Ash Bolts for Anchoring Earthen Sites.

Author

Nan Wang, Feifei Yan, Qibo Qiu, Hongyu Zou, Jingke Zhang, Dongming Bai, and Chenyang Suo

Abstract

Chinese ash bolts are extensively utilized for anchoring earthen sites in China, but their physical and mechanical properties are influenced by changes in moisture content during the grout curing process. This study reveals significant effects on compressive strength parallel to the grain and flexural strength, with a comparatively lower influence on tensile strength parallel to the grain. As moisture content increases, the failure mode shifts from fiber fracture to inter-fiber destruction, resulting in a transition from brittleness to elastoplasticity in the bolts' properties. Additionally, we observed that the diameter of the samples has a less pronounced effect on mechanical strength and modulus compared to moisture content, though it notably enhances resistance to deformation. Scanning electron microscopy images show interlocking textures within the wooden fibers, effectively enhancing the strength and toughness of the bolts. Importantly, this research presents quantitative results: Chinese ash bolts exhibit a natural density range of 0.65 to 0.78 g/cm3 and a saturation moisture content spanning from 93.15 to 114.15 %. Furthermore, in their natural state, these bolts display remarkable tensile strength (126.56 MPa), compressive strength (55.91 MPa), and bending strength (106.34 MPa). This study highlights the critical significance of carefully choosing the most suitable bolt diameters to fortify resistance against deformation. The concrete data provided contribute significantly to improving conservation practices for earthen sites. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effect of material failure criteria on collision behavior of metro vehicle end structures

Author

Xiaorui Wang, Tao Zhu, Jingke Zhang, Haoxu Ding, Shoune Xiao, Liantao Lu, Bing Yang, Guangwu Yang, and Yuxin Liu

Subjects

Mechanical Engineering

Abstract

This study comprehensively analyzes the failure behavior of metro vehicle end structures (VESs) during collisions, using the common material SUS301L-MT in a stainless steel metro and its VES as the research object. First, constitutive and failure tests are performed on the material, the macro–micro characterization of its mechanical properties is performed, and the failure strains and morphologies under various stress states are obtained and discussed. Subsequently, two failure criteria, Von Mises (VM) and Generalized Incremental Stress State Dependent Damage Model (GISSMO), are calibrated and established. Finally, the crashworthiness evaluation indexes of the VES are defined, and vertical offset collisions of metro VESs for different speed levels are numerically analyzed. The results show that the stress triaxiality significantly affects the failure strain of stainless steel SUS301L-MT, with the maximal difference for different stress states reaching 51.10%. SUS301L-MT stainless steel exhibits strain-rate strengthening and yield hysteresis effects. Overall, the numerical results for the VM criterion are worse than for the GISSMO criterion, which more accurately describes the collision behavior of metro VESs under complex stress states.

Published

2022

38. Ultrasound image reconstruction from plane wave radio-frequency data by self-supervised deep neural network.

Author

Jingke Zhang, Qiong He, Yang Xiao 0012, Hairong Zheng, Congzhi Wang, and Jianwen Luo 0001

Published

2021

39. Broadband high-efficiency solar absorber based on tungsten hole-mesh structure

Author

Guo Liu, Yiqun ZHang, Jingke Zhang, Yuyu Shan, Bonan Xu, Xin Rao, Na Li, and chi zhao

Abstract

Solar energy is widely considered a "green energy" source, and to maximize its utilization, efficient solar absorbers that can absorb solar energy at various optical frequencies are necessary. In this study, we report a high-performance, broadband solar absorber made of just two materials – tungsten(W) and Al2O3. The absorber is composed of three layers, arranged from top to bottom: an Al2O3 dielectric layer, a W hole-mesh layer, and a W substrate layer. Finite time domain(FDTD) analysis simulations demonstrated an ultra-high absorption rate of 97.64% across a wide spectrum of visible and near-infrared light (400nm-1600nm). The high absorption rate is attributed to the combined effects of surface plasmon resonance, cavity resonance, and the high imaginary part of the permittivity of tungsten. Furthermore, we analyzed the influence of the geometric parameters of the W hole-mesh absorber on the absorption performance and explained the physical mechanism of the high absorption rate by analyzing impedance matching. Interestingly, the absorber is insensitive to polarized light and can still maintain a high absorption rate of 90% at an incident angle of 0-60°. Our findings indicate that the W hole-mesh absorber has significant advantages in solar energy harvesting, paving the way for more efficient and cost-effective solar energy technology.

Published

2023

40. Pulling Resistance of Two Wooden Bolts Subjected to Continuous Loading in Anchoring Conservation of Earthen Sites

Author

Nan Wang, Jingke Zhang, Wenwu Chen, Ruxue Liao, and Weihao Li

Subjects

Soil Science

Published

2023

41. Influence of wheelset rotational motion on train collision response and wheelset lift mechanism

Author

Jingke Zhang, Tao Zhu, Bing Yang, Xiaorui Wang, Shoune Xiao, Guangwu Yang, Yanwen Liu, and Benhuai Li

Subjects

Mechanics of Materials, Automotive Engineering, Transportation

Published

2022

42. Improved Ultrafast Power Doppler Imaging by Using Spatiotemporal Non-Local Means Filtering

Author

Lijie Huang, Jingke Zhang, Xingyue Wei, Linkai Jing, Qiong He, Xia Xie, Guihuai Wang, and Jianwen Luo

Subjects

Acoustics and Ultrasonics, Phantoms, Imaging, Image Processing, Computer-Assisted, Humans, Ultrasonography, Doppler, Spinal Cord Neoplasms, Signal-To-Noise Ratio, Electrical and Electronic Engineering, Instrumentation, Algorithms, Ultrasonography

Abstract

The change of microvasculature is associated with the occurrence and development of many diseases. Ultrafast power Doppler imaging (uPDI) is an emerging technology for the visualization of microvessels due to the development of ultrafast plane wave (PW) imaging and advanced clutter filters. However, the low signal-to-noise ratio (SNR) caused by unfocused transmit of PW imaging deteriorates the subsequent imaging of microvasculature. Nonlocal means (NLM) filtering has been demonstrated to be effective in the denoising of both natural and medical images, including ultrasound power Doppler images. However, the feasibility and performance of applying an NLM filter on the ultrasound radio frequency (RF) data have not been investigated so far. In this study, we propose to apply an NLM filter on the spatiotemporal domain of clutter filtered blood flow RF data (St-NLM) to improve the quality of uPDI. Experiments were conducted to compare the proposed method with three different methods (under various similarity window sizes), including conventional uPDI without NLM filtering (Non-NLM), NLM filtering on the obtained power Doppler images (PD-NLM), and NLM filtering on the spatial domain of clutter filtered blood flow RF data (S-NLM). Phantom experiments, in vivo contrast-enhanced human spinal cord tumor experiments, and in vivo contrast-free human liver experiments were performed to demonstrate the superiority of the proposed St-NLM method over the other three methods. Qualitative and quantitative results show that the proposed St-NLM method can effectively suppress the background noise, improve the contrast between vessels and background, and preserve the details of small vessels at the same time. In the human liver study, the proposed St-NLM method achieves 31.05-, 24.49-, and 11.15-dB higher contrast-to-noise ratios (CNRs) and 36.86-, 36.86-, and 15.22-dB lower noise powers than Non-NLM, PD-NLM, and S-NLM, respectively. In the human spinal cord tumor, the full-width at half-maximums (FWHMs) of vessel cross Section are 76, 201, and [Formula: see text] for St-NLM, Non-NLM, and S-NLM, respectively. The proposed St-NLM method can enhance the microvascular visualization in uPDI and has the potential for the diagnosis of many microvessel-change-related diseases.

Published

2022

43. Durability Assessment of Calcined Ginger Nuts-Based Anchor Grouts Used in the Conservation of Earthen Sites

Author

Lixiang Zhang, Jingke Zhang, Xin Wen, Weihao Li, and Linyi Zhao

Subjects

Visual Arts and Performing Arts, Architecture, Conservation

Published

2022

44. In vivo assessment of hypertensive nephrosclerosis using ultrasound localization microscopy

Author

Lanyan Qiu, Jingke Zhang, Yi Yang, Hong Zhang, Fu‐Feng Lee, Qiong He, Chengwu Huang, Lijie Huang, Linxue Qian, and Jianwen Luo

Subjects

Microscopy, Hypertension, Renal, Nephritis, Nephrosclerosis, education, FOS: Physical sciences, General Medicine, Rats, Inbred WKY, Physics - Medical Physics, Rats, Rats, Inbred SHR, Hypertension, Animals, Medical Physics (physics.med-ph), Renal Insufficiency, Chronic

Abstract

As a typical chronic kidney disease (CKD), hypertensive nephrosclerosis (HN) is a common syndrome of hypertension, characterized by chronic kidney microvascular damage. Early diagnosis of microvascular damage using conventional ultrasound imaging encounters challenges in sensitivity and specificity owing to the inherent diffraction limit. Ultrasound localization microscopy (ULM) has been developed to obtain microvasculature and microvascular hemodynamics within the kidney, and would be a promising tool for the early diagnosis of CKD.In this study, the advantage of quantitative indexes obtained by using ULM (mean arterial blood flow speeds of different segments of interlobular arteries) over indexes obtained using conventional clinical serum (β2-microglobulin, serum urea nitrogen, and creatinine) and urine (24-h urine volume and urine protein) tests and ultrasound Doppler imaging (peak systolic velocity [PSV], end-diastolic velocity [EDV], and resistance index [RI]) and contrast-enhanced ultrasound imaging (CEUS; rise time [RT], peak intensity [IMAX], mean transit time [mTT], and area under the time-intensity curve [AUC]) for early diagnosis of HN were investigated. Examinations were carried out on six spontaneously hypertensive rats (SHR) and five normal Wistar-Kyoto (WKY) rats at the age of 10 weeks.The experimental results show that the indicators derived from conventional clinical inspections (serum and urine tests) and ultrasound imaging (PSV, EDV, RI, RT, IMAX, mTT, and AUC) do not show significant difference between hypertensive and healthy rats (p 0.05), while the TTP of the SHR group (28.52 ± 5.52 s) derived from CEUS is significantly higher than that of the WKY group (18.68 ± 7.32 s; p 0.05). The mean blood flow speed in interlobular artery of SHR (12.47 ± 1.06 mm/s) derived from ULM is significantly higher than that of WKY rats (10.13 ± 1.17 mm/s; p 0.01).The advantages of ULM over conventional clinical inspections and ultrasound imaging methods for early diagnosis of HN were validated. The quantitative results show that ULM can effectively diagnose HN at the early stage by detecting the blood flow speed changes of interlobular arteries. ULM may promise a reliable technique for early diagnosis of HN in the future.

Published

2022

45. Torsional behavior of <scp>I‐steel–concrete</scp> composite beam considering the composite effects

Author

Jingke Zhang, Peng Liu, Chang He, Faxing Ding, Mingwen Hu, Jingtao Shen, Qitao Lin, Xiaoyong Liu, Jian Yang, Yuanguang Qiu, and Jianjun Yang

Subjects

Mechanics of Materials, General Materials Science, Building and Construction, Civil and Structural Engineering

Published

2022

46. Modified statistically homogeneous pixel selection for use with a non-local adaptive multilook approach for small SAR datasets

Author

Jingke Zhang, Han Wu, Chao Wu, Hua Zhong, Xuyang Teng, Huina Song, and Mengyuan Wang

Subjects

Pixel, Homogeneous, Computer science, Interferometric synthetic aperture radar, Astrophysics::Instrumentation and Methods for Astrophysics, Earth and Planetary Sciences (miscellaneous), Electrical and Electronic Engineering, Non local, Surface deformation, Selection (genetic algorithm), Remote sensing

Abstract

Multitemporal interferometric synthetic aperture radar (MT-InSAR) technique is an important approach for surface deformation monitoring. Nonlocal adaptive multilooking approach has potential benefi...

Published

2021

47. Unbalanced Graph Multi-Scale Fusion Node Classification Method

Author

Jingke Zhang, Xinlin He, Zongfeng Qi, Chao Ma, and Jianxun Li

Subjects

Multidisciplinary

Published

2022

48. Multi-electrode resistivity survey for the moisture distribution characteristics of the cliff of Mogao Grottoes

Author

Manli Sun, Jingke Zhang, Lixiang Zhang, Xudong Wang, Qinglin Guo, Qiangqiang Pei, and Yanwu Wang

Subjects

Geology, Geotechnical Engineering and Engineering Geology

Published

2022

49. Recent progress in catalytical CO purification of H2-rich reformate for proton exchange membrane fuel cells

Author

Kang Wang, Yong Men, Wangwang Liu, and Jingke Zhang

Subjects

Fuel Technology, Renewable Energy, Sustainability and the Environment, Energy Engineering and Power Technology, Condensed Matter Physics

Published

2022

50. An enhanced finite step length method for structural reliability analysis and reliability-based design optimization

Author

Dequan Zhang, Jingke Zhang, Meide Yang, Rong Wang, and Zeping Wu

Subjects

Control and Optimization, Control and Systems Engineering, Computer Graphics and Computer-Aided Design, Software, Computer Science Applications

Published

2022