Your search keyword '"Ziqing Guo"' showing total 29 results

1. Directional Phase and Polarization Manipulation Using Janus Metasurfaces

Author

Yiwen Zhou, Teng Zhang, Guannan Wang, Ziqing Guo, Xiaofei Zang, Yiming Zhu, Fei Ding, and Songlin Zhuang

Subjects

directional imaging, directional phase and polarization modulation, direction‐ and polarization‐dependent detection, Janus metasurfaces, Science

Abstract

Abstract Janus metasurfaces, exemplifying two‐faced 2D metamaterials, have shown unprecedented capabilities in asymmetrically manipulating the wavefront of electromagnetic waves in both forward and backward propagating directions, enabling novel applications in asymmetric information processing, security, and signal multiplexing. However, current Janus metasurfaces only allow for directional phase manipulation, hindering their broader application potential. Here, the study proposes a versatile Janus metasurface platform that can directionally control the phase and polarization of terahertz waves by integrating functionalities of half‐wave plates, quarter‐wave plates, and metallic gratings within a cascaded metasurface structure. As a proof‐of‐principle, the study experimentally demonstrates Janus metasurfaces capable of independent and simultaneous control over phase and polarization, showcasing propagation direction‐encoded focusing and polarization conversion. Moreover, the directionally focused points are utilized with distinct polarization states for advanced applications in direction‐ and polarization‐sensitive detection and imaging. This unique strategy for simultaneous phase and polarization control with direction‐dependent versatility opens new avenues for designing ultra‐compact devices with significant implications in imaging, encryption, and data storage.

Published

2024

2. Effects of Sodium Selenite on the Growth and Photosystem II Activity of Arthrospira platensis Gom.

Author

Donghui Gong, Wenxue Wei, Ziqing Guo, Xiang Ji, Xiaoli Zhang, Yaxu Yang, Shuyu Yu, Qingfeng Miao, Fucheng Guo, and Zhizhong Wang

Subjects

Arthrospira platensis, Spirulina platensis, sodium selenite, soluble protein, chlorophyll a, chlorophyll a fluorescence, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

Arthrospira platensis (A. platensis) is a species of cyanobacteria with high economic value; the species is commercially well known as Spirulina platensis, and A. platensis was used in this paper. Its high adaptability, high photosynthetic efficiency, and fast growth rate make it one of the few cyanobacteria that can be cultivated on a large scale. Therefore, using the selenium enrichment property of A. platensis to cultivate selenium-enriched A. platensis will not only enhance the physiological efficacy of A. platensis but also increase its economic value significantly. In this study, we investigated the effects of sodium selenite on the growth and photosynthetic performance of A. platensis selenium by setting different amounts and methods of sodium selenite addition, and we explored the optimal culture conditions of the best dosage and method of sodium selenite addition. The results showed that the experimental group treated with sodium selenite at 700 μmol/L had the fastest growth, and the contents of soluble protein, phycocyanin C, and chlorophyll a increased by approximately 67.9%, 1.44 times, and 38.8% compared to the control group, respectively. Superoxide dismutase (SOD) and catalase (CAT) activity increased by 1.88-fold and 65%, respectively, and malondialdehyde (MDA) levels were reduced by 62% compared to the control group. The results of the OJIP assay showed that the J and I points were significantly higher at the batch addition and treatment concentration of 700 μmol/L, with the rate of QA being reduced and the proportion of the slowly reduced PQ pool being increased. The values of the maximum light energy conversion efficiency (Fv/Fm) per unit of reaction center were higher in both sodium selenite treatment groups than in the control group, indicating that the light energy conversion efficiency of A. platensis was promoted under all concentration treatment conditions. The batch addition of sodium selenite at concentrations less than 700 μmol/L resulted in significantly higher ABS/RC values than the control, and they were far superior to the one-time addition method. The reason for this may have been that the batch addition of sodium selenite at low concentrations increased the light absorption capacity of the unit reaction center of PSII, resulting in a rise in captured light energy, a rise in the energy captured by the reaction center for electron transfer (ETo/RC), a decrease in the energy dissipated in the absorption of light energy by the reaction center (DIo/RC), and an increase in the photosynthetic performance index (PI abs).

Published

2023

3. ATC-YOLOv5: Fruit Appearance Quality Classification Algorithm Based on the Improved YOLOv5 Model for Passion Fruits

Author

Changhong Liu, Weiren Lin, Yifeng Feng, Ziqing Guo, and Zewen Xie

Subjects

computer vision, deep learning, fruit quality classification, passion fruit, YOLOv5, Mathematics, QA1-939

Abstract

Passion fruit, renowned for its significant nutritional, medicinal, and economic value, is extensively cultivated in subtropical regions such as China, India, and Vietnam. In the production and processing industry, the quality grading of passion fruit plays a crucial role in the supply chain. However, the current process relies heavily on manual labor, resulting in inefficiency and high costs, which reflects the importance of expanding the application of fruit appearance quality classification mechanisms based on computer vision. Moreover, the existing passion fruit detection algorithms mainly focus on real-time detection and overlook the quality-classification aspect. This paper proposes the ATC-YOLOv5 model based on deep learning for passion fruit detection and quality classification. First, an improved Asymptotic Feature Pyramid Network (APFN) is utilized as the feature-extraction network, which is the network modified in this study by adding weighted feature concat pathways. This optimization enhances the feature flow between different levels and nodes, allowing for the adaptive and asymptotic fusion of richer feature information related to passion fruit quality. Secondly, the Transformer Cross Stage Partial (TRCSP) layer is constructed based on the introduction of the Multi-Head Self-Attention (MHSA) layer in the Cross Stage Partial (CSP) layer, enabling the network to achieve a better performance in modeling long-range dependencies. In addition, the Coordinate Attention (CA) mechanism is introduced to enhance the network’s learning capacity for both local and non-local information, as well as the fine-grained features of passion fruit. Moreover, to validate the performance of the proposed model, a self-made passion fruit dataset is constructed to classify passion fruit into four quality grades. The original YOLOv5 serves as the baseline model. According to the experimental results, the mean average precision (mAP) of ATC-YOLOv5 reaches 95.36%, and the mean detection time (mDT) is 3.2 ms, which improves the mAP by 4.83% and the detection speed by 11.1%, and the number of parameters is reduced by 10.54% compared to the baseline, maintaining the lightweight characteristics while improving the accuracy. These experimental results validate the high detection efficiency of the proposed model for fruit quality classification, contributing to the realization of intelligent agriculture and fruit industries.

Published

2023

4. Phytoplankton Community Structure and Its Relationship with Environmental Factors in Nanhai Lake

Author

Donghui Gong, Ziqing Guo, Wenxue Wei, Jie Bi, Zhizhong Wang, and Xiang Ji

Subjects

phytoplankton, Nanhai Lake, functional groups, community structure, environmental factors, Biology (General), QH301-705.5

Abstract

In order to determine the characteristics of phytoplankton community structure in Nanhai Lake in Baotou City and its relationship with environmental factors, water and phytoplankton samples were collected and composition and biomass were investigated at six sites in the spring, summer, and autumn of 2021. This article used correlation analysis and redundancy analysis (RDA) combined with the community turnover index (BC) to analyze the phytoplankton functional groups. The results showed that 7 phyla and 68 genera of phytoplankton were identified in the water body, of which Chlorophyta, Bacillariophyta, Cyanobacteria, Chrysophyta, Euglenophyta, Cryptophyta, and Pyrrophyta accounted for 34%, 32%, 16%, 6%, 4%, 4%, and 3%, respectively. The phytoplankton in the water body was classified into 23 functional groups, of which MP and D functional groups were the long−term dominant functional groups, indicating that the habitat is a turbid water body. The ecological state index (Q) value ranged from 1.94 to 3.13, with an average value of 2.74. The comprehensive nutritional index (TSIM(∑)) was between 49.32 and 52.11, with an average value of 51.72, indicating that Nanhai Lake was in a mesotrophic state. Correlation analysis and redundancy analysis (RDA) showed that multiple nutrients, transparency (SD), chemical oxygen demand (COD), water temperature (WT), and Chlorophyll a (Chl−a) were the main environmental factors affecting the biomass of dominant functional groups in the water body. The study showed the characteristics of the functional groups of algae in a precious urban lake in arid and semi−arid areas of China and their relationship with environmental factors (physical and chemical indicators, anions and cation ions, and heavy metal ions), and provided a scientific basis for its water quality evaluation.

Published

2022

5. Detection of disease in Cucurbita maxima Duch. ex Lam. caused by a mixed infection of Zucchini yellow mosaic virus, Watermelon mosaic virus, and Cucumber mosaic virus in Southeast China using a novel small RNA sequencing method

Author

Yi Wang, Pu Zhu, Qin Zhou, Xiaojun Zhou, Ziqing Guo, Linrun Cheng, Liyan Zhu, Xiaochan He, Yidan Zhu, and Yang Hu

Subjects

co-infection, Small RNA sequencing, Zucchini yellow mosaic virus, Watermelon mosaic virus, And cucumber mosaic virus, Cucurbita maxima, Medicine, Biology (General), QH301-705.5

Abstract

The genus Cucurbita comprises many popular vegetable and ornamental plants, including pumpkins, squashes, and gourds, that are highly valued in China as well as in many other countries. During a survey conducted in Zhejiang province, Southeast China in 2016, severe symptoms of viral infection were observed on Cucurbita maxima Duch. ex Lam. Diseased plants showed symptoms such as stunting, mosaicking, Shoe string, blistering, yellowing, leaf deformation, and fruit distortion. Approximately, 50% of Cucurbita crops produced in Jinhua were diseased, causing an estimated yield loss of 35%. In this study, we developed a method using all known virus genomes from the NCBI database as a reference to map small RNAs to develop a diagnostic tool that could be used to diagnose virus diseases of C. maxima. 25 leaf samples from different symptomatic plants and 25 leaf samples from non-symptomatic plants were collected from the experimental field of Jihua National Agricultural Technology Garden for pathogen identification. Small RNAs from each set of three symptomatic and non-symptomatic samples were extracted and sequenced by Illumina sequencing. Twenty-four different viruses were detected in total. However, the majority of the small RNAs were from Zucchini yellow mosaic virus (ZYMV), Watermelon mosaic virus (WMV), and Cucumber mosaic virus (CMV). Mixed infections of these three viruses were diagnosed in leaf samples from diseased plants and confirmed by reverse transcription PCR (RT-PCR) using primers specific to these three viruses. Crude sap extract from symptomatic leaf samples was mechanically inoculated back into healthy C. maxima plants growing under greenhouse conditions. Inoculated plants developed the same disease symptoms as those observed in the diseased plants and a mixed infection of ZYMV, WMV, and CMV was detected again by RT-PCR, thus fulfilling Koch’s postulates. The diagnostic method developed in this study involves fewer bioinformatics processes than other diagnostic methods, does not require complex settings for bioinformatics parameters, provides a high level of sensitivity to rapidly diagnose plant samples with symptoms of virus diseases and can be performed cheaply. This method therefore has the potential to be widely applied as a diagnostic tool for viruses that have genome information in the NCBI database.

Published

2019

6. Exploring novel bands and key index for evaluating leaf equivalent water thickness in wheat using hyperspectra influenced by nitrogen.

Author

Xia Yao, Wenqing Jia, Haiyang Si, Ziqing Guo, Yongchao Tian, Xiaojun Liu, Weixing Cao, and Yan Zhu

Subjects

Medicine, Science

Abstract

Leaf equivalent water thickness (LEWT) is an important indicator of crop water status. Effectively monitoring the water status of wheat under different nitrogen treatments is important for effective water management in precision agriculture. Trends in the variation of LEWT in wheat plants during plant growth were analyzed based on field experiments in which wheat plants under various water and nitrogen treatments in two consecutive growing seasons. Two-band spectral indices [normalized difference spectral indices (NDSI), ratio spectral indices (RSI), different spectral indices (DSI)], and then three-band spectral indices were established based on the best two-band spectral index within the range of 350-2500 nm to reduce the noise caused by nitrogen and saturation. Then, optimal spectral indices were selected to construct models of LEWT monitoring in wheat. The results showed that the two-band spectral index NDSI(R1204, R1318) could be used for LEWT monitoring throughout the wheat growth season, but the model performed differently before and after anthesis. Therefore, further two-band spectral indices NDSIb(R1445, R487), NDSIa(R1714, R1395), and NDSI(R1429, R416), were constructed for the two developmental phases, with NDSI(R1429, R416) considered to be the best index. Finally, a three-band index (R1429-R416-R1865)/(R1429+R416+R1865), which was superior for monitoring LEWT and reducing the noise caused by nitrogen, was formed on the best two-band spectral index NDSI(R1429, R416) by adding the 1,865 nm wavelenght as the third band. This produced more uniformity and stable performance compared with the two-band spectral indices in the LEWT model. The results are of technical significance for monitoring the water status of wheat under different nitrogen treatments in precision agriculture.

Published

2014

7. An active pole-to-ground fault location scheme for FB-MMC-MTDC system using the short-time blocking of sub-modules

Author

Ziqing, Guo, Wentao, Huang, Moduo, Yu, and Ran, Li

Published

2023

8. Scalable Fuzzy Keyword Ranked Search Over Encrypted Data on Hybrid Clouds

Author

Ziqing Guo, Hua Zhang, Wenmin Li, Shaohua Zhao, Qiao-Yan Wen, and Fei Gao

Subjects

Computer Networks and Communications, Computer science, business.industry, InformationSystems_INFORMATIONSTORAGEANDRETRIEVAL, Data security, Approximate string matching, Encryption, computer.software_genre, Fuzzy logic, Computer Science Applications, Similarity (network science), Ranking, Hardware and Architecture, Scalability, Edit distance, Data mining, business, computer, Software, Information Systems

Abstract

Searchable encryption (SE) is a powerful technology that enables keyword-based search over encrypted data becomes possible. However, most SE schemes focus on exact keyword search which can not tolerate misspellings and typos. Existing fuzzy keyword search schemes only support fuzzy search within a limited similarity threshold d, the storage cost will grow exponentially or the precision of search results will greatly decrease as $d$ increases. Moreover, the current fuzzy keyword ranked search schemes consider only the keyword weight, and disregard the influence of keyword morphology similarity on the ranking. In this paper, we propose a scalable fuzzy keyword ranked search scheme over encrypted data under hybrid clouds architecture. We use the edit distance to measure the similarity of keywords and design an edit distance algorithm over the encrypted database, in which our scheme achieves fuzzy keyword search for any similarity threshold d with constant storage size and accurate search results. Furthermore, we design a two-factor ranking function combining keyword weight with keyword morphology similarity, which is utilized to rank the search results and enhance system usability. Extensive experiments are performed to demonstrate the trade-off of efficiency and security of the proposed scheme.

Published

2023

9. Multi-shop Rescheduling Problem under Rush Orders.

Author

Yanhai Hu, Feifan Ye, Ziqing Guo, and Zizhao Zheng

Published

2009

10. Surface Discharge Status Diagnosis Based on Optical Image Chromaticity Coordinates

Author

Yuwei Wang, Ziqing Guo, and Qizheng Ye

Subjects

Physics, Nuclear and High Energy Physics, business.industry, Color space, Condensed Matter Physics, Spectral color, White point, Optics, Physics::Plasma Physics, Colors of noise, Position (vector), Partial discharge, Line (geometry), Chromaticity, business

Abstract

The physical and chemical processes of surface discharge are more complicated than other discharge forms due to the influence of gas composition and dielectric properties. Spectral diagnosis can be used to analyze the main species in the discharge process. However, the chromaticity characteristics are the comprehensive representation of all emission spectra. This article presents a new method to diagnose the state of surface discharge using chromaticity coordinates in color space. It is observed that the chromaticity coordinates slide along a straight line between the equal energy white point and a specific spectral color with the development of surface discharge. The relative position of the chromaticity coordinates on the line indicates the different states of the surface discharge. The slope of the line is affected by the material characteristics while external factors such as the camera’s exposure time and the color of materials have no effect on it. It is found that the slope of the chromaticity coordinate curve has a fixed range, which means that there exists a specific color space of surface discharge. Finally, the effects of the ambient noise are corrected. This method uses the chromaticity coordinates in a long time scale to diagnose the microscopic process of surface discharge and it can be extended to other state diagnoses of partial discharge phenomena. From the point of view of potential application, this method also provides a new simple method to meet the requirement of long time scale state monitoring in industrial application.

Published

2021

11. State Recognition of Surface Discharges by Visible Images and Machine Learning

Author

Zhe Yuan, Ziqing Guo, Qizheng Ye, and Yuwei Wang

Subjects

Surface (mathematics), Artificial neural network, business.industry, Computer science, Deep learning, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Division (mathematics), Fault (power engineering), Machine learning, computer.software_genre, Image (mathematics), Artificial intelligence, Electrical and Electronic Engineering, Cluster analysis, business, Instrumentation, computer

Abstract

To solve the problems of low resolution, weak antinoise performance, and imprecise fault location in discharge recognition of ultraviolet imaging, an intelligent state recognition method of surface discharge based on visible images and machine learning (ML) is proposed in this article. A visible image library of surface discharge (ac) under different experimental conditions was established, and the chromatic, gray-scale, and morphological features of images were extracted. The image library was divided into four stages by clustering. Combined with spectrum correlation experiments, the physical meaning of the division results was explained. Supervised learning algorithms, including classic algorithms and deep learning, were used to train intelligent recognition models. The results showed that models based on chromatic features had a higher accuracy for recognition; the accuracy of artificial neural networks reached 0.982, which was obviously higher than that of classical learning algorithms (0.886). The results show that visible images can be used for the state recognition of surface discharges effectively. The application of ML ensures high efficiency and accuracy. This method will enable state recognition and fault location to be completed simultaneously.

Published

2021

12. Study of the Development of Negative DC Corona Discharges on the Basis of Visible Digital Images

Author

Qizheng Ye, Mengting Han, Yuwei Wang, and Ziqing Guo

Subjects

Nuclear and High Energy Physics, Materials science, Pixel, Infrared, business.industry, Image processing, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Digital image, Amplitude, Optics, 0103 physical sciences, RGB color model, Stage (hydrology), Oscilloscope, business

Abstract

The noncontact diagnosis methods of discharge plasma include spectrum, electromagnetic wave, ultraviolet image, and high-speed nanosecond image analyses, but there are few studies on the visible image diagnosis method. With the development of digital cameras, the number of pixels in a visible image is far greater than that of ultraviolet, infrared, and high-speed cameras; the image contains a considerable amount of discharge spatial information and provides a new solution for plasma diagnosis. We obtained visible digital images of short gap negative dc coronas with the corresponding oscilloscope current signals under the experimental conditions of atmospheric pressure and room temperature. Two colorimetric indicators ( RGB and HSI ) were proposed to study the colorimetry features of discharge images, of which the analysis was correlated with the amplitude and frequency of oscilloscope current signals. The result shows that the hue value of the overall image region is positively related to the pulse amplitude, while the intensity value corresponds to the pulse frequency. The stage division based on the hue value is better than that based on current pulses, which shows that the Trichel stage can be further subdivided. In addition, we observed that the anode discharge begins earlier than the formation of pulseless glow, and we illustrated that anode discharge played an important role in the formation of pulseless glow and spark breakdown. Briefly, the discharge image corresponds well with the results of traditional detection methods and provides a new perspective for the corona discharge study, deserving further research.

Published

2020

13. A Corona Recognition Method Based on Visible Light Color and Machine Learning

Author

Qizheng Ye, Ziqing Guo, Ming Wang, Dong Xuan, and Pingxiao Ye

Subjects

Nuclear and High Energy Physics, Brightness, business.product_category, Computer science, business.industry, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Decision tree, Condensed Matter Physics, Machine learning, computer.software_genre, Perceptron, 01 natural sciences, 010305 fluids & plasmas, k-nearest neighbors algorithm, Set (abstract data type), Support vector machine, 0103 physical sciences, Artificial intelligence, business, computer, Corona discharge, Digital camera

Abstract

Can we detect electric discharge states in gases based on the information on visual images? This article proposes a new kind of method where we build several detection models for different states of corona discharge by applying four kinds of machine learning algorithms to extract color, brightness, and shape information characteristics of visible images taken by a digital camera. Every model is then tested on a new set of images to measure its performance. The four different machine learning algorithms are support vector machine (SVM), ${K}$ -nearest neighbor regression (KNN), single layer perceptron (SLP), and decision tree (DT) algorithms. The prediction results show that the color features perform best among all three types of features and the KNN algorithm performs best among all four algorithms. This article also presents a discussion on how to choose the optimal detection areas of images for better detection performance. Our approach shows consistent results across different cameras and camera settings. The results demonstrate that even if only the visible light spectrum emitted from a plasma is captured, the color method can provide sufficient discharge information for economic and convenient use in discharge state detection because the species producing visible radiation are affected by radiation in all bands.

Published

2020

14. The Introduction of Dissociation Term in Numerical Simulation of Trichel Pulses in Air

Author

Mengting Han, Ziqing Guo, Qizheng Ye, and XiaoFei Nie

Published

2022

15. LncRNA SNHG5 Promotes Proliferation of Glioma by Regulating miR-205-5p/ZEB2 Axis

Author

Hongwei Zhu, Ziqing Guo, Yuan Li, Xiangrui Meng, Fangbo Lin, Yanyao Deng, Chao Liu, Ziqi Jin, Zhicheng Lv, Hua Liu, and Bing Xie

Subjects

0301 basic medicine, Reporter gene, Messenger RNA, medicine.diagnostic_test, Chemistry, Cell growth, Competing endogenous RNA, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, Downregulation and upregulation, Western blot, Cell culture, 030220 oncology & carcinogenesis, Glioma, medicine, Cancer research, Pharmacology (medical)

Abstract

Background Glioma is a common primary brain tumor with extremely poor prognosis outcomes. Increasing evidences have proved the relation between lncRNAs and glioma onset and progression. LncRNA SNHG5 involves in the biological activities of tumor cells, such as proliferation, migration and metastasis. Nevertheless, it is still necessary to explain the molecular mechanism and biofunction of SNHG5 in glioma. Materials and methods Quantitative real-time PCR (qRT-PCR) was performed to analyze expressions of SNHG5, miR-205-5p and ZEB2 in tumor tissues and cell lines. The cell counting kit-8 (CCK-8) assay, plate and soft agar colony formation assays were performed to evaluate cell proliferation ability. RNA immunoprecipitation assay and dual-luciferase reporter assay were used to confirm the interaction among SNHG5, miR-205-5p and ZEB2. The protein level of ZEB2 was measured by Western blot. Results Based on our findings, compared with normal tissues, the elevated expression of SNHG5 and decreased expression of miR-205-5p were observed in glioma tissues. The downregulation of SNHG5 exerted an obvious inhibitory effect on glioma cells in terms of their proliferation. With regard to the underlying mechanism, SNHG5 presented a direct inhibitory influence on miR-205-5p which targeted to the 3'-UTR region of zinc finger E-box binding homeobox 2 (ZEB2) mRNA. As a competing endogenous RNA (ceRNA), SNHG5 sponged miR-205-5p, regulating the expression of ZEB2 thereby. Conclusion These discoveries indicate that SNHG5 promotes proliferation of glioma by regulating miR-205-5p/ZEB2 axis.

Published

2019

16. Characteristics and High Frequency Equivalent Model of Low Voltage DC Fault Arc

Author

Chen Zhang, Qing Xiong, Rui Li, Zhenguo Di, Ziqing Guo, and Shengchang Ji

Published

2021

17. Polarization-controlled and symmetry-dependent multiple plasmon-induced transparency in graphene-based metasurfaces

Author

Bin Tang, Ziqing Guo, and Gui Jin

Subjects

Atomic and Molecular Physics, and Optics

Abstract

In this paper, we theoretically and numerically demonstrate a polarization-controlled and symmetry-dependent multiple plasmon-induced transparency (PIT) in a graphene-based metasurface. The unit cell of metasurface is composed of two reversely placed U-shaped graphene nanostructures and a rectangular graphene ring stacking on a dielectric substrate. By adjusting the polarization of incident light, the number of transparency windows can be actively modulated between 1 and 2 when the nanostructure keeps a geometrical symmetry with respect to the x-axis. Especially, when the rectangular graphene ring has a displacement along the y-direction, the number of transparency windows can be arbitrarily switched between 2 and 3. The operation mechanism behind the phenomena can be attributed to the near-field coupling and electromagnetic interaction between the bright modes excited in the unit of graphene resonators. Moreover, the electromagnetic simulations obtained by finite-difference time-domain (FDTD) method agree well with the theoretical results based on the coupled modes theory (CMT). In addition, as applications of the designed nanostructure, we also study the modulation degrees of amplitude, insertion loss and group index of transmission spectra for different Fermi energies, which demonstrates an excellent synchronous switch functionality and slow light effect at multiple frequencies. Our designed metasurface may have potential applications in mid-infrared optoelectronic devices, such as optical switches, modulators, and slow-light devices, etc.

Published

2022

18. Numerical Simulation of Corona-type (Non-thermal) Leader in the Point Head Rod-Plane Short Gap

Author

XiaoFei Nie, Ziqing Guo, Xiaoru Sun, Qizheng Ye, Xingwang Li, and Mengting Han

Subjects

Physics, Computer simulation, Electric field, Plasma channel, Mechanics, Streamer discharge, Corona, Corona discharge, Charged particle, Voltage

Abstract

In this paper, a numerical simulation is presented to study corona-type (non-thermal) leader observed previously in the point head rod-plane short gap. A 2D axisymmetric model of streamer discharge is established to simulate the positive streamer discharge in the rod-plane short gap at atmospheric pressure. The streamer discharge parameters such as movement of major charged particles, shape of the streamer and distribution of electric field are obtained. Then we set a plasma channel composed of positive and negative ions near the anode and find two sections in the current pulse, which is consistent with the previous experiment. The existence of corona-type (non-thermal) leader in the point head rod-plane short gap is conformed through the numerical simulation. It is widely accepted that residual charge can be ignored under power frequency voltage. However, the experiment result and simulation result illustrate the effect of residual charge on the subsequent discharge. And a theoretical demonstration is given that the residual charge from the previous discharge (a plasma channel) is the key to the formation of the “stem” structure. The research in this paper can not only expand the understanding of the corona discharge process, but also help to judge the intensity of corona discharge.

Published

2021

19. Discharge status diagnosis based on chromaticity coordinates

Author

Yuwei Wang, Ziqing Guo, Jiahui Hu, Qizheng Ye, and Xingwang Li

Subjects

Color difference, business.industry, Computer science, Process (computing), Color space, 01 natural sciences, Atomic and Molecular Physics, and Optics, Spectral line, Electric discharge in gases, 010309 optics, Optics, 0103 physical sciences, Emission spectrum, Electrical and Electronic Engineering, Chromaticity, business, Engineering (miscellaneous), Visible spectrum

Abstract

It is common for researchers to learn about the physical process of discharge by studying the intensity of specific spectral lines in the emission spectrum. By using this method, every microscopic process involving light radiation can be quantitatively analyzed, but there is a problem of how to select appropriate spectral lines for the comprehensive judgment of changes in the discharge process. Here, we present a comprehensive method for converting the visible spectrum of discharge into chromaticity coordinates. In this way, a large number of spectral data are transformed into a single chromaticity coordinate to diagnose the gas discharge directly and quickly, and the comprehensive evaluation of the discharge status is implemented.

Published

2021

20. Secure multi-keyword ranked search over encrypted cloud data for multiple data owners

Author

Wenmin Li, Hua Zhang, Qiao-Yan Wen, Caijun Sun, and Ziqing Guo

Subjects

020203 distributed computing, Binary tree, Information retrieval, business.industry, Computer science, Rank (computer programming), 02 engineering and technology, Trusted third party, Encryption, Ranking, Hardware and Architecture, Search algorithm, 0202 electrical engineering, electronic engineering, information engineering, Vector space model, 020201 artificial intelligence & image processing, Relevance (information retrieval), business, Key management, Software, Information Systems

Abstract

Secure multi-keyword ranked search over outsourced cloud data has become a hot research field. Most existing works follow the model of “Single Owner”, which just supports searching on the outsourced data belong to only one data owner. But the more realistic scenario is “Multiple Owners”, users could search on all datasets outsourced by different data owners. However, directly extending “Single Owner” schemes into “Multiple Owners” scenario still face the major two challenges: (1) the inconvenient key management and the resulting high communication cost; (2) due to the different authorities of owners, the qualities of documents are also different even if they are about the similar topic, but current rank functions in this area cannot rank documents based on their qualities. In this paper, we propose a secure multi-keyword ranked search scheme for multiple data owners. A trusted third party is imported to solve the problem of key management. We exploit the vector space model for generating index and query, and our new-designed KDO algorithm is utilized for providing keyword weight, so that the rank function not only considers about the relevance between query and document, but also takes into account the document quality. In order to protect privacy for both owners and users, the Asymmetric Scalar-product Preserving Encryption approach is utilized for encrypting weighted index and query. Besides, we construct the Grouped Balanced Binary tree index, which could further improve the search efficiency by Greedy Depth-first search algorithm. Extensive experiments demonstrate that our proposed scheme is secure, accurate and efficient.

Published

2018

21. Optimization of safety valve block of the pitch mechanism of bucket wheel stacker reclaimer

Author

Xuebiao Zhu, Ziqing Guo, and Maoan Wang

Subjects

Mechanism (engineering), History, Control theory, Computer science, Block (telecommunications), Stacker, Safety valve, Reclaimer, Computer Science Applications, Education

Abstract

The luffing mechanism of the 6# stacker-reclaimer (DQ3000/4200) of an iron-making plant has malfunctions in production. After analyzing the fault reason of the original pitching mechanism. We optimize the hydraulic mechanism for solving these problems, and established a 3D model for the optimization part. The original hydraulic system and the improved hydraulic system model were established under AMEsim. The purpose of this study was to compare the movement speed of the hydraulic cylinder piston under different set pressures of the pressure valve to verify the improved hydraulic system meets production needs.

Published

2021

22. LncRNA SNHG5 Promotes Proliferation of Glioma by Regulating miR-205-5p/ZEB2 Axis

Author

Xiangrui, Meng, Yanyao, Deng, Zhicheng, Lv, Chao, Liu, Ziqing, Guo, Yuan, Li, Hua, Liu, Bing, Xie, Ziqi, Jin, Fangbo, Lin, and Hongwei, Zhu

Subjects

long non-coding RNA, glioma, SNHG5, miR-205-5p, Original Research, ZEB2

Abstract

Background Glioma is a common primary brain tumor with extremely poor prognosis outcomes. Increasing evidences have proved the relation between lncRNAs and glioma onset and progression. LncRNA SNHG5 involves in the biological activities of tumor cells, such as proliferation, migration and metastasis. Nevertheless, it is still necessary to explain the molecular mechanism and biofunction of SNHG5 in glioma. Materials and methods Quantitative real-time PCR (qRT-PCR) was performed to analyze expressions of SNHG5, miR-205-5p and ZEB2 in tumor tissues and cell lines. The cell counting kit-8 (CCK-8) assay, plate and soft agar colony formation assays were performed to evaluate cell proliferation ability. RNA immunoprecipitation assay and dual-luciferase reporter assay were used to confirm the interaction among SNHG5, miR-205-5p and ZEB2. The protein level of ZEB2 was measured by Western blot. Results Based on our findings, compared with normal tissues, the elevated expression of SNHG5 and decreased expression of miR-205-5p were observed in glioma tissues. The downregulation of SNHG5 exerted an obvious inhibitory effect on glioma cells in terms of their proliferation. With regard to the underlying mechanism, SNHG5 presented a direct inhibitory influence on miR-205-5p which targeted to the 3′-UTR region of zinc finger E-box binding homeobox 2 (ZEB2) mRNA. As a competing endogenous RNA (ceRNA), SNHG5 sponged miR-205-5p, regulating the expression of ZEB2 thereby. Conclusion These discoveries indicate that SNHG5 promotes proliferation of glioma by regulating miR-205-5p/ZEB2 axis.

Published

2019

23. Research on arc non-thermal equilibrium characteristics using chromaticity information from a visible digital image

Author

Ziqing Guo, Yuwei Wang, and Qizheng Ye

Subjects

Thermal equilibrium, Arc (geometry), Digital image, Materials science, Optics, business.industry, Digital image processing, RGB color model, Stage (hydrology), Chromaticity, business, Image (mathematics)

Abstract

In this study, a method was developed for diagnosing the non-thermal equilibrium physical properties of a free burning arc in air using the chromaticity information from a visible image. After extracting RGB values from the image and using digital image processing, the following two comparisons are made: (1) the red-component rate of arc for different electrode materials; (2) the chromaticity distribution at different stages of the AC arc; Analyses are also conducted based on the space radiation characteristics of the arc, differences due to the electrode material. Experiments showed that the proposed method can distinguish experimental materials and arc stages. Furthermore, since the image method is used, the method does not need to assume that the arc is in the thermal equilibrium stage.

Published

2019

24. Research on Stages of AC corona discharge Based on Visible Digital Images Gray-level Co-occurrence Matrix

Author

Yuwei Wang, Ziqing Guo, and Qizheng Ye

Subjects

010302 applied physics, Materials science, business.industry, Image processing, 01 natural sciences, Grayscale, 010305 fluids & plasmas, Electric discharge in gases, Co-occurrence matrix, Digital image, Optics, 0103 physical sciences, Digital image processing, Oscilloscope, business, Corona discharge

Abstract

In terms of optical image digital processing of gas discharge, the morphological research is mainly engaged in the image of UV, which has relatively few studies on discharge state by using grayscale texture information of visible images. Thanks to the progress of photoelectric detecting technique, the visible image contains more abundant space structure information, which makes it possible to detect the characteristic of grayscale texture information. In this paper, the 50Hz AC high voltage power source was applied to the 15mm needle-plane gap under room temperature and atmospheric pressure. The discharge images in the time scale of seconds were obtained by a high resolution digital camera. We introduce the research method of gray-level co-occurrence matrix into the corona discharge image processing. Contrast, entropy, correlation and the expected value ratio of vertical (90°) and horizontal (0°) directions are used to describe the state of corona development. The calculation results show that the contrast and entropy can effectively reflect the corona pre-breakdown state, and the correlation can effectively reflect the initial state. The expected value ratio can effectively reflect the process of growth, suppression, and gap-penetration of the discharge in the positive half cycle, which has a good correlation with the oscilloscope electrical signals. The method allows us to take advantage of visible light images to study the stages of AC corona, which provides a new method of low temperature plasma diagnostics.

Published

2019

25. Secure and Efficiently Searchable IoT Communication Data Management Model: Using Blockchain as a new tool

Author

Ziqing Guo, Cui Dong, Xin Zhang, Huawei Wang, Qiao-Yan Wen, and Hua Zhang

Subjects

Distributed database, Computer Networks and Communications, business.industry, Computer science, Data management, Data security, Enterprise information security architecture, Encryption, Computer Science Applications, Information sensitivity, Hardware and Architecture, Signal Processing, Scalability, Key (cryptography), business, Information Systems, Computer network

Abstract

With the rapid development of the Internet of things (IoT), more IoT devices are connected in the same network and communicate frequently for sharing data and switching instructions. So that the traditional centralized security architecture of IoT will be limited in terms of data storage space, data reliability, scalability and operating costs. In this paper, we propose a novel communication data management model based on blockchain technology. Specifically, all encrypted IoT communication data files are uploaded to public cloud server for obtaining enough storage space, but the key information extracted from these data files (called "communication logs") will be recorded in an "IoT ledger" maintained by all IoT devices. In fact, the IoT ledger is a kind of blockchain structured distributed database, which can solve the problem of data reliability, scalability and would not involve high operating costs. Besides, in order to efficiently search communication logs and not reveal any sensitive information of communication data, we design a secure search scheme over such blockchain database, the asymmetric scalar-product preserving encryption (ASPE) approach is exploited to guarantee the data security, and the two layers index improves the search efficiency. Security analysis and experiments on synthetic dataset show that our scheme is secure and efficient.

Published

2021

26. Colorimetric Method for Discharge Status Diagnostics based on Optical Spectroscopy and Digital Images

Author

Yuwei Wang, Ziqing Guo, Zhe Yuan, Ming Wang, and Qizheng Ye

Subjects

Materials science, Dominant wavelength, business.industry, 010401 analytical chemistry, Linearity, High voltage, 01 natural sciences, 0104 chemical sciences, Digital image, Corona (optical phenomenon), Optics, Electrical and Electronic Engineering, Oscilloscope, Chromaticity, Colorimetry, business, Instrumentation

Abstract

Discharge is a process, which involves changes in multiple species, and it is important for researchers to be able to describe changes in discharge status holistically. In this study, we applied AC and DC high voltage power sources to a short-gap needle-plane device in an atmospheric environment. We propose two new corona diagnosis methods based on spectral data and visible images. The experimental results demonstrate that, in the RGB system, the proportion of the blue component in AC corona images has the characteristic of decrease-stable-increase with voltage, and the corresponding result of the spectra is stable-increase. In the XYZ system, the AC corona chromaticity coordinates of both images and spectra demonstrate a linear fitting result with the voltage, and the image results contain a retracement process, showing shows the increase-stable-decrease trend of chromaticity coordinates x and y, which correlates well with oscilloscope results. The difference between the image and spectra results indicates that, compared to the spectra, high-resolution visible images are more sensitive to imperceptible changes in colorimetry information. The change of DC corona colorimetry characteristics can illustrate the change in AC corona colorimetry characteristics. Additionally, the dominant wavelength is proven to reflect the discharge species, and can reflect the vibrational temperatures. To the best of our knowledge, this paper represents the first attempt to systematically introduce colorimetry theory into discharge images and spectra. We successfully obtained colorimetric indicators with the linearity and low-dimension characteristics, which correspond well with known physical parameters.

Published

2020

27. Study on electromagnetic radiation of some kinds of typical partial discharge

Author

Xiaoru Sun, Ziqing Guo, and Qizheng Ye

Subjects

Physics, Electromagnetic spectrum, Brush discharge, Partial discharge, Polarity symbols, Stage (hydrology), Radiation, Electromagnetic radiation, Corona discharge, Computational physics

Abstract

Partial Discharge (PD), being the early manifestation of insulation faults within gas insulated substation (GIS), poses a potential threat to the normal operation of GIS. As a powerful diagnostic method, the ultra-high-frequency (UHF) PD detection system has many attractive advantages, such as good anti-interference, high efficiency of on-line detection, and strong ability of locating PD. So that it has been well accepted as the main electromagnetic method of detecting PD in GIS. But there are still some problems that need to be studied in the identification system including partial discharge type and developing stage. By using the high stability and high repetition experimental models of the needle-to-plate corona discharge, the surface discharge and the suspended discharge, the currents and its corresponding electromagnetic radiation of typical PD were measured. The results show that the radiation spectrum of corona discharge is quite low, the spectrum of surface discharge gathers around 125 MHz, and the spectrum of suspended discharge is wider, whose range is quite near around 25MHz, 75MHz and 125 MHz. For the corona discharge, there exists a segmentation phenomenon in the positive polarity current rising edge during the long brush discharge stage, and results in the segmentation phenomenon in electromagnetic radiation waveforms. The phenomenon is estimated by the analytical formula of electromagnetic radiation produced by a current pulse based on the dipole model. The part of quasistatic field dominated by i(t) and the part of radiation field dominated by di(t)/dt will determine the peak of radiation waveforms together. The above research has a good guidance to the relevant identification system which monitors PD.

Published

2017

28. Privacy-Preserving Linear Region Search Service

Author

Shaohua Zhao, Qiao-Yan Wen, Ziqing Guo, and Hua Zhang

Subjects

020203 distributed computing, Information privacy, Information Systems and Management, Point of interest, Computer Networks and Communications, business.industry, Computer science, 020206 networking & telecommunications, Cryptography, 02 engineering and technology, computer.software_genre, Computational geometry, Encryption, Computer Science Applications, Hardware and Architecture, Location-based service, Ciphertext, 0202 electrical engineering, electronic engineering, information engineering, Data mining, Computational problem, business, computer

Abstract

Due to a variety of advantages of data outsourcing, some Location Based Services (LBS) providers are motivated to outsource the geographic data and query service to commercial cloud. However, for protecting data confidentiality, the valuable data should be encrypted before outsourcing, which obstructs the utilization like geographic information query. To address this problem, some previous works regarding to secure search on encrypted database could be applied in outsourced LBS scenario directly, but none of them is tailor-made for linear region search (LRS). The LRS is a kind of LBS that widely used in navigation system, it finds the nearby points of interest (POI) for a query segment. In this paper, for the first time, we explore and solve the challenging problem of privacy-preserving linear region search. Specifically, we choose the quadtree structure to build index for POI database, then the results of LRS can be efficiently obtained by finding out the rectangular regions that query segment passes through. In order to preserve the privacy of both LBS providers and users, according to computational geometry and Asymmetric Scalar-product Preserving Encryption (ASPE) approach, we design a novel algorithm for accurately determining whether a segment intersects with a rectangle on ciphertext. Moreover, this algorithm also provides a new idea to solve other computational problems in encrypted 2-dimensional geometry space. Based on different privacy requirements of two threat models, we propose two privacy-preserving LRS schemes and corresponding dynamic update operations. Security analysis and experiments on real-world dataset show that our schemes are secure and efficient.

Published

2017

29. Exploring Novel Bands and Key Index for Evaluating Leaf Equivalent Water Thickness in Wheat Using Hyperspectra Influenced by Nitrogen

Author

Haiyang Si, Jia Wenqing, Ziqing Guo, Xia Yao, Yongchao Tian, Yan Zhu, Weixing Cao, and Xiaojun Liu

Subjects

Computer and Information Sciences, Nitrogen, lcsh:Medicine, chemistry.chemical_element, Growing season, Crops, Plant Science, Signal-To-Noise Ratio, chemistry.chemical_compound, Anthesis, Reference Values, lcsh:Science, Triticum, Plant Growth and Development, Spectral index, Multidisciplinary, Spectrum Analysis, lcsh:R, Near-infrared spectroscopy, Water, Biology and Life Sciences, Agriculture, Agricultural Methods, Crop Management, Sustainable Agriculture, Plant Leaves, chemistry, Agronomy, Chlorophyll, Wheat, lcsh:Q, Precision agriculture, Agronomic Ecology, Information Technology, Saturation (chemistry), Agroecology, Research Article, Cereal Crops, Developmental Biology

Abstract

Leaf equivalent water thickness (LEWT) is an important indicator of crop water status. Effectively monitoring the water status of wheat under different nitrogen treatments is important for effective water management in precision agriculture. Trends in the variation of LEWT in wheat plants during plant growth were analyzed based on field experiments in which wheat plants under various water and nitrogen treatments in two consecutive growing seasons. Two-band spectral indices [normalized difference spectral indices (NDSI), ratio spectral indices (RSI), different spectral indices (DSI)], and then three-band spectral indices were established based on the best two-band spectral index within the range of 350-2500 nm to reduce the noise caused by nitrogen and saturation. Then, optimal spectral indices were selected to construct models of LEWT monitoring in wheat. The results showed that the two-band spectral index NDSI(R1204, R1318) could be used for LEWT monitoring throughout the wheat growth season, but the model performed differently before and after anthesis. Therefore, further two-band spectral indices NDSIb(R1445, R487), NDSIa(R1714, R1395), and NDSI(R1429, R416), were constructed for the two developmental phases, with NDSI(R1429, R416) considered to be the best index. Finally, a three-band index (R1429-R416-R1865)/(R1429+R416+R1865), which was superior for monitoring LEWT and reducing the noise caused by nitrogen, was formed on the best two-band spectral index NDSI(R1429, R416) by adding the 1,865 nm wavelenght as the third band. This produced more uniformity and stable performance compared with the two-band spectral indices in the LEWT model. The results are of technical significance for monitoring the water status of wheat under different nitrogen treatments in precision agriculture.

Published

2014