Your search keyword '"Yiqiang Chen"' showing total 800 results

1. New resonant composite magnetic‐field probes with high detection sensitivity and electric‐field suppression ratio

Author

Lei Wang, Hongyue Wang, Chengyang Luo, and Yiqiang Chen

Subjects

electromagnetic compatibility, electromagnetic coupling, magnetic fields, Electronics, TK7800-8360

Abstract

Abstract This work proposes two differential magnetic‐field resonant probes, consisting of a U‐shaped single‐loop resonant probe (S_probe) and a dual‐loops resonant probe (D_probe). These resonant probes are composed of a pair of LC resonant circuits, a pair of strip‐lines with two outputs, two rows of via fences, and two different sensing structures (single‐loop and dual‐loops). Among them, a pair of open stubs as capacitor and shorted stubs as inductor is used to form the LC resonant circuit, via fences are utilized to suppress unwanted electromagnetic wave modes, a U‐shaped single‐loop and a pair of differential dual‐loops is used to receive the electromagnetic signal. In order to prove the rationality of the design, simulation models of the S_probe and D_probe are optimized and manufactured based on four‐layers PCBs. In addition, a near‐field scanning system with a standard 50 Ω straight microstrip line as calibration kit is used to measure and calibrate these resonant probes. The tested results indicate that these designed magnetic‐field probes could operate at 1.575 GHz and have high detection sensitivity and electric‐field suppression.

Published

2024

2. Two-stage deep neural network for diagnosing fungal keratitis via in vivo confocal microscopy images

Author

Chun-Peng Li, Weiwei Dai, Yun-Peng Xiao, Mengying Qi, Ling-Xiao Zhang, Lin Gao, Fang-Lue Zhang, Yu-Kun Lai, Chang Liu, Jing Lu, Fen Chen, Dan Chen, Shuai Shi, Shaowei Li, Qingyan Zeng, and Yiqiang Chen

Subjects

Fungal keratitis, Image classification, Neural network, Transformer, Medicine, Science

Abstract

Abstract Timely and effective diagnosis of fungal keratitis (FK) is necessary for suitable treatment and avoiding irreversible vision loss for patients. In vivo confocal microscopy (IVCM) has been widely adopted to guide the FK diagnosis. We present a deep learning framework for diagnosing fungal keratitis using IVCM images to assist ophthalmologists. Inspired by the real diagnostic process, our method employs a two-stage deep architecture for diagnostic predictions based on both image-level and sequence-level information. To the best of our knowledge, we collected the largest dataset with 96,632 IVCM images in total with expert labeling to train and evaluate our method. The specificity and sensitivity of our method in diagnosing FK on the unseen test set achieved 96.65% and 97.57%, comparable or better than experienced ophthalmologists. The network can provide image-level, sequence-level and patient-level diagnostic suggestions to physicians. The results show great promise for assisting ophthalmologists in FK diagnosis.

Published

2024

3. Dietary Bacillus velezensis KNF-209 supplementation improves growth performance, enhances immunity, and promotes gut health in broilers

Author

Ying Liu, Mengqin Xiong, Xiao Hu, Yongchen Li, Wanjun Zhang, Wenjun He, Sunlin Luo, Jianjun Zang, Wenjun Yang, and Yiqiang Chen

Subjects

Bacillus velezensis, broiler, growth performance, immunity, gut health, Animal culture, SF1-1100

Abstract

ABSTRACT: This study aimed to investigate the effects of dietary Bacillus velezensis KNF-209 (BV-KNF-209) on the growth performance, immunity, and gut health of broilers. A total of 540 one-day-old male Cobb-500 broilers were randomly divided into 5 groups of 6 replicates with 18 broilers per replicate. Dietary treatments were corn-soybean meal basal diets supplemented with 0, 50, 100, 200, and 400 mg/kg BV-KNF-209 (CON, BV 50, BV 100, BV 200, and BV 400 groups, respectively) for 42 d. Compared with the CON group, the average daily gains (ADG) at 0 to 42 d in the BV 100 and BV 200 groups were significantly increased (P < 0.01), and the feed-to-gain (F:G) ratios were significantly decreased at 0 to 21 d (P < 0.01) and 0 to 42 d (P < 0.05). The BV 200 and BV 400 groups had higher serum immunoglobulin M (IgM) levels at d 21 and 42 (P < 0.05). The serum levels of tumor necrosis factor-α (TNF-α), interleukin-1β (IL-1β), and interleukin-6 (IL-6) were significantly decreased in the BV 50, BV 100, and BV 200 groups at d 21 (P < 0.05), and serum IL-1β and IL-6 levels were also reduced in the BV 100 and BV 200 groups at d 42 (P < 0.05). Meanwhile, increased interleukin-10 (IL-10) levels in the jejunal and ileal mucosa at d 42 were observed in the BV 100, BV 200, and BV 400 groups (P < 0.05), while the IL-1β and IL-6 levels (P < 0.01) were decreased. The BV 200 and BV 400 groups showed significantly higher activities of lipase and trypsin (P < 0.05) in jejunal digesta as well as higher activities of amylase and trypsin (P < 0.01) in ileal digesta at d 42. The cecal acetic acid and propionic acid levels in the BV groups and lactic acid levels in the BV 50, BV 100, and BV 200 groups (P < 0.05) were significantly higher compared to those in the CON group. Overall, dietary BV-KNF-209 supplementation significantly improved broiler growth performance, an effect that may have been achieved by heightening immunity, increasing digestive enzyme activity, and raising intestinal short-chain fatty acids and lactic acid levels.

Published

2024

4. Biocontrol agents modulate phyllosphere microbiota interactions against pathogen Pseudomonas syringae

Author

Zhaoyue Yang, Tianbo Liu, Jianqiang Fan, Yiqiang Chen, Shaolong Wu, Jingjing Li, Zhenghua Liu, Zhendong Yang, Liangzhi Li, Suoni Liu, Hongwu Yang, Huaqun Yin, Delong Meng, and Qianjun Tang

Subjects

Biological control, Metagenome, Transcriptome, Community structure, Pathogen resistance, Environmental sciences, GE1-350, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The pathogen Pseudomonas syringae, responsible for a variety of diseases, poses a considerable threat to global crop yields. Emerging biocontrol strategies employ antagonistic microorganisms, utilizing phyllosphere microecology and systemic resistance to combat this disease. However, the interactions between phyllosphere microbial dynamics and the activation of the plant defense system remain poorly understood. Here we show significant alterations in phyllosphere microbiota structure and plant gene expression following the application of biocontrol agents. We reveal enhanced collaboration and integration of Sphingomonas and Methylobacterium within the microbial co-occurrence network. Notably, Sphingomonas inhibits P. syringae by disrupting pathogen chemotaxis and virulence. Additionally, both Sphingomonas and Methylobacterium activate plant defenses by upregulating pathogenesis-related gene expression through abscisic acid, ethylene, jasmonate acid, and salicylic acid signaling pathways. Our results highlighted that biocontrol agents promote plant health, from reconstructing beneficial microbial consortia to enhancing plant immunity. The findings enrich our comprehension of the synergistic interplays between phyllosphere microbiota and plant immunity, offering potential enhancements in biocontrol efficacy for crop protection.

Published

2024

5. UbiMeta: A Ubiquitous Operating System Model for Metaverse

Author

Yiqiang Chen, Wuliang Huang, Xinlong Jiang, Teng Zhang, Yi Wang, Bingjie Yan, Zhirui Wang, Qian Chen, Yunbing Xing, Dong Li, and Guodong Long

Subjects

metaverse, ubiquitous operating system, federated computing, ooda loop, Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

The metaverse signifies the amalgamation of virtual and tangible realms through human-computer interaction. The seamless integration of human, cyber, and environments within ubiquitous computing plays a pivotal role in fully harnessing the metaverse’s capabilities. Nevertheless, metaverse operating systems face substantial hurdles in terms of accessing ubiquitous resources, processing information while safeguarding privacy and security, and furnishing artificial intelligence capabilities to downstream applications. To tackle these challenges, this paper introduces the UbiMeta model, a specialized ubiquitous operating system designed specifically for the metaverse. It extends the capabilities of traditional ubiquitous operating systems and focuses on adapting downstream models and operational capacity to effectively function within the metaverse. UbiMeta comprises four layers: the Ubiquitous Resource Management Layer (URML), the Autonomous Information Mastery Layer (AIML), the General Intelligence Mechanism Layer (GIML), and the Metaverse Ecological Model Layer (MEML). The URML facilitates the seamless incorporation and management of various external devices and resources. It provides a framework for integrating and controlling these resources, including virtualization, abstraction, and reuse. The AIML is responsible for perceiving information and safeguarding privacy and security during storage and processing. The GIML leverages large-scale pre-trained deep-learning feature extractors to obtain effective features for processing information. The MEML focuses on constructing metaverse applications using the principles of Model-as-a-Service (MaaS) and the OODA loop (Observation, Orientation, Decision, Action). It leverages the vast amount of information collected by the URML and AIML layers to build a robust metaverse ecosystem. Furthermore, this study explores how UbiMeta enhances user experiences and fosters innovation in various metaverse domains. It highlights the potential of UbiMeta in revolutionizing medical healthcare, industrial practices, education, and agriculture within the metaverse.

Published

2023

6. What role do biocontrol agents with Mg2+ play in the fate of antibiotic resistome and pathogenic bacteria in the phyllosphere?

Author

Qiqi Zhi, Ge Tan, Shaolong Wu, Qianqian Ma, Jianqiang Fan, Yiqiang Chen, Jingjing Li, Zhengrong Hu, Yansong Xiao, Liangzhi Li, Zhenghua Liu, Zhaoyue Yang, Zhendong Yang, Delong Meng, Huaqun Yin, Qianjun Tang, and Tianbo Liu

Subjects

antibiotic resistance genes, biocontrol agents, mutation, evolution, homologous recombination, metagenome, Microbiology, QR1-502

Abstract

ABSTRACTThe contamination of the plant phyllosphere with antibiotics and antibiotic resistance genes (ARGs), caused by application of antibiotics, is a significant environmental issue in agricultural management. Alternatively, biocontrol agents are environmentally friendly and have attracted a lot of interest. However, the influence of biocontrol agents on the phyllosphere resistome remains unknown. In this study, we applied biocontrol agents to control the wildfire disease in the Solanaceae crops and investigated their effects on the resistome and the pathogen in the phyllosphere by using metagenomics. A total of 250 ARGs were detected from 15 samples, which showed a variation in distribution across treatments of biocontrol agents (BA), BA with Mg2+ (T1), BA with Mn2+ (T2), and kasugamycin (T3) and nontreated (CK). The results showed that the abundance of ARGs under the treatment of BA-Mg2+ was lower than that in the CK group. The abundance of cphA3 (carbapenem resistance), PME-1 (carbapenem resistance), tcr3 (tetracycline antibiotic resistance), and AAC (3)-VIIIa (aminoglycoside antibiotic resistance) in BA-Mg2+ was significantly higher than that in BA-Mn2+ (P < 0.05). The abundance of cphA3, PME_1, and tcr3 was significantly negatively related to the abundance of the phyllosphere pathogen Pseudomonas syringae (P < 0.05). We also found that the upstream and downstream regions of cphA3 were relatively conserved, in which rpl, rpm, and rps gene families were identified in most sequences (92%). The Ka/Ks of cphA3 was 0 in all observed sequences, indicating that under the action of purifying selection, nonsynonymous substitutions are often gradually eliminated in the population. Overall, this study clarifies the effect of biocontrol agents with Mg2+ on the distribution of the phyllosphere resistome and provides evolutionary insights into the biocontrol process.IMPORTANCEOur study applied metagenomics analysis to examine the impact of biocontrol agents (BAs) on the phyllosphere resistome and the pathogen. Irregular use of antibiotics has led to the escalating dissemination of antibiotic resistance genes (ARGs) in the environment. The majority of BA research has focused on the effect of monospecies on the plant disease control process, the role of the compound BA with nutrition elements in the phyllosphere disease, and the resistome is still unknown. We believe BAs are eco-friendly alternatives for antibiotics to combat the transfer of ARGs. Our results revealed that BA-Mg2+ had a lower relative abundance of ARGs compared to the CK group, and the phyllosphere pathogen Pseudomonas syringae was negatively related to three specific ARGs, cphA3, PME-1, and tcr3. These three genes also present different Ka/Ks. We believe that the identification of the distribution and evolution modes of ARGs further elucidates the ecological role and facilitates the development of BAs, which will attract general interest in this field.

Published

2024

7. Insights from the neural guidance factor Netrin-1 into neurodegeneration and other diseases

Author

Minqi Cai, Qian Zheng, Yiqiang Chen, Siyuan Liu, Huimin Zhu, and Bing Bai

Subjects

Netrin-1, neurodegeneration, Alzheimer’s disease, Parkinson’s disease, psychiatric disorder, mirror movement, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Netrin-1 was initially discovered as a neuronal growth cue for axonal guidance, and its functions have later been identified in inflammation, tumorigenesis, neurodegeneration, and other disorders. We have recently found its alterations in the brains with Alzheimer’s disease, which might provide important clues to the mechanisms of some unique pathologies. To provide better understanding of this promising molecule, we here summarize research progresses in genetics, pathology, biochemistry, cell biology and other studies of Netrin-1 about its mechanistic roles and biomarker potentials with an emphasis on clinical neurodegenerative disorders in order to expand understanding of this promising molecular player in human diseases.

Published

2024

8. Application of pectin hydrolyzing bacteria in tobacco to improve flue-cured tobacco quality

Author

Shuning Weng, Meizhong Deng, Shanyi Chen, Renqiang Yang, Jingjing Li, Xianbo Zhao, Shunhua Ji, Lixiang Wu, Li Ni, Enren Zhang, Chaochao Wang, Lingfeng Qi, Kuanqi Liao, Yiqiang Chen, and Wen Zhang

Subjects

flue-cured tobacco, microorganism, pectin, quality, flavor, Biotechnology, TP248.13-248.65

Abstract

To study the relationship between the diversity of the surface microbial community and tobacco flavor, and to improve tobacco quality using microorganisms. The microbial community composition and diversity of 14 samples of flue-cured tobacco from tobacco-producing areas in Yunnan with varying grades were analyzed by high-throughput sequencing. PICRUSt was used for predicting microbial functions. A strain of Bacillus amyloliquefaciens W6-2 with the ability to degrade pectin was screened from the surface of flued-cured tobacco leaves from Yunnan reroasted tobacco leave. The enzyme preparation was prepared through fermentation and then applied for treating flue-cured tobacco. The improvement effect was evaluated by measuring the content of macromolecule and the changes in volatile components, combined with sensory evaluations. The bacterial communities on the surface of flue-cured tobacco exhibited functional diversity, consisting primarily of Variovorax, Pseudomonas, Sphingomonas, Burkholderia, and Bacillus. These bacterial strains played a role in the aging process of flue-cured tobacco leaves by participating in amino acid metabolism and carbohydrate metabolism. These metabolic activity converted complex macromolecules into smaller molecular compounds, ultimately influence the smoking quality and burning characteristics of flue-cured tobacco. The pectinase preparation produced through fermentation using W6-2 has been found to enhance the aroma and sweetness of flue-cured tobacco, leading to improved aroma, reduced impurities, and enhanced smoothness. Additionally, the levels of pectin, cellulose, and hemicellulose decreased, while the levels of water-soluble sugar and reducing sugar increased, and the contents of esters, ketones, and aldehydes increased, and the contents of benzoic acid decreased. The study revealed the correlation between surface microorganisms and volatile components of Yunnan tobacco leaves, and the enzyme produced by the pectin-degrading bacteria W6-2 effectively improved the quality of flue-cured tobacco.

Published

2024

9. Electrical Properties and Reliability of AlGaN/GaN High Electron Mobility Transistor under RF Overdrive Stress at High Temperature

Author

Chang Liu, Yiqiang Chen, Yuhan Xie, Hongxia Liu, and Zongqi Cai

Subjects

gallium nitride, high electron mobility transistor, high-temperature reliability, radio frequency, Mechanical engineering and machinery, TJ1-1570

Abstract

We have investigated the electrical properties and reliability of AlGaN/GaN high electron mobility transistors (HEMT) under high-temperature RF overdrive stress. The experimental results show that the drain current and transconductance of the device decrease at 25 °C and 55 °C but do not change significantly at 85 °C before and after the stress. The decline rate of the saturation drain current, the degradation amplitude of transconductance, and the drift amplitude of threshold voltage decrease with the increase in temperature. The results of pulse I–V and low-frequency noise tests show that the current collapse is inhibited, and the trap density is reduced at higher temperatures. The Electroluminescence (EL) test shows that the luminescence characteristics of the device after RF overdrive stress are more scattered and weaker. We believe that the degradation at lower temperatures is mainly due to the influence of the hot electron effect (HEE), while the change in electrical properties at higher temperatures is due to the weakening of HEE and the improvement of the Schottky interface.

Published

2024

10. Prediction of IGBT Gate Oxide Layer’s Performance Degradation Based on MultiScaleFormer Network

Author

Shilie He, Meiling Yu, Yiqiang Chen, Zhenwei Zhou, Lubin Yu, Chao Zhang, and Yuanhua Ni

Subjects

IGBT, gate oxide layer degradation, feature fusion, performance prediction, MultiScaleFormer network, Mechanical engineering and machinery, TJ1-1570

Abstract

Insulated gate bipolar transistors (IGBTs) are widely used in power electronic devices, and their health prediction problems have attracted much attention in the field of power electronic equipment health management. The performance degradation of IGBT gate oxide is one of the most important failure modes. In order to analyze this failure mechanism and the ease of implementation of a monitoring circuit, the gate leakage current of IGBTs was selected as the fault precursor parameter for the degradation of their gate oxide performance, and feature selection and fusion were carried out by using time domain characteristic analysis, grayscale correlation, Mahalanobis distance, Kalman filter, and other methods. Thus, a health indicator was obtained to characterize the degradation of IGBT performance, which was used to indicate the degree of aging of the IGBT gate oxide layer. In this paper, we propose an improved degradation prediction model called MultiScaleFormer, inspired by advanced design ideas of the iTransformer network architecture, combined with the health parameters of IGBTs to construct a degradation prediction model for the IGBT gate oxide layer. MultiScaleFormer showed the highest fitting accuracy compared with the Long Short-Term Memory (LSTM), Convolutional Neural Network (CNN), Support Vector Regression (SVR), Gaussian Process Regression (GPR), CNN-LSTM, and Transformer models in our experiment. The mean absolute error (MAE) of the MultiScaleFormer prediction was as low as 0.0087. Extraction of the health indicator and the construction and verification of the degradation prediction model were carried out on the dataset released by the NASA-Ames Laboratory. These results demonstrate the feasibility of the gate leakage current as a fault precursor parameter for IGBT gate oxide failure, and the feasibility and accuracy of the MultiScaleFormer prediction model for IGBT performance degradation.

Published

2024

11. Converter Capacitor Temperature Estimation Based on Continued Training LSTM under Variable Load Conditions

Author

Xiaoteng Dai, Yiqiang Chen, Jie Chen, and Ruichang Qiu

Subjects

capacitor, temperature estimation, LSTM algorithm, continued training, Chemical technology, TP1-1185

Abstract

Capacitors are crucial components in power electronic converters, responsible for harmonic elimination, energy buffering, and voltage stabilization. However, they are also the most susceptible to damage due to their operational environment. Accurate temperature estimation of capacitors is essential for monitoring their condition and ensuring the reliability of the converter system. This paper presents a novel method for estimating the core temperature of capacitors using a long short-term memory (LSTM) algorithm. The approach incorporates a continued training mechanism to adapt to variable load conditions in converters. Experimental results demonstrate the proposed method’s high accuracy and robustness, making it suitable for real-time capacitor temperature monitoring in practical applications.

Published

2024

12. Reverse Osmosis coupling Multi-Catalytic Ozonation (RO-MCO) in treating printing and dyeing wastewater and membrane concentrate: Removal performance and mechanism

Author

Tao Cui, Xueye Wang, Yong Chen, Yiqiang Chen, Boming Fu, and Yong Tu

Subjects

Printing and dyeing industry, Cu/Fe/Ce-CAC, RO-MCO combined process, Recycling, Safe discharge, Management. Industrial management, HD28-70

Abstract

In the face of high demand for reuse from printing and dyeing industries in centralized wastewater treatment of Jiangsu Province, reverse osmosis (RO) process is routinely used in wastewater recycling. However, the membrane concentrate is high in salinity, with high chromaticity and complex composition. Ozone oxidation, as an efficient and clean advanced oxidation process, is widely used but also suffers from several problems such as poor mass transfer and catalytic efficiency. In this paper, a novel aluminum-carbon based metal-doped composite ozone catalyst was designed, and RO coupling Multi-Catalytic Oxidation was constructed in treating biotreatment tail water. The optimal parameters of catalyst dosage of 0.5 g L−1, ozone concentration of 5 mg L−1 and 30% H2O2 dosage of 10 mg L−1 were obtained. After long-term operation experiments, the combined process has been proven to achieve safe discharge and recycling of the tail water, with low ecological risk to the external water environment.

Published

2023

13. Enhancing plant growth in biofertilizer-amended soil through nitrogen-transforming microbial communities

Author

Liangzhi Li, Zhengrong Hu, Ge Tan, Jianqiang Fan, Yiqiang Chen, Yansong Xiao, Shaolong Wu, Qiqi Zhi, Tianbo Liu, Huaqun Yin, and Qianjun Tang

Subjects

biofertilizer, binning, metagenomics, microbial interaction, keystone taxa, soil, Plant culture, SB1-1110

Abstract

Biofertilizers have immense potential for enhancing agricultural productivity. However, there is still a need for clarification regarding the specific mechanisms through which these biofertilizers improve soil properties and stimulate plant growth. In this research, a bacterial agent was utilized to enhance plant growth and investigate the microbial modulation mechanism of soil nutrient turnover using metagenomic technology. The results demonstrated a significant increase in soil fast-acting nitrogen (by 46.7%) and fast-acting phosphorus (by 88.6%) upon application of the bacterial agent. This finding suggests that stimulated soil microbes contribute to enhanced nutrient transformation, ultimately leading to improved plant growth. Furthermore, the application of the bacterial agent had a notable impact on the accumulation of key genes involved in nitrogen cycling. Notably, it enhanced nitrification genes (amo, hao, and nar), while denitrification genes (nir and nor) showed a slight decrease. This indicates that ammonium oxidation may be the primary pathway for increasing fast-acting nitrogen in soils. Additionally, the bacterial agent influenced the composition and functional structure of the soil microbial community. Moreover, the metagenome-assembled genomes (MAGs) obtained from the soil microbial communities exhibited complementary metabolic processes, suggesting mutual nutrient exchange. These MAGs contained widely distributed and highly abundant genes encoding plant growth promotion (PGP) traits. These findings emphasize how soil microbial communities can enhance vegetation growth by increasing nutrient availability and regulating plant hormone production. This effect can be further enhanced by introducing inoculated microbial agents. In conclusion, this study provides novel insights into the mechanisms underlying the beneficial effects of biofertilizers on soil properties and plant growth. The significant increase in nutrient availability, modulation of key genes involved in nitrogen cycling, and the presence of MAGs encoding PGP traits highlight the potential of biofertilizers to improve agricultural practices. These findings have important implications for enhancing agricultural sustainability and productivity, with positive societal and environmental impacts.

Published

2023

14. The Chip-Level and Package-Level Degradation of Cascode GaN Device Under Repetitive Power Cycling Stress

Author

Yijun Shi, Shan Wu, Zhiyuan He, Zongqi Cai, Liye Cheng, Yunliang Rao, Qingzhong Xiao, Yiqiang Chen, and Guoguang Lu

Subjects

GaN HEMTs, power cycling test, package degradation, chip-level degradation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this work, the electrical characteristics’ failure due to the chip-level damage and its relationship with the package-level degradation have been investigated for the Cascode GaN device under long-term repetitive power cycling test (PCT). At first, it is found that, the device’s transfer characteristics and threshold voltages have not changed until 8000-cycle PCT, while its on-state current decreases as the increases in cycles number. Meanwhile, the device’s gate-to-source leakage have not changed even after 8000-cycle PCT, but there is a significant increase in drain-to-source leakage. The above phenomenon has been attributed to the structural damage in the gate region of GaN HEMT, which has been verified by TCAD simulation and EMMI analysis. Then, it is found that the device’s thermal resistance is increased after the repetitive power cycling test, which is due to the package-level degradation. The increased thermal resistance will lead to the increase of heat accumulation, which has been verified by TCAD simulation, subsequently leading to the chip-level damage and electrical performance failure for Cascode GaN device. The relevant results may help to improve the long-term reliability of Cascode GaN device.

Published

2023

15. Iterative Self-Training Based Domain Adaptation for Cross-User sEMG Gesture Recognition

Author

Kang Wang, Yiqiang Chen, Yingwei Zhang, Xiaodong Yang, and Chunyu Hu

Subjects

Surface electromyography, gesture recognition, cross-user, domain adaptation, semi-supervised learning, Medical technology, R855-855.5, Therapeutics. Pharmacology, RM1-950

Abstract

Surface electromyography (sEMG) based gesture recognition has received broad attention and application in rehabilitation areas for its direct and fine-grained sensing ability. sEMG signals exhibit strong user dependence properties among users with different physiology, causing the inapplicability of the recognition model on new users. Domain adaptation is the most representative method to reduce the user gap with feature decoupling to acquire motion-related features. However, the existing domain adaptation method shows awful decoupling results when handling complex time-series physiological signals. Therefore, this paper proposes an Iterative Self-Training based Domain Adaptation method (STDA) to supervise the feature decoupling process with the pseudo-label generated by self-training and to explore cross-user sEMG gesture recognition. STDA mainly consists of two parts, discrepancy-based domain adaptation (DDA) and pseudo-label iterative update (PIU). DDA aligns existing users’ data and new users’ unlabeled data with a Gaussian kernel-based distance constraint. PIU Iteratively continuously updates pseudo-labels to generate more accurate labelled data on new users with category balance. Detailed experiments are performed on publicly available benchmark datasets, including the NinaPro dataset (DB-1 and DB-5) and the CapgMyo dataset (DB-a, DB-b, and DB-c). Experimental results show that the proposed method achieves significant performance improvement compared with existing sEMG gesture recognition and domain adaption methods.

Published

2023

16. Two-step hierarchical neural network for classification of dry age-related macular degeneration using optical coherence tomography images

Author

Min Hu, Bin Wu, Di Lu, Jing Xie, Yiqiang Chen, Zhikuan Yang, and Weiwei Dai

Subjects

optical coherence tomography (OCT), age-related macular degeneration (AMD), nascent geographic atrophy (nGA), convolutional neural network (CNN), deep learning, Medicine (General), R5-920

Abstract

PurposeThe aim of this study is to apply deep learning techniques for the development and validation of a system that categorizes various phases of dry age-related macular degeneration (AMD), including nascent geographic atrophy (nGA), through the analysis of optical coherence tomography (OCT) images.MethodsA total of 3,401 OCT macular images obtained from 338 patients admitted to Shenyang Aier Eye Hospital in 2019–2021 were collected for the development of the classification model. We adopted a convolutional neural network (CNN) model and introduced hierarchical structure along with image enhancement techniques to train a two-step CNN model to detect and classify normal and three phases of dry AMD: atrophy-associated drusen regression, nGA, and geographic atrophy (GA). Five-fold cross-validation was used to evaluate the performance of the multi-label classification model.ResultsExperimental results obtained from five-fold cross-validation with different dry AMD classification models show that the proposed two-step hierarchical model with image enhancement achieves the best classification performance, with a f1-score of 91.32% and a kappa coefficients of 96.09% compared to the state-of-the-art models. The results obtained from the ablation study demonstrate that the proposed method not only improves accuracy across all categories in comparison to a traditional flat CNN model, but also substantially enhances the classification performance of nGA, with an improvement from 66.79 to 81.65%.ConclusionThis study introduces a novel two-step hierarchical deep learning approach in categorizing dry AMD progression phases, and demonstrates its efficacy. The high classification performance suggests its potential for guiding individualized treatment plans for patients with macular degeneration.

Published

2023

17. Application of starch degrading bacteria from tobacco leaves in improving the flavor of flue-cured tobacco

Author

Yinuo Gong, Jingjing Li, Xiaohua Deng, Yiqiang Chen, Shanyi Chen, Hemin Huang, Li Ni, Teng Long, Wei He, Jianping Zhang, Zhenkun Jiang, Jianqiang Fan, and Wen Zhang

Subjects

microorganisms, starch degrading strains, amylase, flavor, enzyme preparation, Microbiology, QR1-502

Abstract

Starch is an essential factor affecting the quality of flue-cured tobacco, and high starch content can affect the sensory quality and safety. Recently, the degradation of macromolecules in tobacco raw materials by using additional microorganisms to improve their intrinsic quality and safety has become a new research hotspot in the tobacco industry. However, the technical maturity and application scale are limited. Our study analyzed the correlation between microbial community composition and volatile components on the surface of tobacco leaves from 14 different grades in Fujian tobacco-producing areas. The PICRUSt software was utilized to predict the function of the microbial community present in tobacco leaves. Furthermore, dominant strains that produced amylase were screened out, and an enzyme solution was prepared to enhance the flue-cured tobacco flavor. Changes in the content of macromolecules and volatile components were determined, and sensory evaluations were conducted to assess the overall quality of the tobacco leaves. The results showed that the dominant bacterial genera on the surface of Fujian tobacco leaves were Variovorax, Sphingomonas, Bacillus, etc. Bacillus was positively correlated with various volatile components, which contributed to the sweet and aromatic flavors of Fujian flue-cured tobacco. The main genetic functions of Fujian flue-cured tobacco surface bacteria were carbohydrate metabolism and amino acid metabolism. After treating flue-cured tobacco with an enzyme preparation prepared by the fermentation of Paenibacillus amylolyticus A17 #, the content of starch, pectin, and cellulose in flue-cured tobacco decreased significantly compared with the control group. Meanwhile, the content of total soluble sugar and reducing sugar was significantly increased, and the volatile aroma components, such as 3-hydroxy--damascone, 2,3-dihydro-3,5-dihydroxy-6-methyl-4 H-Pyran-4-one, ethyl palmitate, ethyl linolenic acid, etc., were significantly increased. The aroma quality and quantity of flue-cured tobacco were enhanced, while impurities were reduced. The smoke characteristics were improved, with increased fineness, concentration, and moderate strength. The taste characteristics were also improved, with reduced irritation and a better aftertaste. In conclusion, Bacillus, as the dominant genus in the abundance of bacterial communities on tobacco surfaces in Fujian, had an essential impact on the flavor of tobacco leaves by participating in carbohydrate metabolism and finally forming the unique flavor style of flue-cured tobacco in Fujian tobacco-producing areas. Paenibacillus amylolyticus A17 #, a target strain with amylase-producing ability, was screened from the surface of Fujian flue-cured tobacco. The enzyme preparation, produced by the fermentation of Paenibacillus amylolyticus A17 #, was utilized to reduce the content of macromolecules, increase the content of water-soluble total sugar and reducing sugar, and produce a variety of crucial volatile aroma components, which had a significant improvement on the quality of tobacco leaves.

Published

2023

18. Transmission of Carbapenem Resistance Between Human and Animal NDM-Positive Escherichia coli Strains

Author

Yingbo Shen, Fupin Hu, Yongqiang Wang, Dandan Yin, Lu Yang, Yiqiang Chen, Chunyan Xu, Jiyun Li, Junyao Jiang, Xueyang Wang, Yulin Fu, Dongyan Shao, Dejun Liu, Tengfei Ma, Chang Cai, Zhangqi Shen, Shaolin Wang, Juan Li, Rong Zhang, Yuebin Ke, Congming Wu, Jianzhong Shen, Timothy R. Walsh, and Yang Wang

Subjects

Carbapenem resistance, Escherichia coli, blaNDM-5, One Health, Antimicrobial resistance transmission, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Although carbapenem use is prohibited in animals in China, carbapenem-resistant Escherichia coli (CREC), especially New Delhi metallo-β-lactamase (NDM)-producing strains, are widely prevalent in food-producing animals. At present, the impact of livestock-associated CREC strains on human populations at the national level is unknown. Here, we conduct a retrospective cross-sectional study to investigate the prevalence of CREC from clinical settings across 22 Chinese provinces or municipalities and analyze anthropogenic factors associated with their presence. We also ascertain the blaNDM and blaKPC abundance among pig and chicken farms and present a detailed genomic framework for CREC of animal and human origin. Overall, 631/29 799 (2.1%) clinical Escherichia coli (E. coli) isolates were identified as CREC. Multivariable analysis revealed that being male, an age below 1, an age between 13 and 18, provinces with greater chicken production, and provinces with higher pig production were associated with higher odds of CREC infection. In general, 73.8% (n = 45/61) of pig farms and 62.2% (n = 28/45) of chicken farms had a blaNDM abundance of 1 × 10−5 to 1 × 10−3 and 1 × 10−3 to 1 × 10−2, respectively. Among all the Chinese NDM-positive E. coli (n = 463) available at the National Center for Biotechnology Information (NCBI), the genomic analysis revealed that blaNDM-5 and IncX3 were the predominant carbapenemase gene-plasmid combination, while a highly homogeneous relationship between NDM-positive isolates from humans and animals was demonstrated at the plasmid and core genome levels. All the findings suggest frequent CREC transmission between humans and animals, indicating that further discussions on the use of antibiotics in animals and humans are needed, both in China and across the globe.

Published

2022

19. Associations between comorbidities and annual incidence plus frequency of asthma exacerbation hospitalisation during the past year: data from CARN study

Author

Wenqiao Wang, Jiangtao Lin, Xin Zhou, Changzheng Wang, Mao Huang, Shaoxi Cai, Ping Chen, Qichang Lin, Jianying Zhou, Yuhai Gu, Yadong Yuan, Dejun Sun, Xiaohong Yang, Lan Yang, Jianmin Huo, Zhuochang Chen, Ping Jiang, Jie Zhang, Xianwei Ye, Huiguo Liu, Huaping Tang, Rongyu Liu, Chuntao Liu, Wei Zhang, Chengping Hu, Yiqiang Chen, Xiaoju Liu, Luming Dai, Wei Zhou, Yijiang Huang, and Jianying Xu

Subjects

Asthma, Exacerbation, Hospitalisation, Comorbidity, Multi-centre cross-sectional study, Diseases of the respiratory system, RC705-779

Abstract

Abstract Purpose While asthma comorbidities are associated with higher health care utilisation, lower quality of life and poorer asthma control, the impact of asthma comorbidities on hospitalisation for asthma exacerbation (H-AX) remains less recognised. We aim to analyse the impact of asthma comorbidities on H-AX. Methods Based on a national survey on asthma control and disease perception (CARN 2015 study), we analysed the impact of comorbidities on annual incidence and frequency of H-AX in China. Information on demographic characteristics, asthma comorbidities and annual incidence and frequency of H-AX were presented in this study. Results Among 3875 ambulatory asthma patients, 75.9% (2941/3875) had comorbidities, and 26.4% (1017/3858) experienced H-AX during past year. After adjusting for confounding factors such as demographic data, smoking status and asthma control, COPD [OR = 2.189, 95% CI (1.673, 2.863)] and coronary heart disease [OR = 1.387, 95% CI (1.032, 1.864)] were associated with higher annual incidence, while allergic rhinitis [OR = 0.692, 95% CI (0.588, 0.815)] was associated with lower annual incidence, of H-AX. In terms of frequency, allergic rhinitis [OR = 1.630, 95% CI (1.214, 2.187)], COPD [OR = 1.472, 95% CI (1.021, 2.122)] and anxiety [OR = 2.609, 95% CI (1.051, 6.477)] showed statistically significant correlation with frequent H-AX. Conclusions COPD and coronary heart disease were associated with higher annual incidence, while allergic rhinitis was associated with lower annual incidence of H-AX. Allergic rhinitis, COPD and anxiety were associated with frequent H-AX. Comorbidities may have an important role in the risk and frequency of annual hospitalisations due to asthma exacerbation. The goal of asthma control should rely on a multi-disciplinary treatment protocol.

Published

2022

20. Simulation study of a novel AlGaN/GaN L‐FER with ultralow turn‐on voltage and low reverse leakage

Author

Yijun Shi, Hongyue Wang, Bin Zhou, Yiqiang Chen, and Yun Huang

Subjects

Chemical technology, TP1-1185, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract In this work, a novel AlGaN/GaN lateral field‐effect rectifier (L‐FER) with ultralow turn‐on voltage (VT) and low reverse leakage current (IR) is proposed and verified by technology computer aided design (TCAD) Sentaurus. Through shortly contacting the short‐channel metal–oxide–semiconductor (MOS) structure with an Ohmic‐contact structure as the anode of the proposed L‐FER, an ultralow VT can be realized. And by inserting a floating clamp (FC) electrode near the cathode‐side MOS edge, the transverse channel potential at the MOS edge could be clamped to a small value. Thus, the high IR induced by the short‐channel effect in the MOS structure could be suppressed. In contrast to the conventional short‐channel L‐FER, the proposed FC‐L‐FER exhibits about four orders of magnitude reduction in IR, without obvious degeneration in the forward current and VT. Moreover, the proposed FC‐L‐FER also delivers excellent reverse recovery characteristics.

Published

2022

21. A Mutual Learning Framework for Pruned and Quantized Networks

Author

Xiaohai Li, Yiqiang Chen, and Jindong Wang

Subjects

model compression, network pruning, quantization, mutual learning, Computer engineering. Computer hardware, TK7885-7895, Electronic computers. Computer science, QA75.5-76.95

Abstract

Model compression is an important topic in deep learning research. It can be mainly divided into two directions: model pruning and model quantization. However, both methods will more or less affect the original accuracy of the model. In this paper, we propose a mutual learning framework for pruned and quantized networks. We regard the pruned network and the quantizated network as two sets of features that are not parallel. The purpose of our mutual learning framework is to better integrate the two sets of features and achieve complementary advantages, which we call it feature augmentation. To verify the effectiveness of our framework, we select a pairwise combination of 3 state-of-the-art pruning algorithms and 3 state-of-theart quantization algorithms. Extensive experiments on CIFAR-10, CIFAR-100 and Tiny-imagenet show the benefits of our framework: through the mutual learning of the two networks, we obtain a pruning network and a quantization network with higher accuracy at the same time.

Published

2023

22. The Influence of Special Environments on SiC MOSFETs

Author

Zhigang Li, Jie Jiang, Zhiyuan He, Shengdong Hu, Yijun Shi, Zhenbo Zhao, Yigang He, Yiqiang Chen, and Guoguang Lu

Subjects

SiC MOSFETs, hydrogen gas, HAST, planar gate structure, dual gate groove structure, asymmetric groove structure, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

In this work, the influences of special environments (hydrogen gas and high temperature, high humidity environments) on the performance of three types of SiC MOSFETs are investigated. The results reveal several noteworthy observations. Firstly, after 500 h in a hydrogen gas environment, all the SiC MOSFETs exhibited a negative drift in threshold voltage, accompanied by an increase in maximum transconductance and drain current (@ VGS/VDS = 13 V/3 V). This phenomenon can be attributed to that the hydrogen atoms can increase the positive fixed charges in the oxide and increase the electron mobility in the channel. In addition, high temperature did not intensify the impact of hydrogen on the devices and electron mobility. Instead, prolonged exposure to high temperatures may induce stress on the SiO2/SiC interface, leading to a decrease in electron mobility, subsequently reducing the transconductance and drain current (@ VGS/VDS = 13 V/3 V). The high temperature, high humidity environment can cause a certain negative drift in the devices’ threshold voltage. With the increasing duration of the experiment, the maximum transconductance and drain current (@ VGS/VDS = 18V (20 V)/3 V) gradually decreased. This may be because the presence of moisture can lead to corrosion of the devices’ metal contacts and interconnects, which can increase the devices’ resistance and lead to a decrease in the devices’ maximum transconductance and drain current.

Published

2023

23. Response and resilience of anammox consortia to nutrient starvation

Author

Dou Wang, Yulin Wang, Lei Liu, Yiqiang Chen, Chunxiao Wang, Yu-You Li, and Tong Zhang

Subjects

Anammox consortia, Nutrient starvation, Response, Resilience, Recovery, Transcriptional pattern, Microbial ecology, QR100-130

Abstract

Abstract Background It is of critical importance to understand how anammox consortia respond to disturbance events and fluctuations in the wastewater treatment reactors. Although the responses of anammox consortia to operational parameters (e.g., temperature, dissolved oxygen, nutrient concentrations) have frequently been reported in previous studies, less is known about their responses and resilience when they suffer from nutrient interruption. Results Here, we investigated the anammox community states and transcriptional patterns before and after a short-term nutrient starvation (3 days) to determine how anammox consortia respond to and recover from such stress. The results demonstrated that the remarkable changes in transcriptional patterns, rather than the community compositions were associated with the nutritional stress. The divergent expression of genes involved in anammox reactions, especially the hydrazine synthase complex (HZS), and nutrient transportation might function as part of a starvation response mechanism in anammox bacteria. In addition, effective energy conservation and substrate supply strategies (ATP accumulation, upregulated amino acid biosynthesis, and enhanced protein degradation) and synergistic interactions between anammox bacteria and heterotrophs might benefit their survival during starvation and the ensuing recovery of the anammox process. Compared with abundant heterotrophs in the anammox system, the overall transcription pattern of the core autotrophic producers (i.e., anammox bacteria) was highly resilient and quickly returned to its pre-starvation state, further contributing to the prompt recovery when the feeding was resumed. Conclusions These findings provide important insights into nutritional stress-induced changes in transcriptional activities in the anammox consortia and would be beneficial for the understanding of the capacity of anammox consortia in response to stress and process stability in the engineered ecosystems. Video Abstract

Published

2022

24. Segmental Degradation RUL Prediction of IGBT Based on Combinatorial Prediction Algorithms

Author

Linghui Meng, Yiqiang Chen, and Zhenwei Zhou

Subjects

IGBT, power cycling, accelerated aging, gray prediction, particle filter, RUL prediction, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Aiming at the segmentation nonlinear degradation characteristics of IGBT, the traditional single remaining useful lifetime (RUL) method has low accuracy. This paper proposes a method combining gray prediction and particle filter algorithm. The gray prediction model is used for slow degradation trends prediction in the early stage. When the health precusor parameters reach the fault warning line, the improved particle filter algorithm is used for this stage’s prediction with the characteristics of fast nonlinear degradation. The comparison analysis result shows that the combinatorial prediction algorithms used in this paper can be better for tracking the degradation trends of IGBT, and the prediction accuracy is higher than either of the two single prediction methods.

Published

2022

25. Experimental Investigation and Model Analysis on a GaN Electrostatic Discharge Clamp

Author

Yijun Shi, Zhiyuan He, Yun Huang, Zongqi Cai, Yiqiang Chen, Chang Liu, Chao Liu, Wanjun Chen, Ruize Sun, and Guoguang Lu

Subjects

Electrostatic discharge, ESD clamp, GaN HEMT, triggering voltage, human body model, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This work carried out the experimental investigation and model analysis on a GaN electrostatic discharge (ESD) clamp, which features a discharge high electron mobility transistor (HEMT) and a voltage divider formed by a lateral field effect rectifier (L-FER) chain and a resistor in series. Firstly, it is found through the experimental investigation, the turn-on voltage ( $V_{\mathrm {T}}$ ) of GaN ESD clamp’s static current is increased with the increase in L-FER’s number and the decrease in resistor’s value. Then, an analytical model is proposed to analyze the dependence of $V_{\mathrm {T}}$ on L-FER’s number and resistor’s value. And the analytical model exhibits a good consistency with the experimentally measured results, which confirms the validity of the presented analytical model. Lastly, the dependence of GaN ESD clamp’s transmission line pulsing characteristics on the L-FER’s number and resistor’s value is also analyzed. Similarly, GaN ESD clamp’s triggering voltage is also increased with the increase in L-FER’s number and the decrease in resistor’s value. The experimental investigation and model analysis of this work can be used to direct the design of GaN ESD clamp, and help to save a lot of manpower, material resources and time costs.

Published

2022

26. Robotic fabrication of high-quality lamellae for aberration-corrected transmission electron microscopy

Author

Hideyo Tsurusawa, Nobuto Nakanishi, Kayoko Kawano, Yiqiang Chen, Mikhail Dutka, Brandon Van Leer, and Teruyasu Mizoguchi

Subjects

Medicine, Science

Abstract

Abstract Aberration-corrected scanning transmission electron microscopy (STEM) is widely used for atomic-level imaging of materials but severely requires damage-free and thin samples (lamellae). So far, the preparation of the high-quality lamella from a bulk largely depends on manual processes by a skilled operator. This limits the throughput and repeatability of aberration-corrected STEM experiments. Here, inspired by the recent successes of “robot scientists”, we demonstrate robotic fabrication of high-quality lamellae by focused-ion-beam (FIB) with automation software. First, we show that the robotic FIB can prepare lamellae with a high success rate, where the FIB system automatically controls rough-milling, lift-out, and final-thinning processes. Then, we systematically optimized the FIB parameters of the final-thinning process for single crystal Si. The optimized Si lamellae were evaluated by aberration-corrected STEM, showing atomic-level images with 55 pm resolution and quantitative repeatability of the spatial resolution and lamella thickness. We also demonstrate robotic fabrication of high-quality lamellae of SrTiO3 and sapphire, suggesting that the robotic FIB system may be applicable for a wide range of materials. The throughput of the robotic fabrication was typically an hour per lamella. Our robotic FIB will pave the way for the operator-free, high-throughput, and repeatable fabrication of the high-quality lamellae for aberration-corrected STEM.

Published

2021

27. Prokaryotic viruses impact functional microorganisms in nutrient removal and carbon cycle in wastewater treatment plants

Author

Yiqiang Chen, Yulin Wang, David Paez-Espino, Martin F. Polz, and Tong Zhang

Subjects

Science

Abstract

Activated sludge (AS) systems in wastewater treatment plants (WWTPs) contain high concentration of viruses. Here, the authors apply a systematic metagenomic pipeline and retrieve a catalogue of around 50,000 prokaryotic viruses from samples of six WWTPs, revealing a large and uncharacterized viral diversity in AS communities.

Published

2021

28. Clinical and hemodynamic features of acute pulmonary embolism patients diagnosed in cold weather predicts adverse clinical outcome

Author

Na Sun, Yiqiang Chen, Xichao Liang, Youli Fan, Ming Fang, Xuan Gao, Yongbing Wang, Yansheng Chen, Zhuozhong Wang, Bo Yu, Jinwei Tian, and Bingxiang Wu

Subjects

acute pulmonary embolism, cold weather, hemodynamic, clinical, outcome, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

BackgroundAcute pulmonary embolism (APE) is associated with peak incidence and mortality rate in winter. The present study sought to characterize the clinical and hemodynamic features of cold weather on APE patients.MethodsAll enrolled 224 APE patients underwent clinical and hemodynamic evaluation and baseline parameters were collected. Recruited patients were grouped by weather pattern on admission into cold and warm weather group. The correlation and prognostic values among cold weather and other variables were analyzed.ResultsCompared to warm weather group, patients in cold weather group present with more severe cardiac function, with adverse WHO-functional class (P = 0.032) and higher NT-proBNP concentration [1,853.0 (398.0, 5,237.0) pg/ml vs. 847.5 (56.8, 3,090.5) pg/ml, P = 0.001]. The cold weather group also displayed much critical hemodynamic status and heavier thrombosis load, with higher mPAP (29.1 ± 11.2mmHg vs. 25.6 ± 14.2mmHg, P = 0.045), higher PVR [3.3 (1.7, 6.0) wood units vs. 1.8 (0.9, 3.8) wood units, P < 0.001], higher Miller index (21.4 ± 5.9 vs. 19.1 ± 8.0, P = 0.024), and higher D-dimer levels [2,172.0 (854.5, 3,072.5) mg/L vs. 1,094.5 (210.5, 2,914.5) mg/L, P = 0.008]. Besides, cold weather showed well correlation with the above variables. Survival analysis showed APE patients in cold weather had significantly higher clinical worsening event rate (P = 0.010) and could be an independent predictor of adverse clinical outcome in the multivariate analysis (HR 2.629; 95% CI 1.127, 6.135; P = 0.025).ConclusionAPE patients in cold weather were associated with thrombus overload, cardiac dysfunction, hemodynamic collapse and higher clinical worsening event rate. Cold weather proves to be an independent predictor of adverse clinical outcome.

Published

2022

29. Differential Proteomic and Genomic Comparison of Resistance Mechanism of Pseudomonas aeruginosa to Cefoperazone Sodium/Sulbactam Sodium

Author

SHUANGQI CAI, KEXING ZHANG, FEI WEI, LEI YANG, DEZHI SONG, JIN LUO, HONG HUANG, XINGXIN GAO, GANG DU, JINLIANG KONG, and YIQIANG CHEN

Subjects

Pseudomonas aeruginosa, cefoperazone sodium/sulbactam sodium, drug resistance, mechanism, Science

Abstract

Abstract The aim of this study was to determine the resistance mechanism of Pseudomonas aeruginosa to cefoperazone sodium/sulbactam sodium. We retrospectively analyzed the drug resistance of P.a isolated at the First Affiliated Hospital of Guangxi Medical University. Drug-resistant P.a strains were constructed, then wild-type (WT) and drug-resistant (DR) strains were compared using protein and gene microarrays to determine differences between DR and WT strains. The resistance rates of P. aeruginosa during 2013, 2014 and 2015 were 21.2%, 21.4%, and 24.6% respectively. Among 242 protein peaks of WT and DR bacteriophage proteins, 41 were differentially expressed between the two groups. The expression of 26 and 15 proteins were respectively upregulated and downregulated in the DR compared with the WT group. Gene microarray results revealed 679 mutant loci in the DR group, of which 42 with the top 50 Q values were found in the NCBI database. The rate of P.a resistance to cefoperazone sodium/sulbactam sodium remained high between 2013 and 2015. The numbers of different proteins and genetic variations in the DR strains suggested that the resistance mechanism of P.a to cefoperazone sodium/sulbactam sodium involves multiple genes and proteins that might be key to controlling P.a resistance to cefoperazone sodium/sulbactam sodium.

Published

2022

30. Longitudinal genomic alternations and clonal dynamics analysis of primary malignant melanoma of the esophagus

Author

Jingjing Li, Wenyan Guan, Wei Ren, Ziyao Liu, Hongyan Wu, Yiqiang Chen, Siyuan Liu, Xiangming Quan, Zuoquan Yang, Chong Jiang, Jian He, Xiao Xiao, and Qing Ye

Subjects

Primary malignant melanoma of the esophagus, Early dissemination, ARHGAP35, Dynamic evolution, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Primary malignant melanoma of the esophagus (PMME) is a rare gastrointestinal melanoma with a high rate of recurrence and metastasis. The standard of care for PMME has not been established yet due to a lack of understanding of its clinical and molecular pathogenesis. Thus, we performed genomic profiling on a recurrent PMME case to seek novel opportunities for the management of this rare disease. Between 2013 and 2016, 6 tissue samples including 3 from the primary tumors, 2 from the relapsed tumors, and 1 from a normal control were collected from a patient diagnosed with PMME and were subjected to whole-exome sequencing to track the dynamic genetic changes. Additionally, we also analyzed a cohort of 398 samples obtained from the TCGA skin cutanesous melanoma (TCGA-SKCM) dataset to assess the frequency and determine the clinical implications of genomic events found in the presented study. ARHGAP35 (p.L1022M) was the only mutation shared across temporal PMME lesions. The PMME samples showed higher levels of genetic instability and intra-tumor heterogeneity. They also shared several concordant copy number variations (CNV). All lesions were concordant with the evolution trajectory, and shrinkage of the founding clone caused the subclonal population to become dominant in PT1c, which was likely the reason behind metastatic seeding. ARHGAP35 mutations were found in 6% of the TCGA-SKCM cohort samples. The presence of the mutations was associated with poor progression-free survival (PFS) by both univariate and multivariate Cox regression analyses. Our study showed that the primary tumor clone disseminates earlier in PMME. This highlights the need to understand the mechanism involved in the early PMME recurrence to optimize treatment.

Published

2022

31. Ginkgo biloba Extract Preventively Intervenes in Citrobacter Rodentium-Induced Colitis in Mice

Author

Tingting Chen, Yiqiang Chen, Kaiyuan Li, Zhuo Chen, Qingyu Zhao, Yimeng Fan, Ying Liu, Suxia Zhang, and Zhihui Hao

Subjects

Ginkgo biloba extract, colitis, Citrobacter Rodentium, gut microbiota, short chain fatty acids, Nutrition. Foods and food supply, TX341-641

Abstract

Inflammatory bowel disease (IBD) represents a highly recurrent gastrointestinal disorder and global public health issue. However, it lacks effective and safe strategies for its control. Although Ginkgo biloba extract (GBE) has been suggested to exhibit preventive and therapeutic activity for the control of IBD, whether its activity is associated with its ability to modulate intestinal microbiota remains to be addressed. To investigate the effect of GBE on controlling IBD, a Citrobacter Rodentium (CR)-induced mouse colitis model was used, and then histopathological examinations, biochemical assays, immunohistochemistry, and immunoblotting were performed to detect histological changes, cytokines, and tight junction (TJ) proteins in the intestine samples. We also studied 16s rRNA to detect changes in intestinal microbiota and used GC-MS to determine the microbiota-related metabolites short chain fatty acids (SCFAs). The results of our studies revealed that pre-treatment with GBE was sufficient for protecting the animals from CR-induced colitis. As a mechanism for GBE activity, GBE treatment was able to modulate the intestinal microbiota and increase the SCFAs capable of decreasing the pro-inflammatory factors and up-regulating the anti-inflammatory factors while elevating the intestinal-barrier-associated proteins to maintain the integrity of the intestines. Accordingly, our results led to a strong suggestion that GBE should be seriously considered in the preventive control of CR-induced colitis and in the development of effective and safe therapeutic strategies for controlling IBD.

Published

2023

32. Analysis of ethoxyquin and its oxidation products in swine tissues by gas chromatography-tandem mass spectrometry for evaluating the feed-to-animal tissue transfer of ethoxyquin and its metabolites

Author

Chi Zhang, Xiangrong Gai, Ying Tian, Jiayi Wang, Dongting He, Wenjun Yang, Liying Zhang, and Yiqiang Chen

Subjects

Ethoxyquin, Ethoxyquin dimer, Ethoxyquin quinone imine, Gas chromatography-tandem mass spectrometry, Safety evaluation, Swine tissues, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Ethoxyquin (EQ) is a common antioxidant which is widely used in animal feed. But the supplement of EQ in animal feed may lead to the residues of EQ and its major oxidation products: ethoxyquin quinone imine (EQI) and ethoxyquin dimer (EQDM) in animal tissue. Thus, it would pose potential health hazards to consumers. However, the method for the simultaneous determination of EQ, EQI and EQDM in animal tissues is currently not available, and the accumulation extend of these chemicals in animal tissues after EQ administration remains to be evaluated. Results A gas chromatography-tandem mass spectrometry method was successfully developed for the simultaneous determination of EQ, EQI and EQDM in swine tissues. The quantitative limits of EQ, EQI and EQDM can achieve to 0.5, 5.0 and 5.0 μg/kg in swine tissues, respectively. The spiked-recovery ratios of the three analytes (5–2000 μg/kg) were in the range of 64.7%–100.7% with relative standard deviations below 11.6%. Moreover, the utilization of this method for the analysis of actual swine tissue samples revealed that the application of commercial EQ additive in swine diet would produce the residues of all the three chemicals (EQ, EQI and EQDM) in fat, kidney, liver and muscle. Conclusions The assay accuracy and precision of this GC-MS/MS method can meet the requirement of quantitative analysis. Meanwhile, the safety of EQ as a feed additive should be seriously considered with regard to food safety concerns since the oxidation product of EQ may have potential carcinogenicity.

Published

2021

33. Research on Negative Bias Temperature Instability Effects Under the Coupling of Total Ionizing Dose Irradiation for PDSOI MOSFETs

Author

Chao Peng, Rui Gao, Zhifeng Lei, Zhangang Zhang, Yiqiang Chen, Yun-Fei En, and Yun Huang

Subjects

MOSFET, negative bias temperature instability, silicon on insulator, total ionizing dose effect, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The degradation mechanisms for pMOSFETs from a 130 nm partially-depleted silicon on insulator (PDSOI) technology under the combined effects of total ionizing dose (TID) and negative bias temperature instability (NBTI) are investigated. The TID and NBTI related degradations show an opposite trend as gate oxide scaling, which implies the different traps are activated during irradiation and NBTI stress. The radiation-induced traps can affect the NBTI effect of pMOSFET, especially for the ON bias irradiation. The irradiated I/O pMOSFET shows a smaller threshold voltage shift than the un-irradiated device under the same NBTI stress at the early stress stage. It may be contributed to the enhanced Fowler-Nordheim electron injection during NBTI stressing after ON bias irradiation. But the irradiation also increases the time exponent $n$ from 0.11 to 0.13 for Core pMOSFETs and from 0.18 to 0.20 for I/O devices. It means that the NBTI degradations become worse after ON bias irradiation in a long time scale. This phenomenon is attributed to the change of trap characteristics caused by irradiation. As a result, the NBTI lifetime of Core device is reduced by nearly three orders of magnitude and the lifetime of I/O device is reduced by five times after ON bias irradiation at the rated operating voltage.

Published

2021

34. Pareto Optimal Allocation of Flexible Fault Current Limiter Based on Multi-Objective Improved Bat Algorithm

Author

Zhengyu Shu, Yiqiang Chen, Changhong Deng, Feng Zheng, and Hao Zhong

Subjects

Pareto optimal configuration, cascaded H bridge fault current limiters, sensitivity factor analysis, multi-objective optimization, life cycle cost, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

With the sustainable growth in the integration of distributed generation units in the distribution network, the probability of the fault current level exceeding the rating of existing components increases. Cascaded H bridge fault current limiter is widely used in the power grid due to its advantage in inhibiting surge current flexibly. In order to equilibrate the objective functions of its cost, fault current mitigation effect, and the weighted load reliability index, a novel methodology is proposed to simultaneously optimize the location and size of the limiters in the distribution network. Therein, the sensitivity factor considering the Monte Carlo fault simulation model is introduced to reduce the search space and rank candidate locations referencing the actual conditions. And then, according to the candidate locations and considering different conflicting objective functions, a multi-objective improved bat algorithm is employed to obtain the Pareto optimal solution set. Also, life cycle cost and net present value are introduced to construct an economic model to access the scheme costs and service life. The proposed approach is verified using the modified IEEE 33-bus distribution systems with DGs and IEEE 30-bus Benchmark system. The results demonstrate that the proposed method exhibits higher efficiency in finding optimum solutions and provides a new economic configuration idea for the practical engineering application.

Published

2021

35. High-quality bacterial genomes of a partial-nitritation/anammox system by an iterative hybrid assembly method

Author

Lei Liu, Yulin Wang, You Che, Yiqiang Chen, Yu Xia, Ruibang Luo, Suk Hang Cheng, Chunmiao Zheng, and Tong Zhang

Subjects

Iterative hybrid assembly, High contiguity, One-stage partial-nitritation anammox, Microbial ecology, QR100-130

Abstract

Abstract Background Genome-centric approaches are widely used to investigate microbial compositions, dynamics, ecology, and interactions within various environmental systems. Hundreds or even thousands of genomes could be retrieved in a single study contributed by the cost-effective short-read sequencing and developed assembly/binning pipelines. However, conventional binning methods usually yield highly fragmented draft genomes that limit our ability to comprehensively understand these microbial communities. Thus, to leverage advantage of both the long and short reads to retrieve more complete genomes from environmental samples is a must-do task to move this direction forward. Results Here, we used an iterative hybrid assembly (IHA) approach to reconstruct 49 metagenome-assembled genomes (MAGs), including 27 high-quality (HQ) and high-contiguity (HC) genomes with contig number ≤ 5, eight of which were circular finished genomes from a partial-nitritation anammox (PNA) reactor. These 49 recovered MAGs (43 MAGs encoding full-length rRNA, average N50 of 2.2 Mbp), represented the majority (92.3%) of the bacterial community. Moreover, the workflow retrieved HQ and HC MAGs even with an extremely low coverage (relative abundance < 0.1%). Among them, 34 MAGs could not be assigned to the genus level, indicating the novelty of the genomes retrieved using the IHA method proposed in this study. Comparative analysis of HQ MAG pairs reconstructed using two methods, i.e., hybrid and short reads only, revealed that identical genes in the MAG pairs represented 87.5% and 95.5% of the total gene inventory of hybrid and short reads only assembled MAGs, respectively. In addition, the first finished anammox genome of the genus Ca. Brocadia reconstructed revealed that there were two identical hydrazine synthase (hzs) genes, providing the exact gene copy number of this crucial phylomarker of anammox at the genome level. Conclusions Our results showcased the high-quality and high-contiguity genome retrieval performance and demonstrated the feasibility of complete genome reconstruction using the IHA workflow from the enrichment system. These (near-) complete genomes provided a high resolution of the microbial community, which might help to understand the bacterial repertoire of anammox-associated systems. Combined with other validation experiments, the workflow can enable a detailed view of the anammox or other similar enrichment systems. Video Abstract

Published

2020

36. Transforming solid-state precipitates via excess vacancies

Author

Laure Bourgeois, Yong Zhang, Zezhong Zhang, Yiqiang Chen, and Nikhil V. Medhekar

Subjects

Science

Abstract

Exactly how seemingly simple solid-state precipitation occurs in alloys remains elusive. Here, the authors show that excess vacancies introduced into a nanoscale, irradiated or deformed aluminium-copper alloy enable template-directed nucleation of the known strengthening phase θʹ.

Published

2020

37. A Fast Extraction Method of Energy Distribution of Border Traps in AlGaN/GaN MIS-HEMT

Author

Rui Gao, Yijun Shi, Zhiyuan He, Yiqiang Chen, Yunfei En, Yun Huang, Zhigang Ji, Jianfu Zhang, Weidong Zhang, Xuefeng Zheng, Jinfeng Zhang, and Yang Liu

Subjects

GaN MIS-HEMT, energy distribution, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

MIS-HEMT is one of the most promising structures to prohibit the unfavorable gate leakage in conventional AlGaN/GaN HEMTs. However, the extra insulator layer introduces massive border traps at insulator/AlGaN interface and results in the poor reliability. In this brief the energy distribution of border traps in AlGaN/GaN MIS-HEMT gate stack is extracted and investigated through a discharging-based trap energy profile technique. The technique adopts spot-Id sense measurement with 1 millisecond measurement time to capture the “whole (both fast and slow)” border traps. The results are beneficial to improve the reliability of AlGaN/GaN MIS-HEMT.

Published

2020

38. Investigation of Negative Bias Temperature Instability Effect in Partially Depleted SOI pMOSFET

Author

Chao Peng, Zhifeng Lei, Rui Gao, Zhangang Zhang, Yiqiang Chen, Yunfei En, and Yun Huang

Subjects

Low frequency noise, negative bias temperature instability, silicon on insulator, TCAD simulation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The negative bias temperature instability (NBTI) mechanisms for Core and input/output (I/O) devices from a 130 nm partially-depleted silicon on insulator (PDSOI) technology are investigated. The I/O device degrades more than the Core device under the same stress electric field due to the different gate oxide processes in these two types of devices. Both the oxide trap charge and interface trap lead to the transfer characteristics degradations of the device after NBTI. While the near interfacial traps result in the increase of low frequency noise (LFN). The trap densities near the silicon/gate oxide interface introduced by stress are extracted using the LFN method. NBTI-induced gate current increase is observed for Core device, but not for I/O device. It is result from the enhanced tunneling process, which is induced by the increase of electric field in the gate oxide after charge trapping at or near the channel interface. The gate width and length dependences of NBTI are observed. The enhanced NBTI degradation observed in short channel and narrow channel device is result from the enhanced NBTI effect at channel edge regions. The larger hole concentration is a main cause of the more serious NBTI degradation at the channel edge regions, including the nearby region of STI sidewall along the channel width direction and the gate edge region along the channel length direction. This conclusion is also verified by the TCAD simulations.

Published

2020

39. Effect of Electro-Thermo-Mechanical Coupling Stress on Top-Cooled E-Mode AlGaN/GaN HEMT

Author

Jie Jiang, Qiuqi Chen, Shengdong Hu, Yijun Shi, Zhiyuan He, Yun Huang, Caixin Hui, Yiqiang Chen, Hao Wu, and Guoguang Lu

Subjects

AlGaN/GaN, HEMT, electro-thermo-mechanical coupling, COMSOL, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

This work investigated the effects of single stress and electro-thermo-mechanical coupling stress on the electrical properties of top-cooled enhancement mode (E-mode) Aluminium Gallium Nitride/Gallium Nitride (AlGaN/GaN) high electron mobility transistor (HEMT) (GS66508T). Planar pressure, linear deformation, punctate deformation, environmental temperature, electro-thermal coupling, thermo-mechanical coupling, and electro-thermo-mechanical coupling stresses were applied to the device. It was found that different kinds of stress had different influence mechanisms on the device. Namely, excessive mechanical pressure/deformation stress caused serious, irrecoverable degradation of the device’s leakage current, with the gate leakage current (Ig) increasing by ~107 times and the drain-to-source leakage current (Idss) increasing by ~106 times after mechanical punctate deformation of 0.5 mm. The device characteristics were not restored after the mechanical stress was removed. Compared with three mechanical stresses, environmental thermal stress had a greater influence on the device’s transfer characteristic and on-resistance (Ron) but far less influence on Ig and Idss. As was expected, multiple stress coupled to the device promoted invalidation of the device. For more in-depth investigation, finite element simulation carried out with COMSOL was used to analyze the effect of electro-thermo-mechanical coupling stress on top-cooled E-mode AlGaN/GaN HEMT. The results of the experiments and simulation demonstrated that single and coupled stresses, especially mechanical stress coupled with other stresses, degraded the electrical properties or even caused irreversible damage to top-cooled E-mode AlGaN/GaN HEMT. Mechanical stress should be reduced as much as possible in the packaging design, transportation, storage, and application of top-cooled E-mode AlGaN/GaN HEMT.

Published

2023

40. Knowledge discovery in sociological databases: An application on general society survey dataset

Author

Zhiwen Pan, Jiangtian Li, Yiqiang Chen, Jesus Pacheco, Lianjun Dai, and Jun Zhang

Subjects

data management, data mining, crowdsourced big data and analytics, knowledge discovery, Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Purpose – The General Society Survey(GSS) is a kind of government-funded survey which aims at examining the Socio-economic status, quality of life, and structure of contemporary society. GSS data set is regarded as one of the authoritative source for the government and organization practitioners to make data-driven policies. The previous analytic approaches for GSS data set are designed by combining expert knowledges and simple statistics. By utilizing the emerging data mining algorithms, we proposed a comprehensive data management and data mining approach for GSS data sets. Design/methodology/approach – The approach are designed to be operated in a two-phase manner: a data management phase which can improve the quality of GSS data by performing attribute pre-processing and filter-based attribute selection; a data mining phase which can extract hidden knowledge from the data set by performing data mining analysis including prediction analysis, classification analysis, association analysis and clustering analysis. Findings – According to experimental evaluation results, the paper have the following findings: Performing attribute selection on GSS data set can increase the performance of both classification analysis and clustering analysis; all the data mining analysis can effectively extract hidden knowledge from the GSS data set; the knowledge generated by different data mining analysis can somehow cross-validate each other. Originality/value – By leveraging the power of data mining techniques, the proposed approach can explore knowledge in a fine-grained manner with minimum human interference. Experiments on Chinese General Social Survey data set are conducted at the end to evaluate the performance of our approach.

Published

2019

41. Smart Decision-Support System for Pig Farming

Author

Hao Wang, Boyang Li, Haoming Zhong, Ahong Xu, Yingjie Huang, Jingfu Zou, Yuanyuan Chen, Pengcheng Wu, Yiqiang Chen, Cyril Leung, and Chunyan Miao

Subjects

smart agriculture, pig farming, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

There are multiple participants, such as farmers, wholesalers, retailers, financial institutions, etc., involved in the modern food production process. All of these participants and stakeholders have a shared goal, which is to gather information on the food production process so that they can make appropriate decisions to increase productivity and reduce risks. However, real-time data collection and analysis continue to be difficult tasks, particularly in developing nations, where agriculture is the primary source of income for the majority of the population. In this paper, we present a smart decision-support system for pig farming. Specifically, we first adopt rail-based unmanned vehicles to capture pigsty images. We then conduct image stitching to avoid double-counting pigs so that we can use image segmentation method to give precise masks for each pig. Based on the segmentation masks, the pig weights can be estimated, and data can be integrated in our developed mobile app. The proposed system enables the above participants and stakeholders to have real-time data and intelligent analysis reports to help their decision-making.

Published

2022

42. Determination of Zearalenone and Its Derivatives in Feed by Gas Chromatography–Mass Spectrometry with Immunoaffinity Column Cleanup and Isotope Dilution

Author

Sunlin Luo, Ying Liu, Qi Guo, Xiong Wang, Ying Tian, Wenjun Yang, Juntao Li, and Yiqiang Chen

Subjects

zearalenone and its derivatives, GC-MS, immunoaffinity column, isotope dilution, feed, Medicine

Abstract

In this study, a gas chromatography–mass spectrometry (GC-MS) method was established for the determination of zearalenone and its five derivatives in feed, including zearalanone, α-zearalanol, β-zearalanol, α-zearalenol, and β-zearalenol. An effective immunoaffinity column was prepared for sample purification, which was followed by the silane derivatization of the eluate after an immunoaffinity chromatography analysis for target compounds by GC-MS. Matrix effects were corrected by an isotope internal standard of zearalenone in this method. The six analytes had a good linear relationship in the range of 2–500 ng/mL, and the correlation coefficients were all greater than 0.99. The limits of detection (LODs) and limits of quantification (LOQs) were less than 1.5 μg/kg and 5.0 μg/kg, respectively. The average spike recoveries for the six feed matrices ranged from 89.6% to 112.3% with relative standard deviations (RSDs) less than 12.6%. Twenty actual feed samples were analyzed using the established method, and at least one target was detected. The established GC-MS method was proven to be reliable and suitable for the determination of zearalenone and its derivatives in feed.

Published

2022

43. Immunoaffinity Cleanup and Isotope Dilution-Based Liquid Chromatography Tandem Mass Spectrometry for the Determination of Six Major Mycotoxins in Feed and Feedstuff

Author

Ying Liu, Yongpeng Jin, Qi Guo, Xiong Wang, Sunlin Luo, Wenjun Yang, Juntao Li, and Yiqiang Chen

Subjects

LC-MS/MS, mycotoxins, feed, feedstuff, immunoaffinity column, isotope internal standard, Medicine

Abstract

In this study, a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method for simultaneous determination of deoxynivalenol, aflatoxin B1, zearalenone, ochratoxin A, T-2 toxin and fumonisin B1 in feed and feedstuff was established. The sample was extracted with an acetonitrile–water mixture (60:40, v/v), purified by an immunoaffinity column, eluted with a methanol–acetic acid mixture (98:2, v/v), and reconstituted with a methanol–water mixture (50:50, v/v) after drying with nitrogen. Finally, the reconstituted solution was detected by LC-MS/MS and quantified by isotope internal standard method. The six mycotoxins had a good linear relationship in a certain concentration range, the correlation coefficients were all greater than 0.99, the limits of detection were between 0.075 and 1.5 µg·kg−1, and the limits of quantification were between 0.5 and 5 µg·kg−1. The average spike recoveries in the four feed matrices ranged from 84.2% to 117.1% with relative standard deviations less than 11.6%. Thirty-six actual feed samples were analyzed for mycotoxins, and at least one mycotoxin was detected in each sample. The proposed method is reliable and suitable for detecting common mycotoxins in feed samples.

Published

2022

44. Electrophysiological Correlates of Character Transposition in the Left and Right Visual Fields

Author

Er-Hu Zhang, Xue-Xian Lai, Defeng Li, Victoria Lai Cheng Lei, Yiqiang Chen, and Hong-Wen Cao

Subjects

character transposition, left and right visual fields, N250, N400, LPC, Psychology, BF1-990

Abstract

This study examined the brain activity elicited by the hemispheric asymmetries and morpheme transposition of two-character Chinese words (canonical and transposed word) and pseudowords using event-related potentials (ERPs) with a dual-target rapid serial visual presentation (RSVP) task. Electrophysiological results showed facilitation effects for canonical words with centrally presented visual field (CVF) and right visual field (RVF) presentations but not with left visual field (LVF) presentations, as reflected by less negative N400 amplitudes. Moreover, more positive late positive component (LPC) amplitudes were observed for both canonical words and transposed words irrespective of the visual fields. More importantly, transposed words elicited a more negative N400 amplitude and a less positive LPC amplitude compared with the amplitudes elicited by canonical words for CVF and RVF presentations. For LVF presentations, transposed words elicited a less negative N250 amplitude compared with canonical words, and there was no significant difference between canonical words and transposed words in the N400 effect. Taken together, we concluded that character transposition facilitated the mapping of whole-word orthographic representation to semantic information in the LVF, as reflected by the N250 component, and such morpheme transposition influenced whole-word semantic processing in CVF and RVF presentations, as reflected by N400 and LPC components.

Published

2021

45. Rapid one-step enzyme immunoassay and lateral flow immunochromatographic assay for colistin in animal feed and food

Author

Jiayi Wang, Jinyu Zhou, Yiqiang Chen, Xinpei Zhang, Yongpeng Jin, Xiaojing Cui, Dongting He, Wenqing Lai, and Lidong He

Subjects

Colistin, ELISA, Feed, Food, Gold nanoparticle, Lateral flow immunochromatographic assay, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Background Colistin (polymyxin E) is a kind of peptide antibiotic which has been approved in animal production for the purposes of disease prevention, treatment, and growth promotion. However, the wide use of colistin in animal feed may accelerate the spread of colistin-resistance gene MCR-1 from animal production to human beings, and its residue in animal-origin food may also pose serious health hazards to humans. Thus, it is necessary to develop corresponding analytical methods to monitor the addition of colistin in animal feed and the colistin residue in animal-origin food. Results A one-step enzyme-linked immunosorbent assay (ELISA) and a lateral flow immunochromatographic assay (LFIA) for colistin were developed based on a newly developed monoclonal antibody. The ELISA showed a 50% inhibition value (IC50) of 9.7 ng/mL with assay time less than 60 min, while the LFIA had a strip reader-based detection limit of 0.87 ng/mL in phosphate buffer with assay time less than 15 min. For reducing the non-specific adsorption of colistin onto sample vial, the components of sample extraction solution were optimized and proved to greatly improve the assay accuracy. The spiked recovery experiment showed that the recoveries of colistin from feed, milk and meat samples were in the range of 77.83% to 113.38% with coefficient of variations less than 13% by ELISA analysis and less than 18% by LFIA analysis, respectively. Furthermore, actual sample analysis indicated that the two immunoassays can produce results consistent with instrumental analysis. Conclusions The developed assays can be used for rapid qualitative or quantitative detection of colistin in animal feed and food.

Published

2019

46. Exploring the effects of operational mode and microbial interactions on bacterial community assembly in a one-stage partial-nitritation anammox reactor using integrated multi-omics

Author

Yulin Wang, Qigui Niu, Xu Zhang, Lei Liu, Yubo Wang, Yiqiang Chen, Mishty Negi, Daniel Figeys, Yu-You Li, and Tong Zhang

Subjects

One-stage partial-nitritation anammox, Microbial community assembly, Nitrogen cycle, Auxotrophies, Multi-omics, Microbial ecology, QR100-130

Abstract

Abstract Background The metabolic capacities of anammox bacteria and associated microbial community interactions in partial-nitritation anammox (PNA) reactors have received considerable attention for their crucial roles in energy-efficient nitrogen removal from wastewater. However, a comprehensive understanding of how abiotic and biotic factors shape bacterial community assembly in PNA reactors is not well reported. Results Here, we used integrated multi-omics (i.e., high-throughput 16S rRNA gene, metagenomic, metatranscriptomic, and metaproteomic sequencing) to reveal how abiotic and biotic factors shape the bacterial community assembly in a lab-scale one-stage PNA reactor treating synthetic wastewater. Analysis results of amplicon sequences (16S rRNA gene) from a time-series revealed distinct relative abundance patterns of the key autotrophic bacteria, i.e., anammox bacteria and ammonia-oxidizing bacteria (AOB), and the associated heterotrophic populations in the seed sludge and the sludge at the new stable state after deterioration. Using shotgun metagenomic sequences of anammox sludge, we recovered 58 metagenome-assembled genomes (MAGs), including 3 MAGs of anammox bacteria and 3 MAGs of AOB. The integrated metagenomic, metatranscriptomic, and metaproteomic data revealed that nitrogen metabolism is the most active process in the studied PNA reactor. The abundant heterotrophs contribute to the reduction of nitrate to nitrite/ammonium for autotrophic bacteria (anammox bacteria and AOB). Genomic and transcriptomic data revealed that the preference for electron donors of the dominant heterotrophs in different bacterial assemblages (seed and new stable state) varied along with the shift in anammox bacteria that have different metabolic features in terms of EPS composition. Notably, the most abundant heterotrophic bacteria in the reactor were more auxotrophic than the less abundant heterotrophs, regarding the syntheses of amino acids and vitamins. In addition, one of the abundant bacteria observed in the bacterial community exhibited highly transcribed secretion systems (type VI). Conclusions These findings provide the first insight that the bacterial communities in the PNA reactor are defined by not only abiotic factors (operating mode) but also metabolic interactions, such as nitrogen metabolism, exchange of electron donors, and auxotrophies.

Published

2019

47. Design of Hybrid Control Algorithm for Fault Ride-Through of Photovoltaic System

Author

Feng Zheng, Yiqiang Chen, Tao Ye, Yachao Zhang, Fang Guo, and Yi Zhang

Subjects

Fault ride-through capability, model current predictive control, non-MPPT algorithm, asymmetric fault, second harmonic frequency, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

This paper proposes a novel control algorithm to enhance the fault ride-through (FRT) capability of a photovoltaic (PV) system. In this method, the overcurrent of the grid-tied inverter is suppressed to a preset value using model current predictive control (MCPC) algorithm, and its DC-link overvoltage is removed using a non-maximum power point tracker (non-MPPT) algorithm. Therefore, the inverter overcurrent and its DC-link overvoltage problems can be placed under decoupling control using a DC/AC converter controller and DC/DC converter controller, respectively. Using eight switching modes for the three-phase inverter, the MCPC of DC/AC converter controller establishes a value function between the current reference value and output current value. Then, by introducing the switching mode (corresponding to the minimum value function) into the DC/AC converter controller, if the current reference is set at the rated value, the inverter's output current can be inhibited to the rated value under fault conditions. Moreover, a balanced three-phase rated current can always be obtained under either a symmetric or asymmetric fault. However, together with the MCPC, a DC-link overvoltage will appear. To remove this DC-link overvoltage quickly, based on the grid system voltage sag level, the non-MPPT algorithm is used to calculate the adjusted power for PV arrays. Then, based on the calculated power, the amended duty cycle can be obtained and immediately introduced into the DC/DC converter controller to tune the PV arrays' output power, which significantly decreases the power imbalance between the inverter's AC and DC sides, thus inhibiting the DC-link overvoltage. In addition, to inhibit DC-link voltage fluctuations further, DC-link voltage feedforward compensation is introduced into the DC/DC converter controller. In particular, under an asymmetric fault condition, with the help of the voltage feedforward compensation, the second harmonic frequency components of the DC-link voltage can also be removed. Finally, based on the theoretical derivation and simulation results, it can be proved that the major problems troubling a PV system's FRT technologies can be resolved by the proposed method, especially the problem related to the harmonic components of the DC-link voltage.

Published

2019

48. An AlGaN/GaN Lateral Bidirectional Current-Regulating Diode with Two Symmetrical Hybrid Ohmic-Schottky Structures

Author

Yijun Shi, Zongqi Cai, Yun Huang, Zhiyuan He, Yiqiang Chen, Liye Cheng, and Guoguang Lu

Subjects

current-regulating diode, hybrid-trench electrode, AlGaN/GaN, B-CRD, Mechanical engineering and machinery, TJ1-1570

Abstract

Bidirectional current-regulating ability is needed for AC light emitting diode (LED) drivers. In previous studies, various rectifier circuits have been used to provide constant bidirectional current. However, the usage of multiple electronic components can lead to additional costs and power consumption. In this work, a novel AlGaN/GaN lateral bidirectional current-regulating diode (B-CRD) featuring two symmetrical hybrid-trench electrodes is proposed and demonstrated by TCAD Sentaurus (California USA) from Synopsys corporation. Through shortly connecting the Ohmic contact and trench Schottky contact, the unidirectional invariant current can be obtained even with the applied voltage spanning a large range of 0–200 V. Furthermore, with the combination of two symmetrical hybrid-trench electrodes at each side of the device, the proposed B-CRD can deliver an excellent steady current in different directions. Through the TCAD simulation results, it was found that the device’s critical characteristics (namely knee voltage and current density) can be flexibly modulated by tailoring the depth and length of the trench Schottky contact. Meanwhile, it was also demonstrated through the device/circuit mixed-mode simulation that the proposed B-CRD can respond to the change in voltage in a few nanoseconds. Such a new functionality combined with excellent performance may make the proposed B-CRD attractive in some special fields where the bidirectional current-limiting function is needed.

Published

2022

49. A Novel AlGaN/GaN Transient Voltage Suppression Diode with Bidirectional Clamp Capability

Author

Zhiyuan He, Yijun Shi, Yun Huang, Yiqiang Chen, Hongyue Wang, Lei Wang, Guoguang Lu, and Yajie Xin

Subjects

transient voltage suppression, TVS diode, GaN HEMT, Transmission Line Pulsing, Mechanical engineering and machinery, TJ1-1570

Abstract

This work proposes a novel AlGaN/GaN transient voltage suppression (TVS) diode (B-TVS-D) with bidirectional clamp capability, which consists of a small-size AlGaN/GaN monolithic bidirectional switch, two 2DEG-based current-limiting resistors (R1A/R1C, in parallel connection between the gate electrodes and the neighboring ohmic-contact electrodes (anode/cathode)), and a 2DEG-based proportional amplification resistor (R2, in parallel connection between two gate electrodes). It is demonstrated that the proposed B-TVS-D possesses a symmetrical triggering voltage (Vtrig) and a high secondary breakdown current (Is, over 8 A, corresponding to 12 kV human body model failure voltage) in different directional electrostatic discharge (ESD) events. The proposed diode can effectively enhance the electrostatic discharge robustness for the GaN-based power system. It is also verified that R1A/R1C and R2 have an important impact on Vtrig of the proposed B-TVS-D. Both the decrease in R2 and increase in R1A/R1C can lead to the decrease of Vtrig. In addition, the proposed B-TVS-D can be fabricated on the conventional p-GaN HEMT platform, making the ESD design of the GaN-based power system more convenient.

Published

2022

50. A Novel Bidirectional AlGaN/GaN ESD Protection Diode

Author

Bin Yao, Yijun Shi, Hongyue Wang, Xinbin Xu, Yiqiang Chen, Zhiyuan He, Qingzhong Xiao, Lei Wang, Guoguang Lu, Hao Li, Yun Huang, and Bo Zhang

Subjects

electrostatic discharge, ESD protection diode, GaN HEMT, transmission line pulsing, Mechanical engineering and machinery, TJ1-1570

Abstract

Despite the superior working properties, GaN-based HEMTs and systems are still confronted with the threat of a transient ESD event, especially for the vulnerable gate structure of the p-GaN or MOS HEMTs. Therefore, there is still an urgent need for a bidirectional ESD protection diode to improve the ESD robustness of a GaN power system. In this study, an AlGaN/GaN ESD protection diode with bidirectional clamp capability was proposed and investigated. Through the combination of two floating gate electrodes and two pF-grade capacitors connected in parallel between anode or cathode electrodes and the adjacent floating gate electrodes (CGA (CGC)), the proposed diode could be triggered by a required voltage and possesses a high secondary breakdown current (IS) in both forward and reverse transient ESD events. Based on the experimental verification, it was found that the bidirectional triggering voltages (Vtrig) and IS of the proposed diode were strongly related to CGA (CGC). With CGA (CGC) increasing from 5 pF to 25 pF, Vtrig and IS decreased from ~18 V to ~7 V and from ~7 A to ~3 A, respectively. The diode’s high performance demonstrated a good reference for the ESD design of a GaN power system.

Published

2022