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1. Allantoate Amidohydrolase OsAAH is Essential for Preharvest Sprouting Resistance in Rice

Author

Ting Xie, Wenling Hu, Jiaxin Shen, Jiangyu Xu, Zeyuan Yang, Xinyi Chen, Peiwen Zhu, Mingming Chen, Sunlu Chen, Hongsheng Zhang, and Jinping Cheng

Subjects
Rice, Preharvest sprouting, OsAAH, Ureides, TCA, ABA, Plant culture, SB1-1110
Abstract

Abstract Preharvest sprouting (PHS) is an undesirable trait that decreases yield and quality in rice production. Understanding the genes and regulatory mechanisms underlying PHS is of great significance for breeding PHS-resistant rice. In this study, we identified a mutant, preharvest sprouting 39 (phs39), that exhibited an obvious PHS phenotype in the field. MutMap+ analysis and transgenic experiments demonstrated that OsAAH, which encodes allantoate amidohydrolase, is the causal gene of phs39 and is essential for PHS resistance. OsAAH was highly expressed in roots and leaves at the heading stage and gradually increased and then weakly declined in the seed developmental stage. OsAAH protein was localized to the endoplasmic reticulum, with a function of hydrolyzing allantoate in vitro. Disruption of OsAAH increased the levels of ureides (allantoate and allantoin) and activated the tricarboxylic acid (TCA) cycle, and thus increased energy levels in developing seeds. Additionally, the disruption of OsAAH significantly increased asparagine, arginine, and lysine levels, decreased tryptophan levels, and decreased levels of indole-3-acetic acid (IAA) and abscisic acid (ABA). Our findings revealed that the OsAAH of ureide catabolism is involved in the regulation of rice PHS via energy and hormone metabolisms, which will help to facilitate the breeding of rice PHS-resistant varieties.

Published
2024
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2. On-treatment risks of cirrhosis and hepatocellular carcinoma among a large cohort of predominantly non-Asian patients with non-cirrhotic chronic hepatitis B

Author

Zeyuan Yang, Ramsey C. Cheung, Amit S. Chitnis, Wei Zhang, Robert G. Gish, and Robert J. Wong

Subjects
HBV, cirrhosis, hepatocellular carcinoma, veterans, antivirals, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Background & Aims: The vast majority of studies evaluating differences in on-treatment risks of hepatocellular carcinoma (HCC) in patients with chronic hepatitis B (CHB) have been conducted in Asia. Data on the course of CHB on antiviral therapy among predominantly non-Asian populations is less well described. We aimed to evaluate overall risks of cirrhosis and HCC and the influence of baseline factors on this risk among a predominantly non-Asian cohort of patients with CHB in the US. Methods: Using longitudinal data from the national Veterans Affairs database, we evaluated the incidence of cirrhosis or HCC among adults with non-cirrhotic CHB on continuous antiviral therapy. Cumulative incidence functions and adjusted Cox proportional hazards models employed competing risks methods and evaluated overall risk and predictors of developing cirrhosis or HCC while on treatment. Results: Among 2,496 patients with non-cirrhotic CHB (39.1% African American, 38.4% non-Hispanic White, 18.8% Asian, mean age 58.0 ± 13.4 years), the overall incidences of cirrhosis and HCC were 3.99 per 100 person-years (95% CI 3.66-4.35) and 0.43 per 100 person-years (95% CI 0.33-0.54), respectively. The highest incidences of cirrhosis and HCC were observed in non-Hispanic White patients (5.74 and 0.52 per 100 person-years, respectively), which were significantly higher than in Asian patients (1.93 and 0.17 per 100 person-years, respectively, p

Published
2023
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3. Restricted orthogonal gradient projection for continual learning

Author

Zeyuan Yang, Zonghan Yang, Yichen Liu, Peng Li, and Yang Liu

Subjects
Continual learning, Gradient projection, Forward knowledge transfer, Electronic computers. Computer science, QA75.5-76.95
Abstract

Continual learning aims to avoid catastrophic forgetting and effectively leverage learned experiences to master new knowledge. Existing gradient projection approaches impose hard constraints on the optimization space for new tasks to minimize interference, which simultaneously hinders forward knowledge transfer. To address this issue, recent methods reuse frozen parameters with a growing network, resulting in high computational costs. Thus, it remains a challenge whether we can improve forward knowledge transfer for gradient projection approaches using a fixed network architecture. In this work, we propose the Restricted Orthogonal Gradient prOjection (ROGO) framework. The basic idea is to adopt a restricted orthogonal constraint allowing parameters optimized in the direction oblique to the whole frozen space to facilitate forward knowledge transfer while consolidating previous knowledge. Our framework requires neither data buffers nor extra parameters. Extensive experiments have demonstrated the superiority of our framework over several strong baselines. We also provide theoretical guarantees for our relaxing strategy.

Published
2023
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4. Genome-Wide Analysis for the Regulation of Gene Alternative Splicing by DNA Methylation Level in Glioma and its Prognostic Implications

Author

Zeyuan Yang, Yijie He, Yongheng Wang, Lin Huang, Yaqin Tang, Yue He, Yihan Chen, and Zhijie Han

Subjects
glioma, alternative splicing, methylation modification, clinical prognosis, TCGA, Genetics, QH426-470
Abstract

Glioma is a primary high malignant intracranial tumor with poorly understood molecular mechanisms. Previous studies found that both DNA methylation modification and gene alternative splicing (AS) play a key role in tumorigenesis of glioma, and there is an obvious regulatory relationship between them. However, to date, no comprehensive study has been performed to analyze the influence of DNA methylation level on gene AS in glioma on a genome-wide scale. Here, we performed this study by integrating DNA methylation, gene expression, AS, disease risk methylation at position, and clinical data from 537 low-grade glioma (LGG) and glioblastoma (GBM) individuals. We first conducted a differential analysis of AS events and DNA methylation positions between LGG and GBM subjects, respectively. Then, we evaluated the influence of differential methylation positions on differential AS events. Further, Fisher’s exact test was used to verify our findings and identify potential key genes in glioma. Finally, we performed a series of analyses to investigate influence of these genes on the clinical prognosis of glioma. In total, we identified 130 glioma-related genes whose AS significantly affected by DNA methylation level. Eleven of them play an important role in glioma prognosis. In short, these results will help to better understand the pathogenesis of glioma.

Published
2022
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5. Genome-wide Identification and Analysis of Splicing QTLs in Multiple Sclerosis by RNA-Seq Data

Author

Yijie He, Lin Huang, Yaqin Tang, Zeyuan Yang, and Zhijie Han

Subjects
multiple sclerosis, alternative splicing, RNA-seq, splicing quantitative trait loci, function analysis, Genetics, QH426-470
Abstract

Multiple sclerosis (MS) is an autoimmune disease characterized by inflammatory demyelinating lesions in the central nervous system. Recently, the dysregulation of alternative splicing (AS) in the brain has been found to significantly influence the progression of MS. Moreover, previous studies demonstrate that many MS-related variants in the genome act as the important regulation factors of AS events and contribute to the pathogenesis of MS. However, by far, no genome-wide research about the effect of genomic variants on AS events in MS has been reported. Here, we first implemented a strategy to obtain genomic variant genotype and AS isoform average percentage spliced-in values from RNA-seq data of 142 individuals (51 MS patients and 91 controls). Then, combing the two sets of data, we performed a cis-splicing quantitative trait loci (sQTLs) analysis to identify the cis-acting loci and the affected differential AS events in MS and further explored the characteristics of these cis-sQTLs. Finally, the weighted gene coexpression network and gene set enrichment analyses were used to investigate gene interaction pattern and functions of the affected AS events in MS. In total, we identified 5835 variants affecting 672 differential AS events. The cis-sQTLs tend to be distributed in proximity of the gene transcription initiation site, and the intronic variants of them are more capable of regulating AS events. The retained intron AS events are more susceptible to influence of genome variants, and their functions are involved in protein kinase and phosphorylation modification. In summary, these findings provide an insight into the mechanism of MS.

Published
2021
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6. Broadband and High Extinction Ratio Mode Converter Using the Tapered Hybrid Plasmonic Waveguide

Author

Zhuo Cheng, Jun Wang, Zeyuan Yang, Haiying Yin, Wei Wang, Yongqing Huang, and Xiaomin Ren

Subjects
Mode converter, hybrid plasmonic waveguide, TE $_{0}$ -to-TM $_{1}$, Applied optics. Photonics, TA1501-1820, Optics. Light, QC350-467
Abstract

We propose and numerically analyze a broadband and high extinction ratio mode converter to achieve the mode conversion between the fundamental transverse electric mode (TE0) and the first-order transverse magnetic mode (TM1). The mode converter is achieved by using the tapered hybrid plasmonic waveguide which the metal is directly covered on the Si waveguide without a thin low-index layer. After optimizing the structure of the tapered hybrid plasmonic waveguide, a wide operation bandwidth of 100 nm is obtained with the extinction ratio of the TM1 mode and TE0 mode larger than 20 dB in the output Si waveguide for the forward propagation. And for the back propagation, the operation bandwidth over 65 nm is obtained with the extinction ratio larger than 20 dB in the output Si waveguide. The whole footprint of the mode converter is only 0.8 × 11 μm2. Fabrication tolerance analysis is also demonstrated.

Published
2019
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7. The surveillance of the epidemiological and serotype characteristics of hand, foot, mouth disease in Neijiang city, China, 2010-2017: A retrospective study.

Author

Jing Li, Zeyuan Yang, Zhixuan Wang, Yong Xu, Shuibin Luo, Xuelan Yu, Juan Liu, Yan Zhou, Wenbin Tong, and Peibin Zeng

Subjects
Medicine, Science
Abstract

Hand, foot, and mouth disease (HFMD) is well recognized as one of the major threats to children's health globally. The increasing complexity of the etiology of HFMD still challenges disease control in China. There is little surveillance of the molecular epidemiological characteristics of the enteroviruses (EVs) that cause HFMD in Neijiang city or the Sichuan Basin area in Southwest China. In this study, demographic and epidemiological information for 14,928 probable HFMD cases was extracted and analyzed to describe the epidemic features of HFMD in Neijiang city from Jan 2010 to Dec 2017. The swab samples of select probable HFMD cases from 2012 to 2017 were tested by reverse transcription (RT) real-time PCR to identify the serotype distribution of EVs, and 110 randomly selected RT-real-time PCR positive samples were then amplified and analyzed for the VP1 or VP4 regions of EVs to further analyze the phylogenetic characteristics of the circulating strains in this area. The eight-year average annual incidence was 49.82 per 100,000 in Neijiang. The incidence rates varied between 19.51 and 70.73 per 100,000, demonstrating peaks of incidence in even-number years (2012, 2014 and 2016). The median age of the probable cases was 27 months and the interquartile range (25th to 75th percentile) of ages for the probable HFMD cases was between 14 and 42 months. The male-to-female ratio of the probable HFMD cases was 1.47:1, and scattered children were the major population classification (81.7%). Two epidemic peaks were observed: one major peak between April and July and the other lesser peak between October and December. Of 6513 probable cases tested with RT-real-time PCR, 4015 (61.6%) were positive for enterovirus with the serotype distribution as follows: EV71+, 30.1% (n = 1210); CV-A16+, 28.7% (n = 1154) and a sole pan-enterovirus+, 41.1% (n = 1651). A total of 91 cases (82.7%, 91/110) were successfully amplified and underwent phylogenetic analysis: all EV71+ cases were C4a serotype (n = 23/30); all CV-A16+ cases were B2b serotype (n = 24/30); of 42 sole pan-enterovirus+ samples, 20 were CV-A6, 14 were CV-A10 and the rest within this group were CV-A4 (n = 4), CV-A8 (n = 2), CV-A9 (n = 1) and CV-B3 (n = 1). Our findings provide important evidence that aids the improvement of strategies for vaccination against HFMD and comprehensive disease control in China.

Published
2019
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8. Thermal stress distribution in a laser array structure selectively grown on V-groove-patterned silicon

Author

Haiying Yin, Jun Wang, Zeyuan Yang, Zhuo Cheng, Wei Wang, Yongqing Huang, and Xiaomin Ren

Subjects
Physics, QC1-999
Abstract

The thermal stress due to the thermal expansion mismatch could induce crystallographic defects such as buckling and cracking and degrade device performance. In this paper, the thermal stress distribution in a laser array structure selectively grown on V-groove-patterned Si substrates was investigated by two-dimension finite-element method. Surprisingly, unexpected results are observed that the top of the InGaAs active layer and the most region of the InP cap layer are in compression, which is far different from the thermal stress distribution in planar structures. Two mechanisms have been proposed and modeled to explain the difference—(i) the width of uncoalesced layers is smaller than that of the Si substrate, which causes thermal stress to change in epitaxial layers, and (ii) thermal stress in the InGaAs and InP layers is affected by the V-groove structure. The results show that whether or not the epitaxial layers are coalesced has significant effect on the thermal stress distribution. The effect of the height of the V-groove, the height and the width of the SiO2 mask on the thermal stress distribution was also studied. It is found that the height of V-groove and the height of SiO2 mask play a critical role in the stress distribution. These findings are useful for the optimal designs for the laser array and provide an important step towards the realization of photonic integration circuits on silicon.

Published
2018
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19. Impact of HIV Infection on Liver and Cardiovascular Outcomes in Veterans With Metabolic Dysfunction-Associated Steatotic Liver Disease.

Author

Wong, Robert J., Zeyuan Yang, Yeoh, Aaron, Do, Albert, Ahmed, Aijaz, and Cheung, Ramsey

Subjects
*MAJOR adverse cardiovascular events, *HIV infections, *FATTY liver, *HIV-positive persons, *OVERALL survival
Abstract

INTRODUCTION: Hepatic steatosis is highly prevalent in people living with HIV. It remains unclear whether HIV in patients with metabolic dysfunction-associated steatotic liver disease (MASLD) is associated with greater risks of liver disease progression and cardiovascular disease (CVD). We aim to evaluate the impact of HIV infection on risks of liver and CVD outcomes among US Veterans with MASLD. METHODS: Using national Veterans Administration data from 2010 to 2022, we created a propensity score-matched cohort of MASLD patients with vs without HIV. Primary outcomes were incidence of cirrhosis and hepatocellular carcinoma (HCC) among patients with vs without HIV and patients with MASLD-HIV on antiretroviral therapy (ART) vs not on ART. Secondary outcomes included incidence of major adverse cardiovascular events and overall survival. RESULTS: The propensity-matched cohort included 920 MASLD patients with HIV and 920 MASLD patients without HIV and was similar in demographics and comorbidities. Compared with MASLD patients without HIV, incidences of cirrhosis and HCC were similar among MASLD with HIV. Compared with MASLD patients without HIV, incidence of major adverse cardiovascular event was higher among MASLD patients with HIV (5.18 vs 4.48 per 100 person-years, P = 0.03). Overall 5-year survival was significantly lower among MASLD patients with HIV and even lower among those not on ART. DISCUSSION: Among US Veterans with MASLD, concurrent HIV infection, and particularly not being on ART, is associated with greater risks of CVD and decreased overall survival. No differences in risks of cirrhosis or HCC were observed. [ABSTRACT FROM AUTHOR]

Published
2024
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25. The Influence of Virtual Spokesmen Based on Para-social Interaction Theory

Author

Zeyuan Yang

Abstract

With the increasing maturity of the technology, the rise of Generation Z, and the expansion of the influence of the metaverse concept, virtual idols gradually enter reality, especially the real marketing scene. The virtual spokesperson is the IP image of the brand gradually has its content, scene, worldview, and culture. More and more companies release their virtual spokesperson, but the previous research only focused on virtual idols, and there are certain differences between virtual idols and virtual spokesperson. This research was designed to analyze the reasons for virtual spokespersons’ current low appeal, and this paper took Miss Lai, the virtual spokesperson of L’Oréal, as an example, and utilized the SWOT analysis method and para-social relationship theory to analyze her current behavior. This study concluded that Miss Lai's image is not vivid enough so Miss Lai cannot become the "ideal self" of the audience and cannot enable the audience to simulate her as a character, thus Miss Lai cannot build para-social relationships with audiences.

Published
2022

26. Low Performance of Hepatitis Delta Virus Testing Among 2 National Cohorts of Chronic Hepatitis B Patients in the United States

Author

Robert J, Wong, Harvey W, Kaufman, Justin K, Niles, Cheng, Chen, Zeyuan, Yang, Hema, Kapoor, Ramsey, Cheung, and Robert G, Gish

Subjects
Adult, Male, Hepatitis B virus, Hepatitis B, Chronic, Hepatitis B Surface Antigens, Hepatology, Gastroenterology, Humans, Hepatitis Delta Virus, Hepatitis B, United States
Abstract

The purpose of this study was to evaluate hepatitis delta virus (HDV) testing patterns among US adults with chronic hepatitis B (CHB).HDV testing was evaluated among CHB patients using Quest Diagnostics (2016-2020) and Veterans Affairs (2010-2020) data.Among 157,333 CHB patients (Quest), 6.7% received HDV testing, among which 2.2% were positive. HDV testing was higher in male patients, younger individuals, and patients with advanced liver disease. Among 12,002 CHB patients (Veterans Affairs), 19.7% received HDV testing, among which 3.1% were positive. HDV testing was higher in younger individuals and Asians.Low HDV testing was observed among 2 large US cohorts of adults with CHB.

Published
2022

27. Identification of a key locus, qNL3.1, associated with seed germination under salt stress via a genome-wide association study in rice

Author

Chengfang Zhan, Peiwen Zhu, Yongji Chen, Xinyi Chen, Kexin Liu, Shanshan Chen, Jiaxiao Hu, Ying He, Ting Xie, Shasha Luo, Zeyuan Yang, Sunlu Chen, Haijuan Tang, Hongsheng Zhang, and Jinping Cheng

Subjects
Genetics, General Medicine, Agronomy and Crop Science, Biotechnology
Abstract

Key message Two causal OsTTL and OsSAPK1genes of the key locus qNL3.1 significantly associated with seed germination under salt stress were identified via a genome-wide association study, which could improve rice seed germination under salt stress. Abstract Rice is a salt-sensitive crop, and its seed germination determines subsequent seedling establishment and yields. In this study, 168 accessions were investigated for the genetic control of seed germination under salt stress based on the germination rate (GR), germination index (GI), time at which 50% germination was achieved (T50) and mean level (ML). Extensive natural variation in seed germination was observed among accessions under salt stress. Correlation analysis showed significantly positive correlations among GR, GI and ML and a negative correlation with T50 during seed germination under salt stress. Forty-nine loci significantly associated with seed germination under salt stress were identified, and seven of these were identified in both years. By comparison, 16 loci were colocated with the previous QTLs, and the remaining 33 loci might be novel. qNL3.1, colocated with qLTG-3, was simultaneously identified with the four indices in two years and might be a key locus for seed germination under salt stress. Analysis of candidate genes showed that two genes, the similar to transthyretin-like protein OsTTL and the serine/threonine protein kinase OsSAPK1, were the causal genes of qNL3.1. Germination tests indicated that both Osttl and Ossapk1 mutants significantly reduced seed germination under salt stress compared to the wild type. Haplotype analysis showed that Hap.1 of OsTTL and Hap.1 of OsSAPK1 genes were excellent alleles, and their combination resulted in high seed germination under salt stress. Eight accessions with elite performance of seed germination under salt stress were identified, which could improve rice seed germination under salt stress.

Published
2023

28. Bioinspired Surface Functionalization of Poly(ether ether ketone) for Enhancing Osteogenesis and Bacterial Resistance

Author

Keming Hu, Zeyuan Yang, Yanlong Zhao, Yuguang Wang, Jing Luo, Biyang Tuo, and Hongyu Zhang

Subjects
Osteogenesis, Surface Properties, Electrochemistry, Biocompatible Materials, General Materials Science, Surfaces and Interfaces, Ketones, Condensed Matter Physics, Ether, Spectroscopy, Anti-Bacterial Agents, Ethers, Polyethylene Glycols
Abstract

In orthopedics, developing functionalized biomaterials to enhance osteogenesis and bacterial resistance is crucial. Although poly(ether ether ketone) (PEEK) is regarded as an important engineering plastic for biomedical material with excellent mechanical properties and biocompatibility, its biological inertness has greatly compromised its application in biomedical engineering. Inspired by the catecholamine chemistry of mussels, we propose a universal and versatile approach for enhancing the osteogenesis and antibacterial performances of PEEK based on surface functionalization of polydopamine-modified nanohydroxyapatite and lysozyme simultaneously. The characterizations of surface morphology and elemental composition revealed that the composite coating was successfully added to the PEEK surface. Additionally, the

Published
2022

29. Application of Compressed Sensing Method With ℓ1/2-Norm in Fan/Compressor Mode Detection.

Author

Zhaoyin Li, Zeyuan Yang, Pengfei Chai, Zonghan Sun, Jie Tian, and Hua Ouyang

Abstract

In this paper, l1/2-norm method is used to replace the traditional l1-norm to improve the compressed sensing technique. Numerical experiments and fan/compressor tests were performed to validate the applicability and robustness of the CS method based on l1/2-norm. Numerical experiments show that l1/2-norm method can effectually eliminate the spurious mode peaks generated by failed recovery of l1-norm method. Further study with random sensor failure shows the stronger robustness and applicability of l1/2-norm method. In the low-order acoustic mode detection experiment on cooling fan, 24 sensors were used to conduct mode decomposition at blade passing frequency (BPF). The recovered signal using l1/2-norm method was sparser than that using l1-norm method. In the case two sensors were randomly removed as failed sensors, the deviation between results of l1/2-norm method and original signal was also found smaller. In the condition that more sensors failed and l1-norm method did not work properly, l1/2-norm method could still detect the main mode. For further validation, the data from a high-order aerodynamic pressure mode detection experiment on axial compressor with two sensors damaged was processed through l1/2-norm method. The mode decomposition results at both BPF and the rotating instability frequency (RIF) agreed with the conclusion of the first experiment. Numerical experiments and fan/compressor tests show that using l1/2-norm can significantly improve the application and robustness of compressed sensing in mode detection. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Dynamic Multi-Branch Layers for On-Device Neural Machine Translation

Author

Zhixing Tan, Zeyuan Yang, Meng Zhang, Qun Liu, Maosong Sun, and Yang Liu

Subjects
FOS: Computer and information sciences, Computational Mathematics, Computer Science - Computation and Language, Acoustics and Ultrasonics, Computer Science (miscellaneous), Electrical and Electronic Engineering, Computation and Language (cs.CL)
Abstract

With the rapid development of artificial intelligence (AI), there is a trend in moving AI applications, such as neural machine translation (NMT), from cloud to mobile devices. Constrained by limited hardware resources and battery, the performance of on-device NMT systems is far from satisfactory. Inspired by conditional computation, we propose to improve the performance of on-device NMT systems with dynamic multi-branch layers. Specifically, we design a layer-wise dynamic multi-branch network with only one branch activated during training and inference. As not all branches are activated during training, we propose shared-private reparameterization to ensure sufficient training for each branch. At almost the same computational cost, our method achieves improvements of up to 1.7 BLEU points on the WMT14 English-German translation task and 1.8 BLEU points on the WMT20 Chinese-English translation task over the Transformer model, respectively. Compared with a strong baseline that also uses multiple branches, the proposed method is up to 1.5 times faster with the same number of parameters., Source code is available at https://github.com/THUNLP-MT/Transformer-DMB

Published
2022

31. A Magnetic Cloud Bomb for Effective Biofilm Eradication

Author

Yuping Qian, Ludan Zhang, Ningyu Li, Fan Dong, Zeyuan Yang, Huihua Dong, Yuguang Wang, and Min Wang

Subjects
Biomaterials, Electrochemistry, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Published
2023

36. Fast virtual view synthesis for an 8K 3D light-field display based on cutoff-NeRF and 3D voxel rendering

Author

Shuo Chen, Binbin Yan, Xinzhu Sang, Duo Chen, Peng Wang, Zeyuan Yang, Xiao Guo, and Chongli Zhong

Subjects
Atomic and Molecular Physics, and Optics
Abstract

Three-dimensional (3D) light-field displays can provide an immersive visual experience, which has attracted significant attention. However, the generating of high-quality 3D light-field content in the real world is still a challenge because it is difficult to capture dense high-resolution viewpoints of the real world with the camera array. Novel view synthesis based on CNN can generate dense high-resolution viewpoints from sparse inputs but suffer from high-computational resource consumption, low rendering speed, and limited camera baseline. Here, a two-stage virtual view synthesis method based on cutoff-NeRF and 3D voxel rendering is presented, which can fast synthesize dense novel views with smooth parallax and 3D images with a resolution of 7680 × 4320 for the 3D light-field display. In the first stage, an image-based cutoff-NeRF is proposed to implicitly represent the distribution of scene content and improve the quality of the virtual view. In the second stage, a 3D voxel-based image rendering and coding algorithm is presented, which quantify the scene content distribution learned by cutoff-NeRF to render high-resolution virtual views fast and output high-resolution 3D images. Among them, a coarse-to-fine 3D voxel rendering method is proposed to improve the accuracy of voxel representation effectively. Furthermore, a 3D voxel-based off-axis pixel encoding method is proposed to speed up 3D image generation. Finally, a sparse views dataset is built by ourselves to analyze the effectiveness of the proposed method. Experimental results demonstrate the method’s effectiveness, which can fast synthesize novel views and 3D images with high resolution in real 3D scenes and physical simulation environments. PSNR of the virtual view is about 29.75 dB, SSIM is about 0.88, and the synthetic 8K 3D image time is about 14.41s. We believe that our fast high-resolution virtual viewpoint synthesis method can effectively improve the application of 3D light field display.

Published
2022

41. On the Mode Characteristics of Rotating Instability With Different Tip Clearances

Author

Zeyuan Yang, Lele Ming, Si Wu, Yadong Wu, Jie Tian, and Hua Ouyang

Abstract

Rotating Instability (RI) is an unsteady aerodynamic phenomenon occurring at off-design conditions in axial compressors, featuring side-by-side peaks below the blade passing frequency (BPF) in pressure spectra. Especially when the mode orders of RI are close to the blade number the interaction effect could generate intense tip clearance noise, which could not be cut-off by the duct. Moreover, RI is regarded as a potential indicator for stall and surge. According to previous studies the mechanism of RI could be classified as the unsteady vortex system theory and the shear layer instability theory. This paper presents an experiment in a low-pressure single-rotor compressor, comparing the RI characteristics with two different tip clearances at different operating conditions. A total of 28 Kulite transducers were circumferentially mounted on the casing wall to measure the pressure fluctuation in the two configurations. Utilizing the compressive sensing (CS) method based on the double-uniform sampling point (DUSP) technique the mode orders of RI could be accurately determined. Through throttling the RI phenomenon was observed in different range of flow rates under both tip clearance configurations. The evolution pattern of RI is profoundly affected by the tip clearance size, i.e., the RI phenomenon only presents a two-stage “strengthen-weaken” pattern with the nominal gap, while shows a three-stage “strengthen-weaken-strengthen” pattern with the larger gap. Moreover, the mode characteristics of RI in the frequency domain are analyzed. Based on the experimental results several discussions on the mechanism of RI are proposed. These findings do not conform with the unsteady vortex system theory, but provides evidence for the shear layer instability theory.

Published
2022

43. Analysis and prediction of surface roughness for robotic belt grinding of complex blade considering coexistence of elastic deformation and varying curvature

Author

Xiaohu Xu, Sijie Yan, Dahu Zhu, Ye Songtao, Han Ding, and Zeyuan Yang

Subjects
Belt grinding, Surface (mathematics), Materials science, Blade (geometry), General Engineering, 02 engineering and technology, Surface finish, Mechanics, 010402 general chemistry, 021001 nanoscience & nanotechnology, Curvature, 01 natural sciences, 0104 chemical sciences, Machined surface, Machining, Surface roughness, General Materials Science, 0210 nano-technology
Abstract

Precision prediction of machined surface roughness is challenging facing the robotic belt grinding of complex blade, since this process is accompanied by significant elastic deformation. The resulting poor prediction accuracy, to a great extent, is attributed to the existing prediction model which less considers the dynamics. In this paper, an improved scallop height model is developed to predict and assess the machined surface roughness by taking into account the elastic deformation and the varying curvature of blade, then robotic belt grinding experiments are carried out to evaluate the proposed model from the perspective of surface roughness. Finally factors that influence the scallop height are analyzed, and the suitable empirical equation of surface roughness is proposed to assess and predict the surface quality from the aspect of blade concave and convex surface by adopting the constant scallop height machining.

Published
2021

49. Electrically Stimulated Band Alignment Transit in Black Phosphorus/β-Ga2O3 Heterostructure Dual-band Photodetector

Author

Zeyuan Yang, Chang Li, Tao He, Yan Zhang, Zhuo Dong, Zhongchang Wang, Liu Xie, Kai Zhang, and Xiaodong Zhang

Subjects
Fabrication, Materials science, business.industry, Superlattice, Photodetector, Heterojunction, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, symbols.namesake, Rectification, symbols, Optoelectronics, Multi-band device, van der Waals force, 0210 nano-technology, business, Voltage
Abstract

In recent decades, dual-band photodetectors have received widespread attention due to better target identification, which are considered as the development trend of next generation photodetectors. However, the traditional dual-band photodetectors based on heteroepitaxial growth, superlattice and multiple quantum well structures are limited by complex fabrication process and low integration. Herein, we report a UV/IR dual-band photodetector by integrating ultra-wide gap β-Ga2O3 and narrow-gap black phosphorous(BP) nanoflakes. A vertical van der Waals (vdW) heterostructure is formed between BP and β-Ga2O3 by mechanically exfoliated method integrated without the requirement of lattice match. The heterostructure devices show excellent rectification characteristics with high rectifying ratio of ca. 106 and low reverse current around pA. Moreover, the device displays obvious photoresponse under UV and IR irradiations with responsivities of 0.87 and 2.15 mA/W, respectively. We also explore the band alignment transit within the heterostructure photodetector at different bias voltages. This work paves the way for fabricating novel dual-band photodetectors by utilizing 2D materials.

Published
2020

50. Investigation on Mode Characteristics of Rotating Instability and Rotating Stall in an Axial Compressor

Author

Zeyuan Yang, Hua Ouyang, and Yadong Wu

Subjects
Physics, Axial compressor, Mechanical Engineering, Mode (statistics), Mechanics, Instability, Gas compressor, Stall (engine)
Abstract

Rotating instability (RI) and rotating stall (RS) are two types of aerodynamic instability in axial compressors. The former features the side-by-side peaks below the blade passing frequency (BPF) in frequency spectra, and the latter represents one or more stall cells rotating in the compressor. This article presents an experiment on the nearfield pressure and farfield acoustic characteristics of RI phenomenon in a low-pressure axial compressor rotor, which endures both RI and RS at several working conditions. To obtain the high-order modes of RI and other aerodynamic instability, a total of 9 or 20 Kulites are circumferentially mounted on the casing wall to measure the nearfield pressure fluctuation using a mode order calibration method. Meantime in the farfield 16 microphones are planted to measure the acoustic mode order using the compressive sensing method. Through calibration, the experiments acquire the mode orders generated by RI and the interaction between RI and BPF, which are higher than the number of transducers. As for RS, the mode decomposition shows a mode order of 1, indicating one single stall cell rotating in the compressor. This experiment also shows that the amplitudes of RI modes are decreased when RS occurs, but both RS modes and RI modes will be enhanced if the flowrate is further reduced. This experiment reveals that RI experiences three stages of “strengthen-weaken-strengthen,” and hence, RI may not be regarded only as “prestall” disturbance.

Published
2022

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