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27 results on '"Fang, Xiaoyang"'

1. Subtype-Former: a deep learning approach for cancer subtype discovery with multi-omics data

Author

Yang, Hai, Sheng, Yuhang, Jiang, Yi, Fang, Xiaoyang, Li, Dongdong, Zhang, Jing, and Wang, Zhe

Subjects
Computer Science - Machine Learning, Quantitative Biology - Quantitative Methods
Abstract

Motivation: Cancer is heterogeneous, affecting the precise approach to personalized treatment. Accurate subtyping can lead to better survival rates for cancer patients. High-throughput technologies provide multiple omics data for cancer subtyping. However, precise cancer subtyping remains challenging due to the large amount and high dimensionality of omics data. Results: This study proposed Subtype-Former, a deep learning method based on MLP and Transformer Block, to extract the low-dimensional representation of the multi-omics data. K-means and Consensus Clustering are also used to achieve accurate subtyping results. We compared Subtype-Former with the other state-of-the-art subtyping methods across the TCGA 10 cancer types. We found that Subtype-Former can perform better on the benchmark datasets of more than 5000 tumors based on the survival analysis. In addition, Subtype-Former also achieved outstanding results in pan-cancer subtyping, which can help analyze the commonalities and differences across various cancer types at the molecular level. Finally, we applied Subtype-Former to the TCGA 10 types of cancers. We identified 50 essential biomarkers, which can be used to study targeted cancer drugs and promote the development of cancer treatments in the era of precision medicine.

Published
2022

5. Fancy Man Lauches Zippo at WNUT 2020 Shared Task-1: A Bert Case Model for Wet Lab Entity Extraction

Author

Meng, Haoding, Zeng, Qingcheng, Fang, Xiaoyang, and Liang, Zhexin

Subjects
Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

Automatic or semi-automatic conversion of protocols specifying steps in performing a lab procedure into machine-readable format benefits biological research a lot. These noisy, dense, and domain-specific lab protocols processing draws more and more interests with the development of deep learning. This paper presents our teamwork on WNUT 2020 shared task-1: wet lab entity extract, that we conducted studies in several models, including a BiLSTM CRF model and a Bert case model which can be used to complete wet lab entity extraction. And we mainly discussed the performance differences of \textbf{Bert case} under different situations such as \emph{transformers} versions, case sensitivity that may don't get enough attention before., Comment: EMNLP2020 WNUT

Published
2020

6. A Compact Design of Four-degree-of-freedom Transmission Electron Microscope Holder for Quasi-Four-Dimensional Characterization

Author

Zhang, Yizhi, Bu, Yeqiang, Fang, Xiaoyang, and Wang, Hongtao

Subjects
Physics - Applied Physics, Condensed Matter - Materials Science, Physics - Atomic and Molecular Clusters
Abstract

Electron tomography (ET) has been demonstrated to be a powerful tool in addressing challenging problems, such as understanding 3D interactions among various microstructures. Advancing ET to broader applications requires novel instrumentation design to break the bottlenecks both in theory and in practice. In this work, we built a compact four-degree-of-freedom (three-directional positionings plus self-rotation) nano-manipulator dedicated to ET applications, which is called X-Nano transmission electron microscope (TEM) holder. All the movements of the four degrees of freedom are precisely driven by built-in piezoelectric actuators, minimizing the artefacts due to the vibration and drifting of the TEM stage. Full 360o rotation is realized with an accuracy of 0.05o in the whole range, which solves the missing wedge problem. Meanwhile, the specimen can move to the rotation axis with an integrated 3D nano-manipulator, greatly reducing the effort in tracking sample locations during tilting. Meanwhile, in-situ stimulation function can be seamlessly integrated into the X-Nano TEM holder so that dynamic information can be uncovered. We expect that more delicate researches, such as those about 3D microstructural evolution, can be carried out extensively by means of this holder in the near future.

Published
2020

10. Dislocation Activities at the Martensite Phase Transformation Interface in Metastable Austenitic Stainless Steel: An In-situ TEM Study

Author

Liu, Jiabin, Feng, Qiong, Fang, Xiaoyang, Wang, Hongtao, Lu, Jian, Raabe, Dierk, and Yang, Wei

Subjects
Condensed Matter - Materials Science
Abstract

Understanding the mechanism of martensitic transformation is of great importance in developing advanced high strength steels, especially TRansformation-Induced Plasticity (TRIP) steels. The TRIP effect leads to enhanced work-hardening rate, postponed onset of necking and excellent formability. In-situ transmission electron microscopy has been performed to systematically investigate the dynamic interactions between dislocations and alpha martensite at microscale. Local stress concentrations, e.g. from notches or dislocation pile-ups, render free edges and grain boundaries favorable nucleation sites for alpha martensite. Its growth leads to partial dislocation emission on two independent slip planes from the hetero-interface when the austenite matrix is initially free of dislocations. The kinematic analysis reveals that activating slip systems on two independent {111} planes of austenite are necessary in accommodating the interfacial mismatch strain. Full dislocation emission is generally observed inside of austenite regions that contain high density of dislocations. In both situations, phase boundary propagation generates large amounts of dislocations entering into the matrix, which renders the total deformation compatible and provide substantial strain hardening of the host phase. These moving dislocation sources enable plastic relaxation and prevent local damage accumulation by intense slipping on the softer side of the interfacial region. Thus, finely dispersed martensite distribution renders plastic deformation more uniform throughout the austenitic matrix, which explains the exceptional combination of strength and ductility of TRIP steels.

Published
2016

17. Natural overlaying behaviors push the limit of planar cyclic deformation performance in few‐layer MoS2 nanosheets.

Author

Li, Peifeng, Zhang, Guangjie, Kang, Zhuo, Zheng, Xin, Xie, Yong, Liang, Chunyuan, Zhang, Yizhi, Fang, Xiaoyang, Sun, Rong, Liu, Zhiquan, Bu, Yeqiang, Lu, Yang, and Zhang, Yue

Subjects
MECHANICAL behavior of materials, CRACK initiation (Fracture mechanics), DEFORMATIONS (Mechanics), NANOSTRUCTURED materials, SERVICE life, WRINKLE patterns
Abstract

As a typical two‐dimensional (2D) transition metal dichalcogenides (TMDCs) material with nonzero band gap, MoS2 has a wide range of potential applications as building blocks in the field of nanoelectronics. The stability and reliability of the corresponding nanoelectronic devices depend critically on the mechanical performance and cyclic reliability of 2D MoS2. Although an in situ technique has been used to analyze the mechanical properties of 2D materials, the cyclic mechanical behavior, that is, fatigue, remains a major challenge in the practical application of the devices. This study was aimed at analyzing the planar cyclic performance and deformation behavior of three‐layer MoS2 nanosheets (NSs) using an in situ transmission electron microscopy (TEM) variable‐amplitude uniaxial low‐frequency and cyclic loading–unloading tensile acceleration test. We also elucidated the strengthening effect of the natural overlaying affix fragments (other external NSs) or wrinkle folds (internal folds from the NS itself) on cycling performances and service life of MoS2 NSs by delaying the whole process of fatigue crack initiation, propagation, and fracture. The results have been confirmed by molecular dynamics (MDs) simulations. The overlaying enhancement effect effectively ensures the long‐term reliability and stability of nanoelectronic devices made of few‐layer 2D materials. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Corrigendum: Dislocation Strengthening without Ductility Trade-off in Metastable Austenitic Steels

Author

Liu, Jiabin, Jin, Yongbin, Fang, Xiaoyang, Chen, Chenxu, Feng, Qiong, Liu, Xiaowei, Chen, Yuzeng, Suo, Tao, Zhao, Feng, Huang, Tianlin, Wang, Hongtao, Wang, Xi, Fang, Youtong, Wei, Yujie, Meng, Liang, Lu, Jian, and Yang, Wei

Subjects
Corrigenda
Abstract

Strength and ductility are mutually exclusive if they are manifested as consequence of the coupling between strengthening and toughening mechanisms. One notable example is dislocation strengthening in metals, which invariably leads to reduced ductility. However, this trend is averted in metastable austenitic steels. A one-step thermal mechanical treatment (TMT), i.e. hot rolling, can effectively enhance the yielding strength of the metastable austenitic steel from 322 ± 18 MPa to 675 ± 15 MPa, while retaining both the formability and hardenability. It is noted that no boundaries are introduced in the optimized TMT process and all strengthening effect originates from dislocations with inherited thermal stability. The success of this method relies on the decoupled strengthening and toughening mechanisms in metastable austenitic steels, in which yield strength is controlled by initial dislocation density while ductility is retained by the capability to nucleate new dislocations to carry plastic deformation. Especially, the simplicity in processing enables scaling and industrial applications to meet the challenging requirements of emissions reduction. On the other hand, the complexity in the underlying mechanism of dislocation strengthening in this case may shed light on a different route of material strengthening by stimulating dislocation activities, rather than impeding motion of dislocations.

Published
2018

24. Correction: Corrigendum: Dislocation Strengthening without Ductility Trade-off in Metastable Austenitic Steels

Author

Liu, Jiabin, primary, Jin, Yongbin, additional, Fang, Xiaoyang, additional, Chen, Chenxu, additional, Feng, Qiong, additional, Liu, Xiaowei, additional, Chen, Yuzeng, additional, Suo, Tao, additional, Zhao, Feng, additional, Huang, Tianlin, additional, Wang, Hongtao, additional, Wang, Xi, additional, Fang, Youtong, additional, Wei, Yujie, additional, Meng, Liang, additional, Lu, Jian, additional, and Yang, Wei, additional

Published
2018
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25. Dislocation Strengthening without Ductility Trade-off in Metastable Austenitic Steels

Author

Liu, Jiabin, primary, Jin, Yongbin, additional, Fang, Xiaoyang, additional, Chen, Chenxu, additional, Feng, Qiong, additional, Liu, Xiaowei, additional, Chen, Yuzeng, additional, Suo, Tao, additional, Zhao, Feng, additional, Huang, Tianlin, additional, Wang, Hongtao, additional, Wang, Xi, additional, Fang, Youtong, additional, Wei, Yujie, additional, Meng, Liang, additional, Lu, Jian, additional, and Yang, Wei, additional

Published
2016
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26. Cracking in a Fe–25Mn–3Si–3Al Steel

Author

Fang, Xiaoyang, primary, Zhang, Lihui, additional, Liu, Wei, additional, Shu, Kangying, additional, Fang, Youtong, additional, Zeng, Yuewu, additional, Meng, Liang, additional, and Liu, Jiabin, additional

Published
2014
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27. Current status and trends in quantitative MRI study of intervertebral disc degeneration: a bibliometric and clinical study analysis.

Author

Chen S, Sun D, Wang N, Fang X, Xi Z, Wang C, Chen H, and Xie L

Abstract

Background: Quantitative magnetic resonance imaging (MRI) has the function of noninvasive quantitative evaluation, providing unique advantages in intervertebral disc degeneration (IDD) assessment. Although studies exploring the field for domestic and international scholars are increasingly being published, there is a lack of systematic scientific measurement and clinical analysis of the literature in this field., Methods: Articles published from the respective database establishment to September 30, 2022, were obtained from the Web of Science core collection (WOSCC), PubMed database, and ClinicalTrials.gov. The scientometric software (VOSviewer 1.6.18, CiteSpace 6.1.R3, Scimago Graphica, and R software) were used for bibliometric and knowledge graph visualization analysis., Results: We included 651 articles from the WOSCC database and 3 clinical studies from ClinicalTrials.gov for literature analysis. With the passage of time, the number of articles in this field gradually increased. The United States and China were the top 2 countries in terms of the number of publications and citations, and Chinese publications lacked international cooperation and exchange. The author with the most publications was Schleich C, while the author with the most citations was Borthakur A, who have both made important contributions to research in this field. The journal publishing the most relevant articles was Spine , and the journal with the most mean times cited per study was Radiology , both of which are the authoritative journals in this field. Keyword co-occurrence, clustering, timeline view, and emergent analysis revealed that recent studies in this field have focused on quantifying the biochemical components of the degenerated intervertebral disc (IVD). There were few available clinical studies. The more recent clinical studies mainly used molecular imaging technology to explore the relationship between different quantitative MRI sequence values and the IVD biomechanical environment and biochemical components content., Conclusions: The study provided a knowledge map of quantitative MRI for IDD research in terms of countries, authors, journals, cited literature, and keywords through bibliometric analysis, and systematically sorted the current status, hotspots, and clinical research features in the field to provide a reference for future research., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-22-1219/coif). The authors have no conflicts of interest to declare., (2023 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published
2023
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