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3,322 results on '"Yin, Tao"'

1. Cascaded two-stage feature clustering and selection via separability and consistency in fuzzy decision systems

Author

Chen, Yuepeng, Ding, Weiping, Ju, Hengrong, Huang, Jiashuang, and Yin, Tao

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Feature selection is a vital technique in machine learning, as it can reduce computational complexity, improve model performance, and mitigate the risk of overfitting. However, the increasing complexity and dimensionality of datasets pose significant challenges in the selection of features. Focusing on these challenges, this paper proposes a cascaded two-stage feature clustering and selection algorithm for fuzzy decision systems. In the first stage, we reduce the search space by clustering relevant features and addressing inter-feature redundancy. In the second stage, a clustering-based sequentially forward selection method that explores the global and local structure of data is presented. We propose a novel metric for assessing the significance of features, which considers both global separability and local consistency. Global separability measures the degree of intra-class cohesion and inter-class separation based on fuzzy membership, providing a comprehensive understanding of data separability. Meanwhile, local consistency leverages the fuzzy neighborhood rough set model to capture uncertainty and fuzziness in the data. The effectiveness of our proposed algorithm is evaluated through experiments conducted on 18 public datasets and a real-world schizophrenia dataset. The experiment results demonstrate our algorithm's superiority over benchmarking algorithms in both classification accuracy and the number of selected features., Comment: This paper has been accepted by IEEE Transactions on Fuzzy Systems for publication. Permission from IEEE must be obtained for all other uses, in any current or future media. The final version is available at [10.1109/TFUZZ.2024.3420963]

Published
2024
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4. PML-based boundary integral equation method for electromagnetic scattering problems in a layered-medium

Author

Bao, Gang, Lu, Wangtao, Yin, Tao, and Zhang, Lu

Subjects
Mathematics - Numerical Analysis
Abstract

This paper proposes a new boundary integral equation (BIE) methodology based on the perfectly matched layer (PML) truncation technique for solving the electromagnetic scattering problems in a multi-layered medium. Instead of using the original PML stretched fields, artificial fields which are also equivalent to the solutions in the physical region are introduced. This significantly simplifies the study of the proposed methodology to derive the PML problem. Then some PML transformed layer potentials and the associated boundary integral operators (BIOs) are defined and the corresponding jump relations are shown. Under the assumption that the fields vanish on the PML boundary, the solution representations, as well as the related BIEs and regularization of the hyper-singular operators, in terms of the current density functions on the truncated interface, are derived. Numerical experiments are presented to demonstrate the efficiency and accuracy of the method., Comment: 26 pages, 13 figures

Published
2024

5. On a Robin-type non-singular coupling scheme for solving the wave scattering problems

Author

Liu, Xiaojuan, Li, Maojun, and Yin, Tao

Subjects
Mathematics - Numerical Analysis
Abstract

This paper studies a non-singular coupling scheme for solving the acoustic and elastic wave scattering problems and its extension to the problems of Laplace and Lam\'e equations and the problem with a compactly supported inhomogeneity is also briefly discussed. Relying on the solution representation of the wave scattering problem, a Robin-type artificial boundary condition in terms of layer potentials whose kernels are non-singular, is introduced to obtain a reduced problem on a bounded domain. The wellposedness of the reduced problems and the a priori error estimates of the corresponding finite element discretization are proved. Numerical examples are presented to demonstrate the accuracy and efficiency of the proposed method.

Published
2023

6. Helmholtz decomposition based windowed Green function methods for elastic scattering problems on a half-space

Author

Yin, Tao, Zhang, Lu, Zheng, Weiying, and Zhu, Xiaopeng

Subjects
Physics - Computational Physics, Mathematics - Numerical Analysis
Abstract

This paper proposes a new Helmholtz decomposition based windowed Green function (HD-WGF) method for solving the time-harmonic elastic scattering problems on a half-space with Dirichlet boundary conditions in both 2D and 3D. The Helmholtz decomposition is applied to separate the pressure and shear waves, which satisfy the Helmholtz and Helmholtz/Maxwell equations, respectively, and the corresponding boundary integral equations of type $(\mathbb{I}+\mathbb{T})\bs\phi=\bs f$, that couple these two waves on the unbounded surface, are derived based on the free-space fundamental solution of Helmholtz equation. This approach avoids the treatment of the complex elastic displacement tensor and traction operator that involved in the classical integral equation method for elastic problems. Then a smooth ``slow-rise'' windowing function is introduced to truncate the boundary integral equations and a ``correction'' strategy is proposed to ensure the uniformly fast convergence for all incident angles of plane incidence. Numerical experiments for both two and three dimensional problems are presented to demonstrate the accuracy and efficiency of the proposed method., Comment: 20 pages, 5 figures

Published
2023

9. Dynamical relaxation of a long-range XY chain

Author

Huang, Yu-Huang, Zou, Yin-Tao, and Ding, Chengxiang

Subjects
Condensed Matter - Statistical Mechanics, Quantum Physics
Abstract

We study the universal real-time relaxation behaviors of a long-range quantum XY chain following a quench. Our research includes both the noncritical and critical quench. In the case of noncritical quench, i.e., neither the initial state nor the postquench Hamiltonian is at a critical point of equilibrium phase transition, a quench to the commensurate phase or incommensurate phase gives a scaling of $t^{-3/2}$ or $t^{-1/2}$, respectively, which is the same as the counterpart of the short-range XY model. However, for a quench to the boundary line between the commensurate and incommensurate phases, the scaling law $t^{-\mu}$ may be different from the $t^{-3/4}$ law of the counterpart of the short-range model. More interestingly, the decaying exponent $\mu$ may depend on the choice of the parameters of the postquench Hamiltonian because of the different asymptotic behaviors of the energy spectrum. Furthermore, in certain cases, the scaling behavior may be outside the range of predictions made by the stationary phase approximation, because an inflection point emerges in the energy spectrum. For the critical quench, i.e., the initial state or the postquench Hamiltonian is at a critical point of equilibrium phase transition, the aforementioned scaling law $t^{-\mu}$ may be changed because of the gap-closing property of the energy spectrum of the critical point., Comment: 8 pages, 8 figures. arXiv admin note: text overlap with arXiv:2305.00160

Published
2023

10. The Quality Assessment of Community Children's Health Service Under the Contract Service Mode Based on PCAT

Author

WANG Xi, YIN Tao, YANG Huimin, WANG Haoxiang, YIN Delu

Subjects
child health services, contracted service, community health centers, primary care assessment tool, Medicine
Abstract

Background Primary medical institutions, with the characteristics of comprehensive, continuous, coordinated, convenient and economical, play an important role in the diagnosis and treatment of common and frequently-occurring children's diseases, planned immunization and child health management, and lay a solid foundation for children's health services. It is essential to improve the quality of child health services for children under the management of family doctor contract. There are regional differences in the ability of children's health services at primary institutions in China. Therefore, accurate evaluation of the quality of children's health services at primary institutions is helpful to find problems in time and promote the development of children's health services at a higher level. Objective To assess the quality of community children's health services for contracted children, analyze the quality problems and optimization strategies, and provide international vision and decision-making reference for further improving the quality. Methods Taking a district of Chengdu as a typical case, three community health service centers with stronger child health service ability in the district were selected as the sample institutions, and the parents of children contracted by the sample institutions were surveyed with the online questionnaire on the quality of community child health service by using the Chinese version of primary care assessment tool (PCAT) . Results Totally, 3 631 parents of contracted children were investigated. The total PCAT score of community child health service quality in the sample centers was (58.72 ± 13.43). The dimensions with relatively high PCAT scores of community child health service quality includes "continuity" "community first consultation (service availability and service use) " and "comprehensive service (service provision) ", while the dimensions "children and family-Centered" "comprehensive (available services) " and "coordination (referral) " had low scores. Conclusion It is suggested to strengthen the supply of diagnosis and treatment services for common pediatric diseases in the community, unblock the referral mechanism of Pediatrics, strengthen the awareness of parents of contracted children to be included in the contracted service team to participate in diagnosis and treatment decisions, and pay attention to the health services for children with non local registered residence.

Published
2024
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11. Survey of attack and detection based on the full life cycle of APT

Author

WANG Zhiwei, HE Xijie, YI Xin, LI Ziyang, CAO Xudong, YIN Tao, LI Shuhao, FU Anmin, and ZHANG Yuqing

Subjects
APT, network kill chain model, full life cycle, 0day attack, detect, Telecommunication, TK5101-6720
Abstract

The advanced persistent threat (APT) attack was explored from two perspectives: attack methods and detection methods. First, the definitions and characteristics of APT attacks were reviewed and the development of related attack models was summarized. Based on this, a more general APT full lifecycle model was proposed, which was divided into four stages: information gathering, intrusion execution, internal network penetration, and data exfiltration. For each stage, recent research papers from the past five years were thoroughly reviewed, and the attack and detection techniques for each stage were analyzed. Finally, in light of the dynamic landscape of APT attack and defense technologies, the paper underscores the formidable challenges confronting both offense and defense and offers guidance for future research in this domain.

Published
2024
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12. Mathematical and numerical study of an inverse source problem for the biharmonic wave equation

Author

Chang, Yan, Guo, Yukun, Yin, Tao, and Zhao, Yue

Subjects
Mathematics - Numerical Analysis, Mathematics - Analysis of PDEs
Abstract

In this paper, we study the inverse source problem for the biharmonic wave equation. Mathematically, we characterize the radiating sources and non-radiating sources at a fixed wavenumber. We show that a general source can be decomposed into a radiating source and a non-radiating source. The radiating source can be uniquely determined by Dirichlet boundary measurements at a fixed wavenumber. Moreover, we derive a Lipschitz stability estimate for determining the radiating source. On the other hand, the non-radiating source does not produce any scattered fields outside the support of the source function. Numerically, we propose a novel source reconstruction method based on Fourier series expansion by multi-wavenumber boundary measurements. Numerical experiments are presented to verify the accuracy and efficiency of the proposed method., Comment: 18 pages, 10 figures

Published
2023

17. Surgical treatment improves overall survival of hepatocellular carcinoma with extrahepatic metastases after conversion therapy: a multicenter retrospective study

Author

Zhang, Xiaoshi, Zhu, Xiaodong, Zhong, Jianhong, Zhao, Yang, Zhang, Xiaoyun, Zhang, Wenwen, Ye, Feng, Yang, Chaoxu, Xue, Jun, Xiong, Rui, Wang, Jiabei, Shen, Shunli, Pan, Yangxun, Li, Dongxiao, Song, Tianqiang, Bi, Xinyu, Sun, Huichuan, Xiang, Bangde, Gu, Shanzhi, Wen, Tianfu, Lu, Shichun, Chen, Yongjun, Yin, Tao, Liu, Lianxin, Kuang, Ming, Xu, Li, Li, Deyu, and Cai, Jianqiang

Published
2024
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18. Association Between Exposure to Multiple Toxic Metals in Follicular Fluid and the Risk of PCOS Among Infertile Women: The Mediating Effect of Metabolic Markers

Author

Wang, Xin, Zhang, Ying, Peng, Jie, Zhang, Hua, Jiang, Tingting, Zhang, Zhikang, Yin, Tao, Su, Xun, Zhang, Tao, Shen, Lingchao, He, Shitao, Wang, Xiaolei, Li, Danyang, Yue, Xinyu, Ji, Duoxu, Zhang, Dongyang, Dong, Rui, Zou, Weiwei, Liang, Dan, Liu, Yajing, Du, Yinan, Zhang, Zhiguo, Cao, Yunxia, Liang, Chunmei, and Ji, Dongmei

Published
2024
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21. Dynamical relaxation behaviors of a critical quench

Author

Zou, Yin-Tao and Ding, Chengxiang

Subjects
Condensed Matter - Statistical Mechanics
Abstract

We study the universal dynamical relaxation behaviors of a quantum XY chain following a quench, paying special attention to the case that the prequenched Hamiltonian, or the postquenched Hamiltonian, or both of them are at critical points of equilibrium quantum phase transitions. In such ``critical quench", we find very interesting real-time dynamical scaling behaviors and the crossover phenomena between them. For a quench from a noncritical point to a critical point, we find that, compared to the noncritical quench, the universal power-law scaling behavior does not change; however, there may be a crossover between the exponential decaying behavior and the power-law scaling. For a quench from a critical point to a noncritical point, the power-law scaling behaviors $t^{-3/2}$ and $t^{-3/4}$ in the noncritical quenches may be changed to $t^{-1}$ and $t^{-1/2}$, respectively. If the prequenched Hamiltonian is set to be a point that is close to but not exactly at a critical point, we find interesting crossover phenomena between different power-law scaling behaviors. We also study the quench from the vicinity of a multicritical point, we find crossover behaviors that are induced by a different mechanism, and new crossover exponent is found. All the results are related to the gap-closing properties of the energy spectrum of the critical points., Comment: 9pages, 12 figures, v2

Published
2023
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22. A PML method for signal-propagation problems in axon

Author

Jiang, Xue, Lyu, Maohui, Yin, Tao, and Zheng, Weiying

Subjects
Mathematics - Numerical Analysis
Abstract

This work is focused on the modelling of signal propagations in myelinated axons to characterize the functions of the myelin sheath in the neural structure. Based on reasonable assumptions on the medium properties, we derive a two-dimensional neural-signaling model in cylindrical coordinates from the time-harmonic Maxwell's equations. The well-posedness of model is established upon Dirichlet boundary conditions at the two ends of the neural structure and the radiative condition in the radial direction of the structure. Using the perfectly matched layer (PML) method, we truncate the unbounded background medium and propose an approximate problem on the truncated domain. The well-posedness of the PML problem and the exponential convergence of the approximate solution to the exact solution are established. Numerical experiments based on finite element discretization are presented to demonstrate the theoretical results and the efficiency of our methods to simulate the signal propagation in axons.

Published
2022

25. WiHI: Indoor Human Identification with WiFi Signals

Author

Wang, Ping, Wang, WenKai, Zhang, Zhenya, Yin, Tao, Gao, Jiaojiao, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Wang, Lei, editor, Qiu, Tie, editor, Lin, Chi, editor, and Wang, Xinbing, editor

Published
2024
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26. Fish Waste and By-Product as a Source of Calcium

Author

Yin, Tao, Khalifa, Ibrahim, You, Juan, Peng, Lin, Khoder, Ramy M., Jawaid, Mohammad, Series Editor, Khan, Anish, Series Editor, Maqsood, Sajid, editor, Naseer, Muhammad Nihal, editor, Benjakul, Soottawat, editor, and Zaidi, Asad A., editor

Published
2024
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27. A highly accurate perfectly-matched-layer boundary integral equation solver for acoustic layered-medium problems

Author

Lu, Wangtao, Xu, Liwei, Yin, Tao, and Zhang, Lu

Subjects
Mathematics - Numerical Analysis
Abstract

Based on the perfectly matched layer (PML) technique, this paper develops a high-accuracy boundary integral equation (BIE) solver for acoustic scattering problems in locally defected layered media in both two and three dimensions. The original scattering problem is truncated onto a bounded domain by the PML. Assuming the vanishing of the scattered field on the PML boundary, we derive BIEs on local defects only in terms of using PML-transformed free-space Green's function, and the four standard integral operators: single-layer, double-layer, transpose of double-layer, and hyper-singular boundary integral operators. The hyper-singular integral operator is transformed into a combination of weakly-singular integral operators and tangential derivatives. We develop a high-order Chebyshev-based rectangular-polar singular-integration solver to discretize all weakly-singular integrals. Numerical experiments for both two- and three-dimensional problems are carried out to demonstrate the accuracy and efficiency of the proposed solver., Comment: 19 pages, 16 figures

Published
2022

33. Hybrid 3D printed three-axis force sensor aided by machine learning decoupling

Author

Guotao Liu, Peishi Yu, Yin Tao, Tao Liu, Hezun Liu, and Junhua Zhao

Subjects
Hybrid 3D printing, 3-axis force sensor, machine learning, nonlinear decoupling, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Identification of magnitude and orientation for spatially applied loading is highly desired in the fields of not only the machinery components but also human-machine interaction. Despite the fact that the 3-axis force sensor with different structures has been proposed to measure the spatial force, there are still some common limitations including the multi-step manufacturing-assembly processes and complicated testing of decoupling calibration. Here, we propose a rapid fabrication strategy with low-cost to achieve high-precision 3-axis force sensors. The sensor is designed to compose of structural Maltese cross base and sensing units. It is directly fabricated within one step by a hybrid 3D printing technology combining deposition modeling (FDM) with direct-ink-writing (DIW). In particular, a machine learning (ML) model is used to convert the strain signal to the force components. Instead of a mount of calibration tests, this ML model is trained by sufficient simulation data based on programmed batch finite element modeling. This sensor is capable of continuously identifying a spatial force with varying magnitude and orientation, which successfully quantify the applied force of traditional Chinese medicine physiotherapy including Gua Sha and massage. This work provides insight for design and rapid fabrication of multi-axis force sensors, as well as potential applications.

Published
2024
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34. Multiple-scattering frequency-time hybrid solver for the wave equation in interior domains

Author

Bruno, Oscar P. and Yin, Tao

Subjects
Mathematics - Numerical Analysis, 35L05, 65M80, 65T99, 65R20
Abstract

This paper proposes a frequency-time hybrid solver for the time-dependent wave equation in two-dimensional interior spatial domains. The approach relies on four main elements, namely, 1) A multiple scattering strategy that decomposes a given interior time-domain problem into a sequence of limited-duration time-domain problems of scattering by overlapping open arcs, each one of which is reduced (by means of the Fourier transform) to a sequence of Helmholtz frequency-domain problems; 2) Boundary integral equations on overlapping boundary patches for the solution of the frequency-domain problems in point 1); 3) A smooth "Time-windowing and recentering" methodology that enables both treatment of incident signals of long duration and long time simulation; and, 4) A Fourier transform algorithm that delivers numerically dispersionless, spectrally-accurate time evolution for given incident fields. By recasting the interior time-domain problem in terms of a sequence of open-arc multiple scattering events, the proposed approach regularizes the full interior frequency domain problem-which, if obtained by either Fourier or Laplace transformation of the corresponding interior time-domain problem, must encapsulate infinitely many scattering events, giving rise to non-uniqueness and eigenfunctions in the Fourier case, and ill conditioning in the Laplace case. Numerical examples are included which demonstrate the accuracy and efficiency of the proposed methodology., Comment: 34 pages, 17 figures, 3 tables

Published
2022

37. Spectral Galerkin method for solving elastic wave scattering problems with multiple open arcs

Author

Jerez-Hanckes, Carlos, Pinto, Jose, and Yin, Tao

Subjects
Mathematics - Numerical Analysis, Mathematics - Analysis of PDEs
Abstract

We study the elastic time-harmonic wave scattering problems on unbounded domains with boundaries composed of finite collections of disjoints finite open arcs (or cracks) in two dimensions. Specifically, we present a fast spectral Galerkin method for solving the associated weakly- and hyper-singular boundary integral equations (BIEs) arising from Dirichlet and Neumann boundary conditions, respectively. Discretization bases of the resulting BIEs employ weighted Chebyshev polynomials that capture the solutions' edge behavior. We show that these bases guarantee exponential convergence in the polynomial degree when assuming analyticity of sources and arcs geometries. Numerical examples demonstrate the accuracy and robustness of the proposed method with respect to number of arcs and wavenumber., Comment: 28

Published
2022

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