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11,245 results on '"He Yang"'

151. Multisize Dataset Condensation

Author

He, Yang, Xiao, Lingao, Zhou, Joey Tianyi, and Tsang, Ivor

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

While dataset condensation effectively enhances training efficiency, its application in on-device scenarios brings unique challenges. 1) Due to the fluctuating computational resources of these devices, there's a demand for a flexible dataset size that diverges from a predefined size. 2) The limited computational power on devices often prevents additional condensation operations. These two challenges connect to the "subset degradation problem" in traditional dataset condensation: a subset from a larger condensed dataset is often unrepresentative compared to directly condensing the whole dataset to that smaller size. In this paper, we propose Multisize Dataset Condensation (MDC) by compressing N condensation processes into a single condensation process to obtain datasets with multiple sizes. Specifically, we introduce an "adaptive subset loss" on top of the basic condensation loss to mitigate the "subset degradation problem". Our MDC method offers several benefits: 1) No additional condensation process is required; 2) reduced storage requirement by reusing condensed images. Experiments validate our findings on networks including ConvNet, ResNet and DenseNet, and datasets including SVHN, CIFAR-10, CIFAR-100 and ImageNet. For example, we achieved 5.22%-6.40% average accuracy gains on condensing CIFAR-10 to ten images per class. Code is available at: https://github.com/he-y/Multisize-Dataset-Condensation., Comment: Accepted by ICLR 2024 Oral

Published
2024

152. VeriEQL: Bounded Equivalence Verification for Complex SQL Queries with Integrity Constraints

Author

He, Yang, Zhao, Pinhan, Wang, Xinyu, and Wang, Yuepeng

Subjects
Computer Science - Programming Languages, Computer Science - Databases
Abstract

The task of SQL query equivalence checking is important in various real-world applications (including query rewriting and automated grading) that involve complex queries with integrity constraints; yet, state-of-the-art techniques are very limited in their capability of reasoning about complex features (e.g., those that involve sorting, case statement, rich integrity constraints, etc.) in real-life queries. To the best of our knowledge, we propose the first SMT-based approach and its implementation, VeriEQL, capable of proving and disproving bounded equivalence of complex SQL queries. VeriEQL is based on a new logical encoding that models query semantics over symbolic tuples using the theory of integers with uninterpreted functions. It is simple yet highly practical -- our comprehensive evaluation on over 20,000 benchmarks shows that VeriEQL outperforms all state-of-the-art techniques by more than one order of magnitude in terms of the number of benchmarks that can be proved or disproved. VeriEQL can also generate counterexamples that facilitate many downstream tasks (such as finding serious bugs in systems like MySQL and Apache Calcite)., Comment: OOPSLA 2024

Published
2024

153. Nanoscale variation of the Rashba energy in BiTeI

Author

Kang, Ruizhe, Ge, Jian-Feng, He, Yang, Zhu, Zhihuai, Larson, Daniel T., Saghir, Mohammed, Hoffman, Jason D., Balakrishnan, Geetha, and Hoffman, Jennifer E.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

BiTeI is a polar semiconductor with strong spin-orbit coupling (SOC) that produces large Rashba spin splitting. Due to its potential utility in spintronics and magnetoelectrics, it is essential to understand how defects impact the spin transport in this material. Using scanning tunneling microscopy and spectroscopy, we image ring-like charging states of single-atom defects on the iodine surface of BiTeI. We observe nanoscale variations in the Rashba energy around each defect, which we correlate with the local electric field extracted from the bias dependence of each ring radius. Our data demonstrate the local impact of atomic defects on the Rashba effect, which is both a challenge and an opportunity for the development of future nanoscale spintronic devices.

Published
2024

154. Chip-scale high-performance photonic microwave oscillator

Author

He, Yang, Cheng, Long, Wang, Heming, Zhang, Yu, Meade, Roy, Vahala, Kerry, Zhang, Mian, and Li, Jiang

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Optical frequency division based on bulk or fiber optics provides unprecedented spectral purity for microwave oscillators. To extend the applications of this approach, the big challenges are to develop miniaturized optical frequency division oscillators without trading off phase noise performance. In this paper, we report a chip-scale electro-optical frequency division microwave oscillator with ultra-low phase noise performance. Dual laser sources are co-self-injection-locked to a single silicon nitride spiral resonator to provide a record high-stability, fully on-chip optical reference. An integrated electro-optical frequency comb based on a novel thin-film lithium niobate phase modulator chip is incorporated for the first time to perform optical-to-microwave frequency division. The resulting chip-scale photonic microwave oscillator achieves a phase noise level of -129 dBc/Hz at 10 kHz offset for 37.7 GHz carrier. The results represent a major advance in high performance, integrated photonic microwave oscillators for applications including signal processing, radar, timing, and coherent communications.

Published
2024

155. High-order topological pumping on a superconducting quantum processor

Author

Deng, Cheng-Lin, Liu, Yu, Zhang, Yu-Ran, Li, Xue-Gang, Liu, Tao, Chen, Chi-Tong, Liu, Tong, Lu, Cong-Wei, Wang, Yong-Yi, Li, Tian-Ming, Fang, Cai-Ping, Zhou, Si-Yun, Song, Jia-Cheng, Xu, Yue-Shan, He, Yang, Liu, Zheng-He, Huang, Kai-Xuan, Xiang, Zhong-Cheng, Wang, Jie-Ci, Zheng, Dong-Ning, Xue, Guang-Ming, Xu, Kai, Yu, H. F., and Fan, Heng

Subjects
Quantum Physics
Abstract

High-order topological phases of matter refer to the systems of $n$-dimensional bulk with the topology of $m$-th order, exhibiting $(n-m)$-dimensional boundary modes and can be characterized by topological pumping. Here, we experimentally demonstrate two types of second-order topological pumps, forming four 0-dimensional corner localized states on a 4$\times$4 square lattice array of 16 superconducting qubits. The initial ground state of the system for half-filling, as a product of four identical entangled 4-qubit states, is prepared using an adiabatic scheme. During the pumping procedure, we adiabatically modulate the superlattice Bose-Hubbard Hamiltonian by precisely controlling both the hopping strengths and on-site potentials. At the half pumping period, the system evolves to a corner-localized state in a quadrupole configuration. The robustness of the second-order topological pump is also investigated by introducing different on-site disorder. Our work studies the topological properties of high-order topological phases from the dynamical transport picture using superconducting qubits, which would inspire further research on high-order topological phases.

Published
2024

156. Nanoscale Conducting and Insulating Domains on YbB$_6$

Author

Coe, Aaron, Zhu, Zhi-Huai, He, Yang, Kim, Dae-Jeong, Fisk, Zachary, Hoffman, Jason, and Hoffman, Jennifer

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

YbB$_6$ is a predicted topological insulator, with experimental evidence for conducting surface states of yet-unproven origin. However, its lack of a natural cleavage plane, and resultant surface-dependent polarity, has obscured its study. We use scanning tunneling microscopy to image the cleaved surface of YbB$_6$, exhibiting several coexisting terminations with distinct atomic structures. Our spectroscopic measurements show band-bending between the terminations, resulting in both conducting and fully-gapped regions. In the conductive regions, we observe spectral peaks that are suggestive of van Hove singularities arising from Rashba spin-split quantum well states. The insulating regions rule out the possibility that YbB$_6$ is a strong topological insulator, while the spin-polarized conducting regions suggest possible utility for spintronic devices., Comment: Submitted to Physical Review Letters

Published
2024

157. Deciphering yield modification of hadron-triggered semi-inclusive recoil jets in heavy-ion collisions

Author

He, Yang, Nie, Maowu, Cao, Shanshan, Ma, Rongrong, Yi, Li, and Caines, Helen

Subjects
Nuclear Theory, Nuclear Experiment
Abstract

In relativistic heavy-ion collisions, a hot and dense state of matter, called the Quark-Gluon Plasma (QGP), is produced. Semi-inclusive jets recoiling from trigger hadrons of high transverse momenta ($p_{\mathrm{T}}$) can serve as an effective probe of the QGP properties, as they are expected to experience jet quenching when traversing the QGP. Recent experimental results on the ratio of recoil jet yields normalized by the trigger counts in heavy-ion collisions to that in $p$+$p$ collisions ($I_{\mathrm{AA}}$) pose an unexpected challenge in its interpretation. It is observed that $I_{\mathrm{AA}}$ rises with the jet $p_{\mathrm{T}}$ and possibly exceeds unity at high $p_{\mathrm{T}}$, while traditionally it is expected that jet quenching would lead to $I_{\mathrm{AA}} < 1$. To address this challenge, we utilize the Linear Boltzmann Transport (LBT) model to simulate jet transport in the QGP, and study the effect of jet quenching for high-$p_{\mathrm{T}}$ triggers and recoil jets separately on $I_{\mathrm{AA}}$. We find that the quenching of the colored triggers alone is responsible for the rising trend and larger-than-unity value observed experimentally., Comment: 4 pages, 4 figures

Published
2024
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158. Positioning Errors Measurement of CNC Machine Tools Based on J-DBB Method

Author

Tao Sun, Wen Wang, Zhanfeng Chen, Yewen Zhu, Kaifei Xu, Haimei Wu, Zhiqian Sang, Keqing Lu, and He Yang

Subjects
positioning errors, full-scale measurement, machine tool, double ball bar with a spherical joint, double ball bar, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Due to the errors of the servo system and the errors of the ball screw drive system, the positioning errors inevitably occur in the process of CNC machine tools. The measurement of traditional equipment is limited by a fixed measurement radius and a single degree of freedom, which can only be measured within a fixed plane. In this paper, four different positioning errors of CNC machine tools are first measured at full scale by using J-DBB (a modified double ball bar with one spherical joint connecting two bars) method. The J-DBB device uses a three-degree-of-freedom spherical joint as a connecting part, which realizes that the measurement radius can be continuously changed, and the measurement space is a spatial sphere. First, the principle of the J-DBB method is briefly introduced. Next, four typical positioning errors of CNC machine tools are analyzed and examined, which contain the uniform contraction error of ball screw and linear grating, periodic error of the ball screw and linear grating, interference of measurement devices error, and opposite clearance error. In the end, the trajectories of the CNC machine tool spindle with a single positioning error are simulated by using the J-DBB method. The results reveal that this method can be used for the positioning error of machine tools, which helps to better understand the spatial distribution of CNC machine tool errors and provides guidance for the reasonable selection of working areas to improve the machining accuracy of parts.

Published
2021
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159. Theoretical and Numerical Analysis of Blasting Pressure of Cylindrical Shells under Internal Explosive Loading

Author

Zhan-Feng Chen, Hui-Jie Wang, Zhiqian Sang, Wen Wang, He Yang, Wei-Ming Meng, and Yu-Xing Li

Subjects
internal blast loading, linearization, dynamic blast pressure, cylindrical shells, analytical solution, Naval architecture. Shipbuilding. Marine engineering, VM1-989, Oceanography, GC1-1581
Abstract

Cylindrical shells are principal structural elements that are used for many purposes, such as offshore, sub-marine, and airborne structures. The nonlinear mechanics model of internal blast loading was established to predict the dynamic blast pressure of cylindrical shells. However, due to the complexity of the nonlinear mechanical model, the solution process is time-consuming. In this study, the nonlinear mechanics model of internal blast loading is linearized, and the dynamic blast pressure of cylindrical shells is solved. First, a mechanical model of cylindrical shells subjected to internal blast loading is proposed. To simplify the calculation, the internal blast loading is reduced to linearly uniform variations. Second, according to the stress function method, the dynamic blast pressure equation of cylindrical shells subjected to blast loading is derived. Third, the calculated results are compared with those of the finite element method (FEM) under different durations of dynamic pressure pulse. Finally, to reduce the errors, the dynamic blast pressure equation is further optimized. The results demonstrate that the optimized equation is in good agreement with the FEM, and is feasible to linearize the internal blast loading of cylindrical shells.

Published
2021
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160. Calcium-Sensing Receptor Stimulation in Cultured Glomerular Podocytes Induces TRPC6-Dependent Calcium Entry and RhoA Activation

Author

Lei Zhang, Tianrong Ji, Qin Wang, Kexin Meng, Rui Zhang, He Yang, Chang Liao, Linlin Ma, and Jundong Jiao

Subjects
Trpc6, Calcium-sensing receptor, RhoA, Podocytes, Physiology, QP1-981, Biochemistry, QD415-436
Abstract

Background/Aims: Recent studies provided compelling evidence that stimulation of the calcium sensing receptor (CaSR) exerts direct renoprotective action at the glomerular podocyte level. This protective action may be attributed to the RhoA-dependent stabilization of the actin cytoskeleton. However, the underlying mechanisms remain unclear. Methods: In the present study, an immortalized human podocyte cell line was used. Fluo-3 fluorescence was utilized to determine intracellular Ca2+ concentration ([Ca2+]i), and western blotting was used to measure canonical transient receptor potential 6 (TRPC6) protein expression and RhoA activity. Stress fibers were detected by FITC-phalloidin. Results: Activating CaSR with a high extracellular Ca2+ concentration ([Ca2+]o) or R-568 (a type II CaSR agonist) induces an increase in the [Ca2+]i in a dose-dependent manner. This increase in [Ca2+]i is phospholipase C (PLC)-dependent and is smaller in the absence of extracellular Ca2+ than in the presence of 0.5 mM [Ca2+]o. The CaSR activation-induced [Ca2+]i increase is attenuated by the pharmacological blockage of TRPC6 channels or siRNA targeting TRPC6. These data suggest that TRPC6 is involved in CaSR activation-induced Ca2+ influx. Consistent with a previous study, CaSR stimulation results in an increase in RhoA activity. However, the knockdown of TRPC6 significantly abolished the RhoA activity increase induced by CaSR stimulation, suggesting that TRPC6-dependent Ca2+ entry is required for RhoA activation. The activated RhoA is involved in the formation of stress fibers and focal adhesions in response to CaSR stimulation because siRNA targeting RhoA attenuated the increase in the stress fiber mediated by CaSR stimulation. Moreover, this effect of CaSR activation on the formation of stress fibers is also abolished by the knockdown of TRPC6. Conclusion: TRPC6 is involved in the regulation of stress fiber formation and focal adhesions via the RhoA pathway in response to CaSR activation. This may explain the direct protective action of CaSR agonists.

Published
2017
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161. Approximate controllability of fractional nonlocal evolution equations with multiple delays

Author

He Yang and Elyasa Ibrahim

Subjects
fractional evolution equations, nonlocal initial condition, multiple delays, compact analytic semigroup, approximate controllability, Mathematics, QA1-939
Abstract

Abstract This paper deals with the existence and approximate controllability for a class of fractional nonlocal control systems governed by abstract fractional evolution equations with multiple delays. Under some weaker assumptions, the existence as well as the approximate controllability is established by using fixed point theory. An example is given to illustrate the applicability of the abstract results.

Published
2017
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162. Coupled fixed point theorems with applications to fractional evolution equations

Author

He Yang, Ravi P Agarwal, and Hemant K Nashine

Subjects
coupled fixed point theorem, nonlinear fractional evolution system, equi-continuous C 0 $C_{0}$ -semigroup, coupled mild solution, existence, Mathematics, QA1-939
Abstract

Abstract In this paper, we first prove some coupled fixed point theorems in partially ordered Φ-orbitally complete normed linear spaces. And then apply the obtained fixed point theorems to a class of semilinear evolution systems of fractional order for proving the existence of coupled mild solutions under some weaker monotone conditions. An example is given to illustrate the application of the abstract results.

Published
2017
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163. Effect of Cross-linking on Antifouling Properties for PVDF-g-PACMO Membranes

Author

FENG Qian-qian, SHEN Xiang, HE Yang, ZHAO Yi-ping, YAN Fan-yong, and CHEN Li

Subjects
EGDMA, PVDF, ACMO, resistant to protein adsorption, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

In order to enhance the capability of resistant to protein adsorption of the copolymer membrane of polyacryloylmorpholine-graft-acryloylmorpholine(PVDF-g-PACMO), a crosslinking agent of ethylene glycoldimethacrylate(EGDMA) was added to prepare the copolymer.The copolymers with different proportions of the crosslinking agent were cast into flat membranes via a liquid-liquid phase separation technique, and then the influence of EGDMA contained in the membranes on its capability of resistant to protein adsorption was investigated. FT-IR results indicate the PVDF-g-PACMO copolymers with EGDMA are synthesized successfully. A series of tests, including XPS, SEM, the contact angle, the static protein adsorption and permeation experiments, show that PACMO is much easier to segregate to the surface with the increase of the crosslinking agent content in the system, the number of membrane pores increases, meantime, the hydrophilicity and water flux of the copolymer membranes are improved. Moreover, the adsorption amount of protein, total pollution index and irreversible pollution index decrease, and reversible pollution index increases. All results indicate the crosslinking agent of EGDMA can enhance the capability of resistant to protein adsorption of PVDF-g-PACMO membranes.

Published
2017
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164. Study on antidepressant activity of sesquiterpenoids from ginseng root

Author

Weijia Ge, Haijun Li, Yan Zhao, Enbo Cai, Hongyan Zhu, Yugang Gao, Shuangli Liu, He Yang, and Lianxue Zhang

Subjects
The sesquiterpenoids in Ginseng root, Antidepressant-like effect, Dopaminergic, GABAergic, Glutamatergic, Noradrenergic, Nutrition. Foods and food supply, TX341-641
Abstract

The antidepressant-like effect of the sesquiterpenoids in Ginseng root was evaluated by using animal models of depression, forced swim test in mice. Our results showed that treatment with the sesquiterpenoids at dose of 1.0 mg/kg significantly decreased immobility time in the forced swimming test. Pretreatment with haloperidol (a non-selective D2 receptor antagonist), bicuculline (a competitive GABA antagonist) and N-methyl-D-aspartic acid (an agonist at the glutamate site) effectively reversed the antidepressant-like effect of the sesquiterpenoids (1.0 mg/kg). Moreover, the sesquiterpenoids treatment did not change the locomotor activity. And the sesquiterpenoids (1.0 mg/kg) also effectively increased the DA and GABA levels in mice brains exposed to the FST on the co-treatment groups. In conclusion, the sesquiterpenoids in Ginseng root (1.0 mg/kg) produced significant antidepressant-like effect, which was probably related to the dopaminergic, GABAergic and glutamatergic systems.

Published
2017
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166. Phase transformations and precipitation behavior in FeCrAl stainless steel during equilibrium solidification

Author

DENG Zhen-qiang, LIU Jian-hua, HE Yang, HAN Zhi-biao, SU Xiao-feng, and DING Hao

Subjects
fecral stainless steel, thermo-calc, phase diagram calculation, solidification mode, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171
Abstract

The phase transformations and precipitation behavior were investigated by using Thermo-Calc software in the Fe-(18-21)Cr-(3-5)Al-(0-0.03)C-(0-0.2)Si-(0-0.2)Mn multicomponent system relevant to FeCrAl stainless steel during solidification. The vertical sections of this system were calculated by using the TCFE7 database. Based on these vertical sections, the influence of different elements was analyzed in the phase transformations during solidification and a diagram of the phase-transformation path of FeCrAl stainless steel was obtained during equilibrium solidification. The results indicate that the full-phase transformation path of FeCrAl stainless steel during the cooling process from 1600℃ to 300℃ is as follows:L→AlN+αδFe→AlN+αδFe+Cr7C3→AlN+αδFe+Cr7C3+Cr23C6→AlN+αδFe+Cr23C6→AlN+αδFe+Cr23C6+σ→AlN+αδFe+Cr23C6+σ+α'→AlN+αδFe+Cr23C6+α'. The precipitation of Cr7C3 and σ, during the solidification process mainly depends on the carbon and silicon contents in the system, respectively. Increasing the aluminum content can enlarge the stable region of αδFe+Cr7C3, lower the precipitation temperature of α', and restrain σ precipitation. Increasing the chromium content can reduce the stable region of αδFe+Cr7C3 and enlarge the stable region of σ and α'.

Published
2017
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167. Experimental study and modeling of hydromechanical behavior of concrete fracture

Author

He Yang, Shou-yi Xie, Jean Secq, and Jian-fu Shao

Subjects
Concrete fracture, Direct shear, Hydromechanical coupling, Hydraulic conductivity, Elastoplastic model, River, lake, and water-supply engineering (General), TC401-506
Abstract

In this study, the hydromechanical behavior of a concrete fracture under coupled compressive and shear stresses was investigated. A special experimental device was designed to create a planar fracture in a cylindrical sample and to carry out different kinds of hydromechanical tests on the fracture. Four series of laboratory tests were performed on an ordinary concrete sample. Hydrostatic compression tests were first conducted to characterize the normal compressibility of the fracture. In the second series, direct shear tests were conducted on the fracture under different normal stresses. The maximal shear stress of the fracture was determined as a function of the normal stress. In the third series, fluid flow tests were carried out in view of characterizing the overall hydraulic conductivity of the fracture as a function of its opening and closure. Shear tests with a constant fluid pressure were finally performed to investigate the influence of fluid pressure on the deformation behavior of concrete fractures. Based on the experimental investigation, an elastoplastic model is proposed. This model takes into account the nonlinear elastic behavior of a fracture under normal compression and the plastic deformation and failure due to shear stress. The model was coupled with the classical Darcy's law to describe the fluid flow along the fracture by considering the variation of permeability with fracture aperture. Numerical results agree with experimental data from various laboratory tests.

Published
2017
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168. Specific and Stable Suppression of HIV Provirus Expression In Vitro by Chimeric Zinc Finger DNA Methyltransferase 1

Author

Junxiao Deng, Xiying Qu, Panpan Lu, Xinyi Yang, Yuqi Zhu, Haiyan Ji, Yanan Wang, Zhengtao Jiang, Xian Li, Yangcheng Zhong, He Yang, Hanyu Pan, Won-Bin Young, and Huanzhang Zhu

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

HIV-1 inserts its proviral DNA into the infected host cells, by which HIV proviral DNA can then be duplicated along with each cell division. Thus, provirus cannot be eradicated completely by current antiretroviral therapy. We have developed an innovative strategy to silence the HIV provirus by targeted DNA methylation on the HIV promoter region. We genetically engineered a chimeric DNA methyltransferase 1 composed of designed zinc-finger proteins to become ZF2 DNMT1. After transient transfection of the molecular clone encoding this chimeric protein into HIV-1 infected or latently infected cells, efficient suppression of HIV-1 expression by the methylation of CpG islands in 5′-LTR was observed and quantified. The effective suppression of HIV in latently infected cells by ZF2-DNMT1 is stable and can last through about 40 cell passages. Cytotoxic caused by ZF2-DNMT1 was only observed during cellular proliferation. Taken together, our results demonstrate the potential of this novel approach for anti-HIV-1 therapy. Keywords: HIV-1, methylation, zinc finger, chimeric protein, DNMT1, gene therapy

Published
2017
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170. A high speed truly random number generator based on thermal noise oscilltor

Author

Wei Zikui, Fu Ling, Wang Xue, He Yang, Jin Xin, Tan Lang, Hu Yi, Tang Xiaoke, Zhang Haifeng, and Zhao Dongyan

Subjects
truly random number generator, thermal noise, oscillator, random tremble, power consumption, Electronics, TK7800-8360
Abstract

A truly random number generator based on thermal noise was proposed, and the resistance thermal noise was used as the noise source of the low frequency clock. It uses two independent working relative relationship between high and low frequency oscillator to sample noise source, and uses low frequency oscillator with jitter to sample the high frequency osciuator which has a fixed cycle oscillator by D flip-flop, to generate a random number sequence. The circuit was based on SMIC 28 nm CMOS process. The simulation results show that based on the thermal noise of truly random number generator the output throughput rate range is 1.8~12 Mb/s, random number output satisfies the requirement of entropy source AIS31 truly random number test, and the overall power consumption is 0.388 mW.

Published
2018
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171. Cavitation and flow forces in the flapper-nozzle stage of a hydraulic servo-valve manipulated by continuous minijets

Author

He Yang, Wen Wang, and Keqing Lu

Subjects
Mechanical engineering and machinery, TJ1-1570
Abstract

Electro-hydraulic servo-valves play key roles in modern electro-hydraulic power systems in many industrial applications. As one of the widely used hydraulic servo-valves, cavitation in the flapper-nozzle servo-valve could produce deleterious effects of noise, flapper vibration and cavitation erosion. In this work, a numerical investigation has been conducted on the manipulation of the flapper-nozzle pilot valve using continuous minijets. Two minijets are symmetrically deployed around the main jet of each nozzle. Vapor fraction and flow forces under the effect of the continuous minijets are compared in detail between the traditional nozzle and the nozzle with the minijets. It is found that cavitation in the flapper-nozzle stage is greatly weakened under the effect of the continuous minijets. The remarkable drop in the radial jet velocity results in the suppression of the swirling structures in the annulus, which may be responsible for the cavitation reduction. The variation trend of the flow forces with the inlet pressure remains unchanged while the magnitude of the flow forces is varied slightly, depending on the various surfaces of the flapper.

Published
2019
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172. Research on the Shock Response Characteristics of a Threaded Connection Using the Thin-Layer Element Method

Author

A’min Yan, Xiaofeng Wang, He Yang, Fenglei Huang, and Aiguo Pi

Subjects
threaded connection, nonlinear factors, thin-layer element (TLE), projectile–fuse system, frequency response analysis, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Nonlinear factors such as the contact stiffness and friction damping at the threaded interface of a projectile–fuse system significantly affect the dynamic response characteristics. To obtain the dynamic response of the fuse body accurately during penetration, it is necessary to characterize these nonlinear factors reasonably. Because the existing structural dynamics software cannot effectively deal with nonlinear factors, the thin-layer element method was used to represent the nonlinear factors in this study. By combining the thread elastic model with thin-layer element principles, an effective method for determining the material parameters of the thin-layer element was established theoretically, which provided a different method of determining material parameters, not just relying on experiments. The accuracy of the material parameters was verified based on modal experiments with threaded tubes having different specifications. The errors were within 5%, indicating the reliability of the theoretical determination method for the material parameters. In addition, projectile penetration into a semi-infinite concrete target was tested to verify the accuracy of the thin-layer element modeling. Compared with the ‘TIED’ constraint method, the resonant frequency obtained with the thin-layer element method was in better agreement with that of the experimental data. The maximum error decreased from 15.7 to 7.8%, indicating that the thin-layer element method could accurately represent the nonlinear factors. Thus, this study serves as a reference for accurately evaluating the dynamic response of the fuse body of a penetrator.

Published
2021
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173. Thermal Decomposition Kinetics of Rare Earth Minerals in Tailings with Addition of MgO

Author

Yan Zhou, Shizhe Song, Jianxing Liu, Gongjin Cheng, He Yang, and Xiangxin Xue

Subjects
kinetics, rare earth, MgO roasting, Bayan Obo tailings, thermal decomposition, magnetizing roasting, Mining engineering. Metallurgy, TN1-997
Abstract

Due to the advantage in deactivating fluorine and enhancing the decomposition of rare earth (RE) minerals, MgO was applied to the magnetizing roasting of Bayan Obo tailings in this work. The effects of MgO dosages, roasting temperature, and holding time on the decomposition rate of RE minerals were experimentally studied. With a MgO dosage of 10 wt.%, the decomposition rate of RE minerals reached 98.09% at 750 °C. The phase composition of roasted samples was characterized by XRD and SEM-EDS. The incomplete decomposition rate was investigated with the observation of leaching residual by SEM-EDS. The decomposition kinetics of the RE minerals with the addition of MgO was analyzed with the Ginstling-Brundshtein model, where the reaction rate was controlled by chemical reaction.

Published
2021
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181. Deep Learning for Code Intelligence: Survey, Benchmark and Toolkit

Author

Wan, Yao, He, Yang, Bi, Zhangqian, Zhang, Jianguo, Zhang, Hongyu, Sui, Yulei, Xu, Guandong, Jin, Hai, and Yu, Philip S.

Subjects
Computer Science - Software Engineering, Computer Science - Artificial Intelligence
Abstract

Code intelligence leverages machine learning techniques to extract knowledge from extensive code corpora, with the aim of developing intelligent tools to improve the quality and productivity of computer programming. Currently, there is already a thriving research community focusing on code intelligence, with efforts ranging from software engineering, machine learning, data mining, natural language processing, and programming languages. In this paper, we conduct a comprehensive literature review on deep learning for code intelligence, from the aspects of code representation learning, deep learning techniques, and application tasks. We also benchmark several state-of-the-art neural models for code intelligence, and provide an open-source toolkit tailored for the rapid prototyping of deep-learning-based code intelligence models. In particular, we inspect the existing code intelligence models under the basis of code representation learning, and provide a comprehensive overview to enhance comprehension of the present state of code intelligence. Furthermore, we publicly release the source code and data resources to provide the community with a ready-to-use benchmark, which can facilitate the evaluation and comparison of existing and future code intelligence models (https://xcodemind.github.io). At last, we also point out several challenging and promising directions for future research.

Published
2023

182. Corrosion-resistant aluminum alloy design through machine learning combined with high-throughput calculations

Author

Ji, Yucheng, Fu, Xiaoqian, Ding, Feng, Xu, Yongtao, He, Yang, Ao, Min, Xiao, Fulai, Chen, Dihao, Dey, Poulumi, Xiao, Kui, Ren, Jingli, Li, Xiaogang, and Dong, Chaofang

Subjects
Condensed Matter - Materials Science
Abstract

Efficiently designing lightweight alloys with combined high corrosion resistance and mechanical properties remains an enduring topic in materials engineering. To this end, machine learning (ML) coupled ab-initio calculations is proposed within this study. Due to the inadequate accuracy of conventional stress-strain ML models caused by corrosion factors, a novel reinforcement self-learning ML algorithm (accuracy R2 >0.92) is developed. Then, a strategy that integrates ML models, calculated energetics and mechanical moduli is implemented to optimize the Al alloys. Next, this Computation Designed Corrosion-Resistant Al alloy is fabricated that verified the simulation. The performance (elongation reaches ~30%) is attributed to the H-captured Al-Sc-Cu phases (-1.44 eV H-1) and Cu-modified {\eta}/{\eta}' precipitation inside the grain boundaries (GBs). The developed Al-Mg-Zn-Cu interatomic potential (energy accuracy 6.50 meV atom-1) proves the cracking resistance of the GB region enhanced by Cu-modification. Conceptually, our strategy is of practical importance for designing new alloys exhibiting corrosion resistance and mechanical properties.

Published
2023

183. Learning to be Simple

Author

He, Yang-Hui, Jejjala, Vishnu, Mishra, Challenger, and Sharnoff, Em

Subjects
Computer Science - Machine Learning, High Energy Physics - Theory, Mathematical Physics, Mathematics - Group Theory
Abstract

In this work we employ machine learning to understand structured mathematical data involving finite groups and derive a theorem about necessary properties of generators of finite simple groups. We create a database of all 2-generated subgroups of the symmetric group on n-objects and conduct a classification of finite simple groups among them using shallow feed-forward neural networks. We show that this neural network classifier can decipher the property of simplicity with varying accuracies depending on the features. Our neural network model leads to a natural conjecture concerning the generators of a finite simple group. We subsequently prove this conjecture. This new toy theorem comments on the necessary properties of generators of finite simple groups. We show this explicitly for a class of sporadic groups for which the result holds. Our work further makes the case for a machine motivated study of algebraic structures in pure mathematics and highlights the possibility of generating new conjectures and theorems in mathematics with the aid of machine learning., Comment: 25 pages, 6 figures and 5 tables

Published
2023

184. On the strong Sarkisov program

Author

He, Yang

Subjects
Mathematics - Algebraic Geometry
Abstract

We showed that the strong Sarkisov Program of dimension $d$ can be derived from termination of specific log flips in dimension $\leq d-1$. As a corollary, we show that the strong Sarkisov Program holds in dimension 4. Additionally, we prove the weak Sarkisov program with decreasing (augmented) Sarkisov degree. Finally, using the theory of syzygies of Mori fibre spaces, we obtain a directed diagram that encodes all the information of the strong Sarkisov Program.

Published
2023

185. On syzygies of Mori fibre spaces

Author

He, Yang

Subjects
Mathematics - Algebraic Geometry
Abstract

We introduce homological and homotopical $r$-syzygies of Mori fibre spaces as a generalization of Sarkisov links and relations of Sarkisov links. For any proper morphism $Y/R$, we construct a contractible (if not empty) CW complex such that there is a 1-1 correspondence between its cells and the central models of $Y/R$. We derive from this CW complex a long exact sequence and a spectral sequence converging to the (co)homology of the relative birational automorphism group of $Y/R$. As an application, we compute the second group homology of the second Cremona group.

Published
2023

186. You Only Condense Once: Two Rules for Pruning Condensed Datasets

Author

He, Yang, Xiao, Lingao, and Zhou, Joey Tianyi

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Dataset condensation is a crucial tool for enhancing training efficiency by reducing the size of the training dataset, particularly in on-device scenarios. However, these scenarios have two significant challenges: 1) the varying computational resources available on the devices require a dataset size different from the pre-defined condensed dataset, and 2) the limited computational resources often preclude the possibility of conducting additional condensation processes. We introduce You Only Condense Once (YOCO) to overcome these limitations. On top of one condensed dataset, YOCO produces smaller condensed datasets with two embarrassingly simple dataset pruning rules: Low LBPE Score and Balanced Construction. YOCO offers two key advantages: 1) it can flexibly resize the dataset to fit varying computational constraints, and 2) it eliminates the need for extra condensation processes, which can be computationally prohibitive. Experiments validate our findings on networks including ConvNet, ResNet and DenseNet, and datasets including CIFAR-10, CIFAR-100 and ImageNet. For example, our YOCO surpassed various dataset condensation and dataset pruning methods on CIFAR-10 with ten Images Per Class (IPC), achieving 6.98-8.89% and 6.31-23.92% accuracy gains, respectively. The code is available at: https://github.com/he-y/you-only-condense-once., Comment: Accepted by NeurIPS 2023

Published
2023

187. Temporal Convolutional Explorer Helps Understand 1D-CNN's Learning Behavior in Time Series Classification from Frequency Domain

Author

Zhang, Junru, Feng, Lang, He, Yang, Wu, Yuhan, and Dong, Yabo

Subjects
Computer Science - Machine Learning
Abstract

While one-dimensional convolutional neural networks (1D-CNNs) have been empirically proven effective in time series classification tasks, we find that there remain undesirable outcomes that could arise in their application, motivating us to further investigate and understand their underlying mechanisms. In this work, we propose a Temporal Convolutional Explorer (TCE) to empirically explore the learning behavior of 1D-CNNs from the perspective of the frequency domain. Our TCE analysis highlights that deeper 1D-CNNs tend to distract the focus from the low-frequency components leading to the accuracy degradation phenomenon, and the disturbing convolution is the driving factor. Then, we leverage our findings to the practical application and propose a regulatory framework, which can easily be integrated into existing 1D-CNNs. It aims to rectify the suboptimal learning behavior by enabling the network to selectively bypass the specified disturbing convolutions. Finally, through comprehensive experiments on widely-used UCR, UEA, and UCI benchmarks, we demonstrate that 1) TCE's insight into 1D-CNN's learning behavior; 2) our regulatory framework enables state-of-the-art 1D-CNNs to get improved performances with less consumption of memory and computational overhead., Comment: Accepted as CIKM'23 Long Paper

Published
2023

188. Machine learning Sasakian and $G_2$ topology on contact Calabi-Yau $7$-manifolds

Author

Aggarwal, Daattavya, He, Yang-Hui, Heyes, Elli, Hirst, Edward, Earp, Henrique N. Sá, and Silva, Tomás S. R.

Subjects
Mathematics - Differential Geometry, High Energy Physics - Theory, Mathematics - Algebraic Geometry
Abstract

We propose a machine learning approach to study topological quantities related to the Sasakian and $G_2$-geometries of contact Calabi-Yau $7$-manifolds. Specifically, we compute datasets for certain Sasakian Hodge numbers and for the Crowley-N\"ordstrom invariant of the natural $G_2$-structure of the $7$-dimensional link of a weighted projective Calabi-Yau $3$-fold hypersurface singularity, for 7549 of the 7555 possible $\mathbb{P}^4(\textbf{w})$ projective spaces. These topological quantities are then machine learnt with high performance scores, where learning the Sasakian Hodge numbers from the $\mathbb{P}^4(\textbf{w})$ weights alone, using both neural networks and a symbolic regressor which achieve $R^2$ scores of 0.969 and 0.993 respectively. Additionally, properties of the respective Gr\"obner bases are well-learnt, leading to a vast improvement in computation speeds which may be of independent interest. The data generation and analysis further induced novel conjectures to be raised., Comment: 10 pages; 5 figures; 1 table

Published
2023
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189. Monotone Iterative Technique for the Periodic Solutions of High-Order Delayed Differential Equations in Abstract Spaces

Author

He Yang and Yongxiang Li

Subjects
nth-order ordinary differential equations, delay, ω-periodic solutions, the measure of noncompactness, upper and lower solutions, Mathematics, QA1-939
Abstract

This paper deals with the existence of ω-periodic solutions for nth-order ordinary differential equation involving fixed delay in Banach space E. Lnu(t)=f(t,u(t),u(t−τ)),t∈R, where Lnu(t):=u(n)(t)+∑i=0n−1aiu(i)(t), ai∈R, i=0,1,⋯,n−1, are constants, f(t,x,y):R×E×E⟶E is continuous and ω-periodic with respect to t, τ>0. By applying the approach of upper and lower solutions and the monotone iterative technique, some existence and uniqueness theorems are proved under essential conditions.

Published
2021
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190. Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets

Author

Zhenxing Xing, Gongjin Cheng, Zixian Gao, He Yang, and Xiangxin Xue

Subjects
sea sand ore, vanadia–titania magnetite pellets, compressive strength, reduction swellability, reduction degree, Mining engineering. Metallurgy, TN1-997
Abstract

In the iron and steel industry, improving the usage amount of New Zealand sea sand ore as a raw material for ironmaking can reduce the production costs of iron and steel enterprises to a certain extent. In this paper, New Zealand sea sand ore without any grinding pretreatment was used as a raw material, oxidized pellets were prepared by using a disc pelletizer, and the effect of sea sand ore on the performance of green pellets and the metallurgical properties of oxidized pellets was investigated. The effects of sea sand ore on the compressive strength, falling strength, compressive strength of oxidized pellets, and reduction performance were mainly investigated. X-Ray Diffraction (XRD) patterns and Scanning Electron Microscope (SEM) analysis methods were used to discuss the influence of sea sand ore on the microstructure of the pellets’ oxidation and reduction process. As the amount of sea sand ore used increased, the compressive strength of green pellets was gradually decreased, and the falling strength of green pellets and the compressive strength of oxidized pellets were gradually increased. When the amount of sea sand ore used was 40%, the reduction swelling index of pellets was 16.31%. The increase of sea sand ore used made the reduction of pellets suppressed and the reduction rate decreased. When the amount of sea sand ore used increased to 40%, the reduction degree of sea sand ore pellets was only 60.06%. The experimental results in this paper provide specific experimental data for the large-scale application of New Zealand sea sand ore in the blast furnace ironmaking process.

Published
2021
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