Your search keyword '"Wang Peng"' showing total 75,365 results

101. DeepMill: Neural Accessibility Learning for Subtractive Manufacturing

Author

Zhong, Fanchao, Wang, Yang, Wang, Peng-Shuai, Lu, Lin, and Zhao, Haisen

Subjects

Computer Science - Graphics

Abstract

Manufacturability is vital for product design and production, with accessibility being a key element, especially in subtractive manufacturing. Traditional methods for geometric accessibility analysis are time-consuming and struggle with scalability, while existing deep learning approaches in manufacturability analysis often neglect geometric challenges in accessibility and are limited to specific model types. In this paper, we introduce DeepMill, the first neural framework designed to accurately and efficiently predict inaccessible and occlusion regions under varying machining tool parameters, applicable to both CAD and freeform models. To address the challenges posed by cutter collisions and the lack of extensive training datasets, we construct a cutter-aware dual-head octree-based convolutional neural network (O-CNN) and generate an inaccessible and occlusion regions analysis dataset with a variety of cutter sizes for network training. Experiments demonstrate that DeepMill achieves 94.7% accuracy in predicting inaccessible regions and 88.7% accuracy in identifying occlusion regions, with an average processing time of 0.04 seconds for complex geometries. Based on the outcomes, DeepMill implicitly captures both local and global geometric features, as well as the complex interactions between cutters and intricate 3D models.

Published

2025

102. Understanding Representation Dynamics of Diffusion Models via Low-Dimensional Modeling

Author

Li, Xiao, Zhang, Zekai, Li, Xiang, Chen, Siyi, Zhu, Zhihui, Wang, Peng, and Qu, Qing

Subjects

Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition

Abstract

This work addresses the critical question of why and when diffusion models, despite being designed for generative tasks, can excel at learning high-quality representations in a self-supervised manner. To address this, we develop a mathematical framework based on a low-dimensional data model and posterior estimation, revealing a fundamental trade-off between generation and representation quality near the final stage of image generation. Our analysis explains the unimodal representation dynamics across noise scales, mainly driven by the interplay between data denoising and class specification. Building on these insights, we propose an ensemble method that aggregates features across noise levels, significantly improving both clean performance and robustness under label noise. Extensive experiments on both synthetic and real-world datasets validate our findings., Comment: First two authors contributed equally

Published

2025

103. Demystifying Catastrophic Forgetting in Two-Stage Incremental Object Detector

Author

Wu, Qirui, Zhang, Shizhou, Cheng, De, Xing, Yinghui, Xu, Di, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Catastrophic forgetting is a critical chanllenge for incremental object detection (IOD). Most existing methods treat the detector monolithically, relying on instance replay or knowledge distillation without analyzing component-specific forgetting. Through dissection of Faster R-CNN, we reveal a key insight: Catastrophic forgetting is predominantly localized to the RoI Head classifier, while regressors retain robustness across incremental stages. This finding challenges conventional assumptions, motivating us to develop a framework termed NSGP-RePRE. Regional Prototype Replay (RePRE) mitigates classifier forgetting via replay of two types of prototypes: coarse prototypes represent class-wise semantic centers of RoI features, while fine-grained prototypes model intra-class variations. Null Space Gradient Projection (NSGP) is further introduced to eliminate prototype-feature misalignment by updating the feature extractor in directions orthogonal to subspace of old inputs via gradient projection, aligning RePRE with incremental learning dynamics. Our simple yet effective design allows NSGP-RePRE to achieve state-of-the-art performance on the Pascal VOC and MS COCO datasets under various settings. Our work not only advances IOD methodology but also provide pivotal insights for catastrophic forgetting mitigation in IOD. Code will be available soon., Comment: 14 pages, 7 figures, 9 tables

Published

2025

104. GP-GS: Gaussian Processes for Enhanced Gaussian Splatting

Author

Guo, Zhihao, Su, Jingxuan, Wang, Shenglin, Fan, Jinlong, Zhang, Jing, Han, Liangxiu, and Wang, Peng

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, 68T45

Abstract

3D Gaussian Splatting has emerged as an efficient photorealistic novel view synthesis method. However, its reliance on sparse Structure-from-Motion (SfM) point clouds consistently compromises the scene reconstruction quality. To address these limitations, this paper proposes a novel 3D reconstruction framework Gaussian Processes Gaussian Splatting (GP-GS), where a multi-output Gaussian Process model is developed to achieve adaptive and uncertainty-guided densification of sparse SfM point clouds. Specifically, we propose a dynamic sampling and filtering pipeline that adaptively expands the SfM point clouds by leveraging GP-based predictions to infer new candidate points from the input 2D pixels and depth maps. The pipeline utilizes uncertainty estimates to guide the pruning of high-variance predictions, ensuring geometric consistency and enabling the generation of dense point clouds. The densified point clouds provide high-quality initial 3D Gaussians to enhance reconstruction performance. Extensive experiments conducted on synthetic and real-world datasets across various scales validate the effectiveness and practicality of the proposed framework., Comment: 14 pages,11 figures

Published

2025

105. Improving exponential-family random graph models for bipartite networks

Author

Stivala, Alex, Wang, Peng, and Lomi, Alessandro

Subjects

Statistics - Methodology, Statistics - Applications

Abstract

Bipartite graphs, representing two-mode networks, arise in many research fields. These networks have two disjoint node sets representing distinct entity types, for example persons and groups, with edges representing associations between the two entity types. In bipartite graphs, the smallest possible cycle is a cycle of length four, and hence four-cycles are the smallest structure to model closure in such networks. Exponential-family random graph models (ERGMs) are a widely used model for social, and other, networks, including specifically bipartite networks. Existing ERGM terms to model four-cycles in bipartite networks, however, are relatively rarely used. In this work we demonstrate some problems with these existing terms to model four-cycles, and define new ERGM terms to help overcome these problems. The position of the new terms in the ERGM dependence hierarchy, and their interpretation, is discussed. The new terms are demonstrated in simulation experiments, and their application illustrated with ERGM models of empirical networks ranging in size from hundreds of nodes to hundreds of thousands of nodes., Comment: 54 pages including appendices

Published

2025

106. Mixed State Entanglement Entropy in CFT

Author

Jiang, Xin, Wu, Houwen, Wang, Peng, and Yang, Haitang

Subjects

High Energy Physics - Theory

Abstract

How to calculate the entanglement entropy between two subsystems for a mixed state has remained an important problem. In this paper, we provide a straightforward method, namely the subtraction approach, to solve this problem for generic covariant bipartite mixed states, where time dependence is explicitly included. We further demonstrate that the mixed state entanglement entropy $S_\text{vN}$ can be calculated in a more abstract yet powerful way. Within the context of the AdS$_3$/CFT$_2$ and AdS$_5$/CFT$_4$ correspondences, we show that $S_\text{vN}$ exactly matches the corresponding entanglement wedge cross section in the AdS bulk, respectively., Comment: 17 pages, 8 figures

Published

2025

107. Analyzing the Role of the DSO in Electricity Trading of VPPs via a Stackelberg Game Model

Author

Wang, Peng, Zhang, Xi, and Badesa, Luis

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

The increasing penetration of distributed energy resources (DER) has sparked interest in promoting their participation in the power market. Here we consider a setting in which different virtual power plants (VPPs) with certain flexible resources take part in electricity trading, either by direct participation in the wholesale power market, or interfaced by the Distribution System Operator (DSO). Our goal is to examine the role and influence of the DSO as a stakeholder, for which we formulate a Stackelberg game via a bilevel optimization model: the DSO maximizes profits at the upper level, while VPPs minimize operating costs at the lower level. To solve this problem, we use the Karush-Kuhn-Tucke optimality conditions of the convex lower-level problems to achieve a single-level mixed-integer nonlinear program. The results show that the role of the DSO as an intermediary agent leads to a decrease in operating costs for the VPPs, while guaranteeing a profit for the DSO.

Published

2025

108. Timing and spectral studies of the Be/X-ray binary EXO 2030+375 using Insight-HXMT observations

Author

Du, Yu-Jia, Ducci, Lorenzo, Ji, Long, Bu, Qing-Cui, Kong, Ling-Da, Wang, Peng-Ju, Tuo, Youli, and Santangelo, Andrea

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We report the X-ray spectral and timing analysis of the high mass X-ray binary EXO 2030+375 during the 2021 type-II outburst based on the Insight-HXMT observations. Pulsations can be detected in the energy band of 1-150 keV. The pulse profile shows energy and luminosity dependence and variability. We observed transitions in the pulse profile shape during the rising and the decaying phase of the outburst. The pulse fraction exhibits an anti-correlation with luminosity and a non-monotonic energy dependence, with a possible dip near 30 keV during the outburst peak. The hardness-intensity diagrams (7-10 keV/4-7 keV) suggest state transitions during the early and late phases of the outburst. These transitions are consistent with the luminosity at which the pulse profile shape changes occur, revealing the source reaching the critical luminosity and transitioning between super-critical and sub-critical accretion regimes. We performed the average and phase-resolved spectral analysis, where the flux-resolved average spectra show a stable spectral evolution with luminosity. The phase-resolved spectral analysis reveals that the dependence of spectral parameters on the pulse phase varies with different luminosities.

Published

2025

109. Halo spin and orientation in Interacting Dark Matter Dark Energy Cosmology

Author

Zhao, Guandi, Zhang, Jiajun, Wang, Peng, and Yao, Ji

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

In recent years, the interaction between dark matter (DM) and dark energy has become a topic of interest in cosmology. Interacting dark matter-dark energy (IDE) models have a substantial impact on the formation of cosmological large-scale structures, which serve as the background for DM halo evolution. This impact can be examined through the shape and spin orientation of halos in numerical simulations incorporating IDE effects. In our work, we use the N-body simulation pipeline ME-GADGET to simulate and study the halo spin and orientation in IDE models. We found that in models where DM transfers into DE (IDE I), the alignment of halo shapes with the surrounding tidal field is enhanced, while the alignment of halo spins with the tidal field is decreased compared to {\Lambda}CDM. Conversely, in models where DE transfers into DM (IDE II), the opposite occurs. We have provided fitted functions to describe these alignment signals. Our study provides the foundation for more accurate modeling of observations in the future such as China Space Station Telescope.

Published

2025

110. SceneVTG++: Controllable Multilingual Visual Text Generation in the Wild

Author

Liu, Jiawei, Zhu, Yuanzhi, Gao, Feiyu, Yang, Zhibo, Wang, Peng, Lin, Junyang, Wang, Xinggang, and Liu, Wenyu

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Generating visual text in natural scene images is a challenging task with many unsolved problems. Different from generating text on artificially designed images (such as posters, covers, cartoons, etc.), the text in natural scene images needs to meet the following four key criteria: (1) Fidelity: the generated text should appear as realistic as a photograph and be completely accurate, with no errors in any of the strokes. (2) Reasonability: the text should be generated on reasonable carrier areas (such as boards, signs, walls, etc.), and the generated text content should also be relevant to the scene. (3) Utility: the generated text can facilitate to the training of natural scene OCR (Optical Character Recognition) tasks. (4) Controllability: The attribute of the text (such as font and color) should be controllable as needed. In this paper, we propose a two stage method, SceneVTG++, which simultaneously satisfies the four aspects mentioned above. SceneVTG++ consists of a Text Layout and Content Generator (TLCG) and a Controllable Local Text Diffusion (CLTD). The former utilizes the world knowledge of multi modal large language models to find reasonable text areas and recommend text content according to the nature scene background images, while the latter generates controllable multilingual text based on the diffusion model. Through extensive experiments, we respectively verified the effectiveness of TLCG and CLTD, and demonstrated the state-of-the-art text generation performance of SceneVTG++. In addition, the generated images have superior utility in OCR tasks like text detection and text recognition. Codes and datasets will be available.

Published

2025

111. A New Underdetermined Framework for Sparse Estimation of Fault Location for Transmission Lines Using Limited Current Measurements

Author

Zhang, Guangxiao, Xiao, Gaoxi, Liu, Xinghua, Xu, Yan, and Wang, Peng

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

This letter proposes an alternative underdetermined framework for fault location that utilizes current measurements along with the branch-bus matrix, providing another option besides the traditional voltage-based methods. To enhance fault location accuracy in the presence of multiple outliers, the robust YALL1 algorithm is used to resist outlier interference and accurately recover the sparse vector, thereby pinpointing the fault precisely. The results on the IEEE 39-bus test system demonstrate the effectiveness and robustness of the proposed method.

Published

2025

112. Understanding How Nonlinear Layers Create Linearly Separable Features for Low-Dimensional Data

Author

Xu, Alec S., Yaras, Can, Wang, Peng, and Qu, Qing

Subjects

Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Statistics - Machine Learning

Abstract

Deep neural networks have attained remarkable success across diverse classification tasks. Recent empirical studies have shown that deep networks learn features that are linearly separable across classes. However, these findings often lack rigorous justifications, even under relatively simple settings. In this work, we address this gap by examining the linear separation capabilities of shallow nonlinear networks. Specifically, inspired by the low intrinsic dimensionality of image data, we model inputs as a union of low-dimensional subspaces (UoS) and demonstrate that a single nonlinear layer can transform such data into linearly separable sets. Theoretically, we show that this transformation occurs with high probability when using random weights and quadratic activations. Notably, we prove this can be achieved when the network width scales polynomially with the intrinsic dimension of the data rather than the ambient dimension. Experimental results corroborate these theoretical findings and demonstrate that similar linear separation properties hold in practical scenarios beyond our analytical scope. This work bridges the gap between empirical observations and theoretical understanding of the separation capacity of nonlinear networks, offering deeper insights into model interpretability and generalization., Comment: 32 pages, 9 figures

Published

2025

113. Stable long-term evolution in numerical relativity

Author

Garcia-Saenz, Sebastian, Guo, Guangzhou, Wang, Peng, and Wang, Xinmiao

Subjects

General Relativity and Quantum Cosmology, High Energy Physics - Theory

Abstract

We report on the potential occurrence of a numerical instability in the long-time simulation of black holes using the Baumgarte-Shapiro-Shibata-Nakamura formulation of numerical relativity, even in the simple set-up of a Schwarzschild black hole. Through extensive numerical experiments, we identify that this ``late-time instability'' arises from accumulated violations of the momentum constraint. To address this issue, we propose two modified versions of the so-called conformal covariant Z4 scheme, designed to propagate momentum constraint violations without damping. Our results demonstrate that these alternative formulations, which we refer to as CCZ4' and CCZ3, effectively resolve the late-time numerical instability not only in Schwarzschild spacetimes but also in black hole spacetimes with matter fields. Notably, by preventing damping of the momentum constraint violation, the Hamiltonian constraint damping can be significantly increased, which plays a crucial role in stabilizing long-term evolution in our proposed schemes., Comment: 23 pages

Published

2025

114. Targeted intervention of eIF4A1 inhibits EMT and metastasis of pancreatic cancer cells via c-MYC/miR-9 signaling

Author

Yuchong Zhao, Yun Wang, Wei Chen, Shuya Bai, Wang Peng, Mengli Zheng, Yilei Yang, Bin Cheng, and Zhou Luan

Subjects

Eukaryotic translation initiation factor 4A1, c-MYC, Epithelial-mesenchymal transition, Rocaglamide, Mycro3, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282, Cytology, QH573-671

Abstract

Abstract Background Owing to the lack of effective treatment options, early metastasis remains the major cause of pancreatic ductal adenocarcinoma (PDAC) recurrence and mortality. However, the molecular mechanism of early metastasis is largely unknown. We characterized the function of eukaryotic translation initiation factors (eIFs) in epithelial-mesenchymal-transition (EMT) and metastasis in pancreatic cancer cells to investigate whether eIFs and downstream c-MYC affect EMT and metastasis by joint interference. Methods We used The Cancer Genome Atlas (TCGA) and Genome Tissue Expression (GTEx) databases to analyze eIF4A1 expression in PDAC tissues and further validated the findings with a microarray containing 53 PDAC samples. Expression regulation and pharmacological inhibition of eIF4A1 and c-MYC were performed to determine their role in migration, invasion, and metastasis in pancreatic cancer cells in vitro and in vivo. Results Elevated eIF4A1 expression was positively correlated with lymph node infiltration, tumor size, and indicated a poor prognosis. eIF4A1 decreased E-cadherin expression through the c-MYC/miR-9 axis. Loss of eIF4A1 and c-MYC decreased the EMT and metastasis capabilities of pancreatic cancer cells, whereas upregulation of eIF4A1 attenuated the inhibition of EMT and metastasis induced by c-MYC downregulation. Treatment with the eIF4A1 inhibitor rocaglamide (RocA) or the c-MYC inhibitor Mycro3 either alone or in combination significantly decreased the expression level of EMT markers in pancreatic cancer cells in vitro. However, the efficiency and safety of RocA alone were not inferior to those of the combination treatment in vivo. Conclusion Overexpression of eIF4A1 downregulated E-cadherin expression through the c-MYC/miR-9 axis, which promoted EMT and metastasis of pancreatic cancer cells. Despite the potential feedback loop between eIF4A1 and c-MYC, RocA monotherapy is a promising treatment inhibiting eIF4A1-induced PDAC metastasis.

Published

2021

115. Construction of the hit-deficient mutant strain of Streptococcus mutans ATCC25175

Author

LAI Yangfan, WANG Peng, QIAO Li, LIU Zhongjing, YE Zhaoyang, and LIANG Yan

Subjects

streptococcus mutans ，, hit gene，, pfw5 vector，, natural genetic transformation，, homologous recombination，, hit-deficient mutant strain，, cell growth，, cell-cycle regulation，, Medicine

Abstract

Objective To construct a hit-deficient mutant strain of S. mutans ATCC25175 and verify its cell cycle regulatory function. Method Genomic DNA was extracted from S. mutans ATCC25175 strains, and then the upstream and downstream DNA fragments of the hit gene were cloned into the pFW5 vector (spectinomycin resistant) to construct recombinant plasmids using PCR amplification. Third, employed by natural genetic transformation in S. mutans ATCC25175 strains, the linearized recombinant plasmids were transformed into their genetic competence, induced by the synthesized competence-stimulating peptide (CSP), and then, homologous recombination was utilized to produce crossover and noncrossover products. Fourth, the hit-deficient mutant strains of S. mutans ATCC25175 were screened through the spectinomycin-resistance marker and identified by the electrophoresis of PCR products and PCR Sanger sequencing. Finally, its growth rate in vegetative BHI medium was also investigated. Results The upstream (856 bp) and downstream (519 bp) DNA fragments of the hit gene from the genomic DNA materials of S. mutans ATCC25175 were cloned into two multiple cloning sites (MCS-I and MCS-II) of the pFW5 vector, respectively, and the recombinant plasmid pFW5_hit_Up_Down was constructed and identified by double-emzyme digestion and PCR Sanger sequencing. The linearized recombinant plasmids were transformed into their genetic competence, induced by the synthetic CSP, and then, homologous recombination was utilized to produce various products. The hit-deficient mutant strains of S. mutans ATCC25175 were screened through the spectinomycin resistance marker and identified by the electrophoresis of PCR products and Sanger sequencing. The growth rate of the hit-deficient mutant strains versus their parental S. mutans ATCC25175 strains was increased greatly (P

Published

2021

116. Bayesian network parameter learning algorithm based on improved QMAP

Author

Di Ruohai, Li Ye, Wan Kaifang, Lyu Zhigang, and Wang Peng

Subjects

bayesian network, parameter learning, qualitative maximum a posteriori estimation, parameter constraints, objective optimization, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Small data sets make the statistical information in Bayesian network parameter learning inaccurate, which makes it difficult to get accurate Bayesian network parameters based on data. Qualitative maximum a posteriori estimation (QMAP) is the most accurate algorithm for Bayesian network parameter learning under the condition of small data sets. However, when the number of parameter constraints is large or the parameter feasible region is small, the rejection-acceptance sampling process in QMAP algorithm will become extremely time-consuming. In order to improve the learning efficiency of QMAP algorithm and not affect its learning accuracy as much as possible, a new analytical calculation method of the center point of constrained region is designed to replace the original rejection-acceptance sampling calculation method. Firstly, a new objective function is designed, and a constrained objective optimization problem for solving the boundary points of the constrained region is constructed. Secondly, a new optimization engine is used to solve the objective optimization problem, and the boundary points and center points of the constrained region are obtained. Finally, the existing QMAP algorithm is improved by the obtained center points. The simulation results show that the CMAP algorithm proposed in this paper has a slightly worse parameter learning accuracy than the QMAP algorithm, but its computational efficiency is 2-5 times higher than that of the QMAP algorithm.

Published

2021

117. Experimental research on influence of wave environment on high-speed water entry load and trajectory characteristics

Author

Yang Xiaoguang, Dang Jianjun, Wang Peng, Wang Yadong, Han Yingjun, Chen Cheng, and Li Deying

Subjects

fluid dynamics, high-speed water entry, wave environment, impact load, trajectory characteristics, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Wave environment is a common fact happened when objects enter water under real conditions, which changes the morphology of the free interface when entering water. However, the influence of wave environment on the flow when entering water and on the evolution of object motion parameters after entering water is not clear. In this research, a rocking plate wave maker is used to generate a wave environment in the test pool, and a truncated cone rotating body equipped with an internal test system is used as the test model. The compressed air cannon is used to provide launch power, and the launch control system uniformly controls the start timing process of the wave maker and the launcher. The wave maker and the launcher will control the relative position of the object's entry point and the wave surface in collaboration. Various condition tests were carried out, including enter in static water, different wave surface positions and different wave heights. Quantitative trajectory parameters including the acceleration, and attitude angle of the model in the water-entry process were obtained, and the evolution of the flow field was photographed. The experimental results show that under high-speed conditions, the influence of waves on the water-entry process is mainly reflected in the change of the water entry angle relative to the water surface at the water-entry moment. The wave surface encountering negative inclination can effectively reduce the impact load of water entry, but it is more likely to induce the extreme situation such as "jumping".

Published

2021

118. Manipulation of PD‐L1 Endosomal Trafficking Promotes Anticancer Immunity

Author

Zuodong Ye, Yiding Xiong, Wang Peng, Wenjie Wei, Lihong Huang, Juliana Yue, Chunyuan Zhang, Ge Lin, Feng Huang, Liang Zhang, Songguo Zheng, and Jianbo Yue

Subjects

6J1, anticancer immunity, endocytosis, endosomal trafficking, extracellular vesicle, PD‐L1, Science

Abstract

Abstract The aberrant regulation of PD‐L1 in tumor cells remains poorly understood. Here, the authors systematically investigate the endosomal trafficking of plasma membrane PD‐L1 in tumor cells. They show that plasma membrane PD‐L1 is continuously internalized, and then trafficked from early endosomes to multivesicular bodies/late endosomes, recycling endosomes, lysosomes, and/or extracellular vesicles (EVs). This constitutive endocytic trafficking of PD‐L1 is Rab5‐ and clathrin‐dependent. Triazine compound 6J1 blocks the endosomal trafficking of PD‐L1 and induces its accumulation in endocytic vesicles by activating Rab5. 6J1 also promotes exosomal PD‐L1 secretion by activating Rab27. Together, these effects result in a decrease in the membrane level of PD‐L1 in 6J1‐treated tumor cells and enables tumor cells to be more susceptible to the tumor‐killing activity of T cells in vitro. 6J1 also increases tumor‐infiltrating cytotoxic T cells and promotes chemokines secretion in the tumor microenvironment. Rab27 knockdown abolishes 6J1‐induced PD‐L1 secretion in EVs and revokes the exhausted tumor‐infiltrating T cells in tumors, thereby improving the anticancer efficacy of 6J1. Furthermore, a combination of 6J1 and an anti‐PD‐1 antibody significantly improves the anticancer immune response. Therefore, manipulating PD‐L1 endosomal trafficking provides a promising means to promote an anticancer immune response in addition to the immune checkpoint‐blocking antibody therapy.

Published

2023

119. Low-frequency sound insulation optimisation design of membrane-type acoustic metamaterials based on Kriging surrogate model

Author

Wang Peng, Jie Zhang, Meng Shi, Jiang Li, and Shaoyun Guo

Subjects

Sound insulation, Optimisation design, Membrane, Acoustic metamaterials, Kriging surrogate model, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Low frequency is a difficult problem in noise control. How to design new lightweight materials or structures to achieve low-frequency noise reduction is of utmost importance. This study presents a multi-parameter optimisation design procedure for a specific sound insulation frequency and bandwidth of a lightweight acoustic metamaterial. First, a sound insulation model of membrane-type acoustic metamaterials (MAMs) was established based on the finite element method, and the predicted results are validated with results from previous studies. Subsequently, the bandgap characteristics and generation mechanism of the sound insulation peak are analysed. Second, the influences of both material and structural parameters of the membrane and mass block, on the sound insulation characteristics of the MAMs are systematically investigated. They are discussed by first using a single variable control method and then considering the multi-parameter coupling effect. Finally, a Kriging surrogate model for sound insulation prediction of MAMs is established. Aiming at a specific sound insulation frequency and bandwidth, the multi-parameter optimisation design of the MAMs is performed. According to the results, during multi-parameter coupling, the influence law of a single variable on the sound insulation peak of MAMs is unchanged; however, the influence magnitude differs. The Kriging surrogate model can effectively design acoustic metamaterials with a specific sound insulation frequency and bandwidth.

Published

2023

120. Dual Diffusion for Unified Image Generation and Understanding

Author

Li, Zijie, Li, Henry, Shi, Yichun, Farimani, Amir Barati, Kluger, Yuval, Yang, Linjie, and Wang, Peng

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

Diffusion models have gained tremendous success in text-to-image generation, yet still lag behind with visual understanding tasks, an area dominated by autoregressive vision-language models. We propose a large-scale and fully end-to-end diffusion model for multi-modal understanding and generation that significantly improves on existing diffusion-based multimodal models, and is the first of its kind to support the full suite of vision-language modeling capabilities. Inspired by the multimodal diffusion transformer (MM-DiT) and recent advances in discrete diffusion language modeling, we leverage a cross-modal maximum likelihood estimation framework that simultaneously trains the conditional likelihoods of both images and text jointly under a single loss function, which is back-propagated through both branches of the diffusion transformer. The resulting model is highly flexible and capable of a wide range of tasks including image generation, captioning, and visual question answering. Our model attained competitive performance compared to recent unified image understanding and generation models, demonstrating the potential of multimodal diffusion modeling as a promising alternative to autoregressive next-token prediction models.

Published

2024

121. Observation of localization of light in photonic quasicrystals of diverse symmetries

Author

Wang, Peng, Fu, Qidong, Konotop, Vladimir V., Kartashov, Yaroslav V., and Ye, Fangwei

Subjects

Physics - Optics

Abstract

Quasicrystals are ubiquitous in nature. Beyond crystalline solids, they can be created as optically induced or technologically fabricated structures in photonic and phononic systems, as potentials for cold atoms and Bose-Einstein condensates (BECs). On a parwith the unusual structural properties of quasicrystals, nowadays the problem of wave propagation in such two-dimensional structures attracts considerable attention, already in earlier studies it was predicted that the lowest electronic states in five-fold quasicrystals are localized. Later on localization of BECs in an eight-fold rotational symmetric quasicrystal optical lattices was observed. Direct observation of localization in purely linear photonic quasicrystals, therefore, remains elusive. Here, using sets of interfering plane waves, we create photonic two-dimensional quasicrystals with different rotational symmetries, not allowed in periodic crystallographic structures. We demonstrate experimentally that linear localization of light does occur even in clean linear quasicrystals for probe beams propagating both in the center and off-center regions of the quasicrystals. We found that light localization occurs above a critical depth of optically induced potential and that this critical depth rapidly decreases with the increase of the order of the discrete rotational symmetry of the quasicrystal. Our results clarify a long-standing problem of wave localization in linear quasicrystals and elucidate the conditions under which this phenomenon occurs. These findings pave the way for achieving wave localization in a wide variety of aperiodic systems obeying discrete symmetries, with possible applications in photonics, atomic physics, acoustics, and condensed matter., Comment: 21 pages, 8 figures

Published

2024

122. Observation of Thouless pumping of light in quasiperiodic photonic crystals

Author

Yang, Kai, Fu, Qidong, Prates, Henrique C., Wang, Peng, Kartashov, Yaroslav V., Konotop, Vladimir V., and Ye, Fangwei

Subjects

Physics - Optics

Abstract

Topological transport is determined by global properties of physical media where it occurs and is characterized by quantized amounts of adiabatically transported quantities. Discovered for periodic potentials it was also explored in disordered and discrete quasi-periodic systems. Here we report on experimental observation of pumping of a light beam in a genuinely continuous incommensurate photorefractive quasi-crystal emulated by its periodic approximants. We observe a universal character of the transport which is determined by the ratio between periods of the constitutive sublattices, by the sliding angle between them, and by Chern numbers of the excited bands (in the time-coordinate space) of the approximant, for which pumping is adiabatic. This reveals that the properties of quasi-periodic systems determining the topological transport are tightly related to those of their periodic approximants and can be observed and studied in a large variety of physical systems. Our results suggest that the links between quasi periodic systems and their periodic approximants go beyond the pure mathematical relations: they manifest themselves in physical phenomena which can be explored experimentally.

Published

2024

123. LiveIdeaBench: Evaluating LLMs' Scientific Creativity and Idea Generation with Minimal Context

Author

Ruan, Kai, Wang, Xuan, Hong, Jixiang, Wang, Peng, Liu, Yang, and Sun, Hao

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

While Large Language Models (LLMs) have demonstrated remarkable capabilities in scientific tasks, existing evaluation frameworks primarily assess their performance using rich contextual inputs, overlooking their ability to generate novel ideas from minimal information. We introduce LiveIdeaBench, a comprehensive benchmark that evaluates LLMs' scientific creativity and divergent thinking capabilities using single-keyword prompts. Drawing from Guilford's creativity theory, our framework employs a dynamic panel of state-of-the-art LLMs to assess generated ideas across four key dimensions: originality, feasibility, fluency, and flexibility. Through extensive experimentation with 20 leading models across 1,180 keywords spanning 18 scientific domains, we reveal that scientific creative ability shows distinct patterns from general intelligence metrics. Notably, our results demonstrate that models like QwQ-32B-preview achieve comparable creative performance to top-tier models like o1-preview, despite significant gaps in their general intelligence scores. These findings highlight the importance of specialized evaluation frameworks for scientific creativity and suggest that the development of creative capabilities in LLMs may follow different trajectories than traditional problem-solving abilities., Comment: Updated author list, Corrected some issues and ref

Published

2024

124. TL-Training: A Task-Feature-Based Framework for Training Large Language Models in Tool Use

Author

Ye, Junjie, Wu, Yilong, Li, Sixian, Yang, Yuming, Gui, Tao, Zhang, Qi, Huang, Xuanjing, Wang, Peng, Shi, Zhongchao, Fan, Jianping, and Du, Zhengyin

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence

Abstract

Large language models (LLMs) achieve remarkable advancements by leveraging tools to interact with external environments, a critical step toward generalized AI. However, the standard supervised fine-tuning (SFT) approach, which relies on large-scale datasets, often overlooks task-specific characteristics in tool use, leading to performance bottlenecks. To address this issue, we analyze three existing LLMs and uncover key insights: training data can inadvertently impede tool-use behavior, token importance is distributed unevenly, and errors in tool calls fall into a small set of distinct categories. Building on these findings, we propose TL-Training, a task-feature-based framework that mitigates the effects of suboptimal training data, dynamically adjusts token weights to prioritize key tokens during SFT, and incorporates a robust reward mechanism tailored to error categories, optimized through proximal policy optimization. We validate TL-Training by training CodeLLaMA-2-7B and evaluating it on four diverse open-source test sets. Our results demonstrate that the LLM trained by our method matches or surpasses both open- and closed-source LLMs in tool-use performance using only 1,217 training data points. Additionally, our method enhances robustness in noisy environments and improves general task performance, offering a scalable and efficient paradigm for tool-use training in LLMs. The code and data are available at https://github.com/Junjie-Ye/TL-Training.

Published

2024

125. Gauss maps of M\'obius surfaces in the $n$-dimensional sphere

Author

Brander, David, Kobayashi, Shimpei, and Wang, Peng

Subjects

Mathematics - Differential Geometry, Primary~53A31, 53C43, Secondary~58E20, 53C35

Abstract

In this note we discuss Gauss maps for M\"obius surfaces in the $n$-sphere, and their applications in the study of Willmore surfaces. One such ``Gauss map'', naturally associated to a Willmore surface that has a dual Willmore surface, is the Lorentzian $2$-plane bundle given by a lift of the suface and its dual. More generally, we define the concept of a Lorentzian $2$-plane lift for an arbitrary M\"obius surface, and show that the conformal harmonicity of this lift is equivalent to the Willmore condition for the surface. This clarifies some previous work of F. H\'elein, Q. Xia-Y Shen, X. Ma and others, and, for instance, allows for the treatment of the Bj\"orling problem for Willmore surfaces in the presence of umbilics., Comment: 13 pages

Published

2024

126. DumpyOS: A Data-Adaptive Multi-ary Index for Scalable Data Series Similarity Search

Author

Wang, Zeyu, Wang, Qitong, Wang, Peng, Palpanas, Themis, and Wang, Wei

Subjects

Computer Science - Databases

Abstract

Data series indexes are necessary for managing and analyzing the increasing amounts of data series collections that are nowadays available. These indexes support both exact and approximate similarity search, with approximate search providing high-quality results within milliseconds, which makes it very attractive for certain modern applications. Reducing the pre-processing (i.e., index building) time and improving the accuracy of search results are two major challenges. DSTree and the iSAX index family are state-of-the-art solutions for this problem. However, DSTree suffers from long index building times, while iSAX suffers from low search accuracy. In this paper, we identify two problems of the iSAX index family that adversely affect the overall performance. First, we observe the presence of a proximity-compactness trade-off related to the index structure design (i.e., the node fanout degree), significantly limiting the efficiency and accuracy of the resulting index. Second, a skewed data distribution will negatively affect the performance of iSAX. To overcome these problems, we propose Dumpy, an index that employs a novel multi-ary data structure with an adaptive node splitting algorithm and an efficient building workflow. Furthermore, we devise Dumpy-Fuzzy as a variant of Dumpy which further improves search accuracy by proper duplication of series. To fully leverage the potential of modern hardware including multicore CPUs and Solid State Drives (SSDs), we parallelize Dumpy to DumpyOS with sophisticated indexing and pruning-based querying algorithms. An optimized approximate search algorithm, DumpyOS-F which prominently improves the search accuracy without violating the index, is also proposed., Comment: arXiv admin note: substantial text overlap with arXiv:2304.08264

Published

2024

127. Reconfigurable Intelligent Surface for Internet of Robotic Things

Author

Ni, Wanli, Luo, Ruyu, Zhang, Xinran, Wang, Peng, Wang, Wen, and Tian, Hui

Subjects

Computer Science - Robotics, Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing

Abstract

With the rapid development of artificial intelligence, robotics, and Internet of Things, multi-robot systems are progressively acquiring human-like environmental perception and understanding capabilities, empowering them to complete complex tasks through autonomous decision-making and interaction. However, the Internet of Robotic Things (IoRT) faces significant challenges in terms of spectrum resources, sensing accuracy, communication latency, and energy supply. To address these issues, a reconfigurable intelligent surface (RIS)-aided IoRT network is proposed to enhance the overall performance of robotic communication, sensing, computation, and energy harvesting. In the case studies, by jointly optimizing parameters such as transceiver beamforming, robot trajectories, and RIS coefficients, solutions based on multi-agent deep reinforcement learning and multi-objective optimization are proposed to solve problems such as beamforming design, path planning, target sensing, and data aggregation. Numerical results are provided to demonstrate the effectiveness of proposed solutions in improve communication quality, sensing accuracy, computation error, and energy efficiency of RIS-aided IoRT networks., Comment: 9 pages, 4 figures

Published

2024

128. Explaining and Mitigating the Modality Gap in Contrastive Multimodal Learning

Author

Yaras, Can, Chen, Siyi, Wang, Peng, and Qu, Qing

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition

Abstract

Multimodal learning has recently gained significant popularity, demonstrating impressive performance across various zero-shot classification tasks and a range of perceptive and generative applications. Models such as Contrastive Language-Image Pretraining (CLIP) are designed to bridge different modalities, such as images and text, by learning a shared representation space through contrastive learning. Despite their success, the working mechanisms underlying multimodal learning are not yet well understood. Notably, these models often exhibit a modality gap, where different modalities occupy distinct regions within the shared representation space. In this work, we conduct an in-depth analysis of the emergence of modality gap by characterizing the gradient flow learning dynamics. Specifically, we identify the critical roles of mismatched data pairs and a learnable temperature parameter in causing and perpetuating the modality gap during training. Furthermore, our theoretical insights are validated through experiments on practical CLIP models. These findings provide principled guidance for mitigating the modality gap, including strategies such as appropriate temperature scheduling and modality swapping. Additionally, we demonstrate that closing the modality gap leads to improved performance on tasks such as image-text retrieval., Comment: The first two authors contributed equally to this work

Published

2024

129. Pruning All-Rounder: Rethinking and Improving Inference Efficiency for Large Vision Language Models

Author

Suo, Wei, Ma, Ji, Sun, Mengyang, Wu, Lin Yuanbo, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Although Large Vision-Language Models (LVLMs) have achieved impressive results, their high computational cost poses a significant barrier to wider application. To enhance inference efficiency, most existing approaches depend on parameter-dependent or token-dependent strategies to reduce computational demands. However, these methods typically require complex training processes and struggle to consistently select the most relevant tokens. In this paper, we systematically analyze the above challenges and provide a series of valuable insights for inference acceleration. Based on these findings, we propose a novel framework, the Pruning All-Rounder (PAR). Different from previous works, PAR develops a meta-router to adaptively organize pruning flows across both tokens and layers. With a self-supervised learning manner, our method achieves a superior balance between performance and efficiency. Notably, PAR is highly flexible, offering multiple pruning versions to address a range of pruning scenarios. The code for this work will be made publicly available.

Published

2024

130. Charge state transition of spectrally stabilized tin-vacancy centers in diamond

Author

Ikeda, Keita, Chen, Yiyang, Wang, Peng, Miyamoto, Yoshiyuki, Taniguchi, Takashi, Onoda, Shinobu, Hatano, Mutsuko, and Iwasaki, Takayuki

Subjects

Quantum Physics

Abstract

Solid-state quantum emitters are an important platform for quantum information processing. The fabrication of the emitters with stable photon frequency and narrow linewidth is a fundamental issue, and it is essential to understand optical conditions under which the emitter keeps a bright charge state or transitions to a dark state. For these purposes, in this study, we investigate the spectral stability and charge state transition of tin-vacancy (SnV) centers in diamond. The photoluminescence excitation spectra of multiple SnV centers are basically stable over time with nearly transform-limited linewidths under resonant excitation, while simultaneous irradiation of resonant and non-resonant lasers makes spectra from the SnV centers unstable. We find that the instability occurs due to the charge state transition to a dark state. The charge state transition rates are quantitatively investigated depending on the laser powers. Lastly, with first-principle calculations, we model the charge state transition of the SnV center under the laser irradiation.

Published

2024

131. Building a Family of Data Augmentation Models for Low-cost LLM Fine-tuning on the Cloud

Author

Yue, Yuanhao, Wang, Chengyu, Huang, Jun, and Wang, Peng

Subjects

Computer Science - Computation and Language

Abstract

Specializing LLMs in various domain-specific tasks has emerged as a critical step towards achieving high performance. However, the construction and annotation of datasets in specific domains are always very costly. Apart from using superior and expensive closed-source LLM APIs to construct datasets, some open-source models have become strong enough to handle dataset construction in many scenarios. Thus, we present a family of data augmentation models designed to significantly improve the efficiency for model fine-tuning. These models, trained based on sufficiently small LLMs, support key functionalities with low inference costs: instruction expansion, instruction refinement, and instruction-response pair expansion. To fulfill this goal, we first construct an automatic data collection system with seed datasets generated from both public repositories and our in-house datasets. This system leverages powerful LLMs to expand, refine and re-write the instructions and responses, incorporating quality assessment techniques. Following this, we introduce the training process of our models, which effectively distills task-solving and text synthesis abilities from teacher LLMs. Finally, we demonstrate how we integrate these functionalities into a machine learning platform to support low-cost LLM fine-tuning from both dataset preparation and training perspectives for users. Experiments and an application study prove the effectiveness of our approach., Comment: coling 2025 industry track

Published

2024

132. Sustainable Self-evolution Adversarial Training

Author

Wang, Wenxuan, Wang, Chenglei, Qi, Huihui, Ye, Menghao, Qian, Xuelin, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence

Abstract

With the wide application of deep neural network models in various computer vision tasks, there has been a proliferation of adversarial example generation strategies aimed at deeply exploring model security. However, existing adversarial training defense models, which rely on single or limited types of attacks under a one-time learning process, struggle to adapt to the dynamic and evolving nature of attack methods. Therefore, to achieve defense performance improvements for models in long-term applications, we propose a novel Sustainable Self-Evolution Adversarial Training (SSEAT) framework. Specifically, we introduce a continual adversarial defense pipeline to realize learning from various kinds of adversarial examples across multiple stages. Additionally, to address the issue of model catastrophic forgetting caused by continual learning from ongoing novel attacks, we propose an adversarial data replay module to better select more diverse and key relearning data. Furthermore, we design a consistency regularization strategy to encourage current defense models to learn more from previously trained ones, guiding them to retain more past knowledge and maintain accuracy on clean samples. Extensive experiments have been conducted to verify the efficacy of the proposed SSEAT defense method, which demonstrates superior defense performance and classification accuracy compared to competitors., Comment: Accepted to ACMMM 2024

Published

2024

133. CC-OCR: A Comprehensive and Challenging OCR Benchmark for Evaluating Large Multimodal Models in Literacy

Author

Yang, Zhibo, Tang, Jun, Li, Zhaohai, Wang, Pengfei, Wan, Jianqiang, Zhong, Humen, Liu, Xuejing, Yang, Mingkun, Wang, Peng, Bai, Shuai, Jin, LianWen, and Lin, Junyang

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Large Multimodal Models (LMMs) have demonstrated impressive performance in recognizing document images with natural language instructions. However, it remains unclear to what extent capabilities in literacy with rich structure and fine-grained visual challenges. The current landscape lacks a comprehensive benchmark to effectively measure the literate capabilities of LMMs. Existing benchmarks are often limited by narrow scenarios and specified tasks. To this end, we introduce CC-OCR, a comprehensive benchmark that possesses a diverse range of scenarios, tasks, and challenges. CC-OCR comprises four OCR-centric tracks: multi-scene text reading, multilingual text reading, document parsing, and key information extraction. It includes 39 subsets with 7,058 full annotated images, of which 41% are sourced from real applications, and released for the first time. We evaluate nine prominent LMMs and reveal both the strengths and weaknesses of these models, particularly in text grounding, multi-orientation, and hallucination of repetition. CC-OCR aims to comprehensively evaluate the capabilities of LMMs on OCR-centered tasks, facilitating continued progress in this crucial area., Comment: 23 pages, 14 figures; The code will be released soon

Published

2024

134. Multi-Functional RIS Integrated Sensing and Communications for 6G Networks

Author

Han, Dongsheng, Wang, Peng, Ni, Wanli, Wang, Wen, Zheng, Ailing, Niyato, Dusit, and Al-Dhahir, Naofal

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

In this paper, we propose a novel multi-functional reconfigurable intelligent surface (MF-RIS) that supports signal reflection, refraction, amplification, and target sensing simultaneously. Our MF-RIS aims to enhance integrated communication and sensing (ISAC) systems, particularly in multi-user and multi-target scenarios. Equipped with reflection and refraction components (i.e., amplifiers and phase shifters), MF-RIS is able to adjust the amplitude and phase shift of both communication and sensing signals on demand. Additionally, with the assistance of sensing elements, MF-RIS is capable of capturing the echo signals from multiple targets, thereby mitigating the signal attenuation typically associated with multi-hop links. We propose a MF-RIS-enabled multi-user and multi-target ISAC system, and formulate an optimization problem to maximize the signal-to-interference-plus-noise ratio (SINR) of sensing targets. This problem involves jointly optimizing the transmit beamforming and MF-RIS configurations, subject to constraints on the communication rate, total power budget, and MF-RIS coefficients. We decompose the formulated non-convex problem into three sub-problems, and then solve them via an efficient iterative algorithm. Simulation results demonstrate that: 1) The performance of MF-RIS varies under different operating protocols, and energy splitting (ES) exhibits the best performance in the considered MF-RIS-enabled multi-user multi-target ISAC system; 2) Under the same total power budget, the proposed MF-RIS with ES protocol attains 52.2%, 73.5% and 60.86% sensing SINR gains over active RIS, passive RIS, and simultaneously transmitting and reflecting RIS (STAR-RIS), respectively; 3) The number of sensing elements will no longer improve sensing performance after exceeding a certain number.

Published

2024

135. Neural Network-Based Frequency Optimization for Superconducting Quantum Chips

Author

Lu, Bin-Han, Wang, Peng, Li, Qing-Song, Wu, Yu-Chun, Chen, Zhao-Yun, and Guo, Guo-Ping

Subjects

Quantum Physics

Abstract

Optimizing the frequency configuration of qubits and quantum gates in superconducting quantum chips presents a complex NP-complete optimization challenge. This process is critical for enabling practical control while minimizing decoherence and suppressing significant crosstalk. In this paper, we propose a neural network-based frequency configuration approach. A trained neural network model estimates frequency configuration errors, and an intermediate optimization strategy identifies optimal configurations within localized regions of the chip. The effectiveness of our method is validated through randomized benchmarking and cross-entropy benchmarking. Furthermore, we design a crosstalk-aware hardware-efficient ansatz for variational quantum eigensolvers, achieving improved energy computations.

Published

2024

136. Research progress and key technologies of intelligent coal-gangue sorting robot

Author

ZHANG Ye, MA Hongwei, WANG Peng, CAO Xiangang, WEI Xiaorong, and ZHOU Wenjian

Subjects

coal-gangue sorting, sorting robot, coal-gangue recognition, robot trajectory planning, intelligent collaborative sorting, stable grasp, Mining engineering. Metallurgy, TN1-997

Abstract

The gangue is wrapped by slurry in underground coal mine, which causes difficult coal-gangue recognition and sorting. The underground working space is narrow, so the equipment layout is difficult, and the diversion of coal-gangue is difficult. Therefore, developing a high-performance, highly reliable intelligent coal-gangue sorting robot is necessary. The paper analyzes the research status of coal-gangue recognition, robot trajectory plan and multi-dynamic-target multi-robot collaborative control technology of intelligent coal-gangue sorting robot. This paper points out that the coal-gangue sorting work environment is complex, and its weight and shape of coal-gangue are irregular and randomly distributed. Therefore, the three key technologies for intelligent coal-gangue sorting robot are recognition and grasping features extraction of coal-gangue in complex environment, stable and reliable grasping of coal-gangue in unstructured environment, and intelligent collaborative sorting of multi-target multi-robot. It is proposed that in order to realize the intelligent sorting of coal-gangue by the robot, further research should be carried out. The research includes the methods of coal-gangue recognition and sorting feature extraction suitable for underground, accurate positioning and synchronous tracking of dynamic targets, online trajectory planning of mechanical arms, and intelligent collaborative control of multiple mechanical arms. By soring out the above three key technologies, it can be concluded as follows. The construction and expansion of coal-gangue data set, recognition and grasping features extraction of coal-gangue are the key technologies to achieve efficient coal-gangue recognition. Precise tracking of dynamic coal-gangue, trajectory planning of synchronous tracking dynamic target of mechanical arm and fast and stable grasping of large quality targets are the key technologies to realize stable coal-gangue grasping by mechanical arms. Multi-task efficient allocation, anti-collision path planning and intelligent collaborative control are the key technologies to achieve efficient intelligent collaborative sorting of multiple mechanical arms. According to the common problems at present, this paper puts forward the solutions. In the aspect of recognition, the method of coal-gangue recognition and grasping feature extraction based on multi-mode deep learning is studied to realize fast coal-gangue recognition suitable for the underground. In the aspect of trajectory planning, the precise positioning and real-time tracking methods of dynamic coal-gangue are studied to realize the adaptive and stable grasping of dynamic coal-gangue by the robot. In the aspect of collaborative sorting, a multi-layer multiple mechanical arms collaborative control model is built to achieve efficient intelligent collaborative sorting of multiple mechanical arms in the complex environment.

Published

2022

137. Gelation behavior and microstructure of ThxZr1-xO2 inert matrix fuel prepared by an external gelation process

Author

HUANG He, WANG Peng, YAN Chao, YU Xiaohe, CAO Changqing, LIN Jun, and ZHU Zhiyong

Subjects

thorium-based, inert matrix fuel, gelation behavior, microstructure, external gelation process, mixed-oxide fuel, Nuclear engineering. Atomic power, TK9001-9401

Abstract

BackgroundInert matrix fuel (IMF) can efficiently convert plutonium and long-lived minor actinides used for preventing the proliferation of nuclear weapons and improving spent fuel disposal, hence has been becoming a hot research topic in recent years. The sol-gel method has the advantage of uniform elemental distribution of the products and the wet operation process is less likely to produce radioactive dust, therefore, it has been used to prepare zirconium-based IMF in the research.PurposeThis study aims to prepare a colloidal solution with good dispersive properties and to obtain IMF microspheres with good sphericity, uniform size, and homogeneous elemental distribution.MethodsFirst of all, ThxZr1-xO2 inert matrix fuel was prepared by an external gelation process, and the sol-gel viscosity was used as the main gelation index. Then, the variation tendency of sol viscosity with c(NH4+)/c(NO3-) was investigated for different metal ions concentrations and different temperatures. Finally, the statistical distributions of colloidal particle sizes were obtained for different metal ions and reaction temperatures by laser particle sizing tests, and the X-ray diffraction (XRD) was used to study the structure of IMF after heat treatment at different temperatures.ResultsThe results showed that the complex gelation parameters and properties can be categorized and quantified using gelation field diagrams. In addition, ThxZr1-xO2 IMF kernels with uniform element distribution, good sphericity, and integral appearance were obtained by optimizing the process parameters. Zirconia showed low solubility behavior in the thorium-oxide system, leading to the generation of a biphasic structure.ConclusionsThe results of this study indicate that zirconium-based spherical IMF microspheres with good performance can be prepared by external gelation method.

Published

2023

138. Serotypes and drug resistance characteristics of Salmonella isolated from diarrheal patients in Anhui Province, 2015-2020

Author

ZHANG Zhuhui, CHEN Qingqing, SA Nan, MA Tai, WANG Meng, WU Xiaomin, WANG Peng, HAN Haihong, and SUN Yong

Subjects

salmonella, serotype, drug resistance, diarrheal, Food processing and manufacture, TP368-456, Nutrition. Foods and food supply, TX341-641

Abstract

ObjectiveThe present study was undertaken to identify the serotypes and drug resistance profiles of Salmonella recovered from diarrheal patients in Anhui Province, and provide evidence for the diagnosis and treatment of foodborne diseases caused by Salmonella.MethodsFrom 2015 to 2020, 980 Salmonella were collected from 16 Centers for Disease Control and Prevention in Anhui Province. The strains were serotyped, and the drug susceptibility profile was studied by micro-broth dilution method.ResultsNine hundred and eighty Salmonella included 82 serotypes with a predominance of Salmonella enteritidis 31.43% (308/980), Salmonella typhimurium 26.22% (257/980), Salmonella agona 7.35% (72/980), Salmonella thompson 6.63% (65/980) and Salmonella london 3.37% (33/980). The highest resistance were ampicillin (AMP), nalidixin (NAL), tetracycline (TET) and ampicillin/sulbactam (AMS), which were 62.35%, 47.96%, 47.86%, 43.16%, respectively. The resistance rates to AMP, AMS, NAL, cefoxitin (CFX), and azithromycin (AZM) showed a significant upward trend (P

Published

2021

139. The crystal structure of (Z)-2-(4-(4-bromophenyl)thiazol-2-yl)-4-(3-hydroxybut-2-enoyl)-5-methyl -1,2-dihydro-3H-pyrazol-3-one – methanol (1/1), C18H18N3O4S

Author

Feng Yunqian, Ye Jianghai, Wang Peng, Tai Shuqiong, and Lang Tianqiong

Subjects

2115704, Physics, QC1-999, Crystallography, QD901-999

Abstract

C18H18N3O4S, monoclinic, Cc (no. 9), a = 10.8839(14) Å, b = 14.2825(18) Å, c = 13.0717(16) Å, β = 108.618(3)°, V = 1925.6(4) Å3, Z = 4, Rgt(F) = 0.0359, wRref(F2) = 0.0812, Flack parameter = 0.009(6), T = 298(2) K.

Published

2022

140. A flexible and stretchable photonic crystal sensor for biosensing and tactile sensing

Author

Wang Peng, Bing Huang, Xuanxuan Huang, Han Song, and Qingxi Liao

Subjects

Flexible and stretchable photonic crystal, Tactile sensing, Biosensing, Nanoreplica molding, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Biosensing and tactile sensing are considered to be essential functions for intelligent diagnostic medical robot. In this paper, biosensing and tactile sensing had been demonstrated with a single photonic crystal structure. The flexible and stretchable photonic crystal structure consists of PDMS as the flexible substrate and TiO2 as the guided layer, and the nanograting structure was realized by nanoreplica molding. For biosensing experiment, a sensitivity of 93 nm/RIU is verified with ambient environment RI variance simulation results. For tactile sensing experiment, the highest resolution for strain sensing is 0.1%, and the minimum detected scale of the grating period variation is 0.1 nm. The TiO2/PDMS structure based flexible and stretchable photonic crystal sensor demonstrates highly sensitivity and potentially cost effective for biosensing and tactile sensing, and it is promising in the area of intelligent diagnostic medical robot.

Published

2022

141. The effect of hydrological regimes on the concentrations of nonstructural carbohydrates and organic acids in the roots of Salix matsudana in the Three Gorges Reservoir, China

Author

Qi Yuancai, Muhammad Arif, Zhi Dong, Wang Ting, Yang Qin, Pu Bo, Wang Peng, and Hong Wei

Subjects

Hydro-fluctuation zone, Winter submergence, Woody plants, Plant growth, Plant survival, Water level, Ecology, QH540-549.5

Abstract

Hydrological fluctuations accelerate biodiversity loss and damage riparian ecosystems surrounding dams and reservoirs. Restoration of vegetation is urgently required in such highly impacted buffer zones. However, it is not known how the nonstructural carbohydrate (NSC) and organic acid concentrations of prominent woody plants such as Salix matsudana would alter under the hydrological regime described in the literature. The study aims to investigate the tap and lateral roots of S. matsudana in the Three Gorges Reservoir, as well as the NSC and organic acid metabolism of these roots. Three groups of two-year-old S. matsudana saplings were planted in this experiment: control (SS), moderate submergence (MS), and deep submergence (DS) at altitudes of 175 m, 170 m, and 165 m, respectively. The results indicated that hydrological regimes restrained the height of S. matsudana with less impact on diameter at P tartaric acid > oxalic acid. The tartaric acid content of the lateral roots and the total roots was significantly higher in MS than in SS1. Conversely, the oxalic acid and malic acid levels in tap roots, lateral roots, and total roots were higher in DS than in SS2. There were strong Pearson's correlations between root starch and NSC with tartaric and malic acids; these correlations ranged from −0.898

Published

2022

142. 5G IoT-based geohazard monitoring and early warning system and its application

Author

Zhaohua Li, Linquan Fang, Xiaokun Sun, and Wang Peng

Subjects

Geological disasters, 5G communication, IoT, Monitoring and early warning, GNSS, Telecommunication, TK5101-6720, Electronics, TK7800-8360

Abstract

Abstract With the expansion of human production activities, geological disasters caused by slope instability are occurring more frequently. Hence, the research on effective monitoring and forecasting of the geotechnical stability of slopes is of great significance for the prevention and mitigation of slope geological disasters. In this study, a landslide monitoring and early warning system based on 5G Internet of Things (IoT) technology is introduced. The system monitors important indicators such as three-dimensional surface displacement, rainfall, and ground cracks using Global Navigation Satellite System equipment and various IoT sensors deployed on site. The key monitoring data are transmitted and displayed by 5G communication and advanced data visualization technologies. An early warning guideline is established by combining the surface deformation rate–time curve according to a four-level early warning method as well as embedded vector maps such as the topographic and geomorphological remote sensing map of the monitoring area, the geological section map, and the monitoring point distribution map. The system has the functions of accurate acquisition, rapid transmission, automatic search, and comprehensive analysis and is applied to the study of creep slopes of the Lianhe terraces in Youxi County, Fujian Province, with remarkable results.

Published

2021

143. Combined prognostic nutritional index and albumin-bilirubin grade to predict the postoperative prognosis of HBV-associated hepatocellular carcinoma patients

Author

Xie Liang, Xu Liangliang, Wang Peng, Yan Tao, Zhang Jinfu, Zhang Ming, and Xu Mingqing

Subjects

Medicine, Science

Abstract

Abstract This study aims to evaluate the predictive value of the prognostic nutritional index (PNI) and albumin-bilirubin grade (ALBI) for the postoperative prognosis of hepatitis B virus-associated hepatocellular carcinoma (HBV-HCC) patients undergoing radical hepatectomy (RH). Besides, we seek to identify novel prognosis indicators for HBV-HCC patients. Between April 2009 and March 2015, this work enrolled 868 patients diagnosed with HBV-HCC and undergoing RH in the Liver Surgery Department, West China Hospital, Sichuan University (WCHSU). The basic information, laboratory examination indicators, pathological reports, and follow-up data of patients were included. SPSS 22.0 statistical software was used for statistical data analyses. Platelet (PLT), alpha-fetoprotein (AFP), maximum diameter (max-D), number of tumors (Number), degree of differentiation (DD), Microvascular invasion situation (MVI), satellite focus situation (SF), PNI, and ALBI were the independent risk factors for both overall survival (OS) and disease-free survival (DFS) of HBV-HCC patients undergoing RH. Taking PNI = 46 and ALBI = − 2.80 as cut-off values, the OS and DFS of the PNI-high group were significantly higher than those of the PNI-low group. Meanwhile, the OS and DFS of the ALBI-low group were significantly higher than those of the ALBI-high group; the OS and DFS of the PNI-high + ALBI-low group were significantly higher than those of the PNI-low + ALBI-high group. Xie prognostic index (XPI) was the independent risk factor for both OS and DFS of HBV-HCC patients undergoing RH. The OS and DFS of the XPI-high group were significantly higher than those of the XPI-low group. This paper reveals that preoperative PNI and ALBI can predict the OS and DFS of HBV-HCC patients undergoing RH. Their impact on the prognosis of HBV-HCC patients is insignificant, however, it cannot be ignored. XPI can precisely predict the prognosis of HBV-HCC patients undergoing RH, nonetheless, its effect requires additional research for validation.

Published

2021

144. In silico analysis of glycosyltransferase 2 family genes in duckweed (Spirodela polyrhiza) and its role in salt stress tolerance

Author

Jiang Mingliang, Wang Peng, Xu Ligang, Ye Xiuxu, Fan Hongxiang, Cheng Junxiang, and Chen Jinting

Subjects

spirodela polyrhiza, dolichol phosphate mannose synthase 1, putative dolichyl-phosphate β-glucosyltransferase, gene structure, salt treatment, Biology (General), QH301-705.5

Abstract

Plant glycosyltransferase 2 (GT2) family genes are involved in plant abiotic stress tolerance. However, the roles of GT2 genes in the abiotic resistance in freshwater plants are largely unknown. We identified seven GT2 genes in duckweed, remarkably more than those in the genomes of Arabidopsis thaliana, Oryza sativa, Amborella trichopoda, Nymphaea tetragona, Persea americana, Zostera marina, and Ginkgo biloba, suggesting a significant expansion of this family in the duckweed genome. Phylogeny resolved the GT2 family into two major clades. Six duckweed genes formed an independent subclade in Clade I, and the other was clustered in Clade II. Gene structure and protein domain analysis showed that the lengths of the seven duckweed GT2 genes were varied, and the majority of GT2 genes harbored two conserved domains, PF04722.12 and PF00535.25. The expression of all Clade I duckweed GT2 genes was elevated at 0 h after salt treatment, suggesting a common role of these genes in rapid response to salt stress. The gene Sp01g00794 was highly expressed at 12 and 24 h after salt treatment, indicating its association with salt stress resilience. Overall, these results are essential for studies on the molecular mechanisms in stress response and resistance in aquatic plants.

Published

2021

145. Determination of the Petroleum Substances in Samples of Reclaimed Land by Fluorescence Spectrophotometry with Accelerated Solvent Extraction

Author

ZHAO Jiang-hua, WANG Peng, LI Wei-liang, and LI Zhong-yu

Subjects

reclaimed land, petroleum substances, accelerated solvent extraction, fluroescence spectrophotometry, n-hexane, Geology, QE1-996.5, Ecology, QH540-549.5

Abstract

BACKGROUND As an important index of land environmental quality, the content of petroleum substances determines the use of the land. It also reflects the effect of reclamation and treatment of polluted land to a large extent. The determination methods of petroleum substances in soil samples include gas chromatography, infrared spectrometry, and ultraviolet method. The gas chromatography mainly analyzes saturated alkanes in the samples. The infrared spectrometry identifies the petroleum substances in the samples by measuring the characteristic absorption values under different wave numbers. However, tetrachloroethene used as the solvent is harmful to the environment. Moreover, the pretreatment efficiency is low and the detection limit is high. OBJECTIVES To develop a method with high pre-treatment efficiency, low detection limit and good reproducibility. METHODS Petroleum substances in the reclaimed land samples have low content, most of the components are difficult to volatilize, the structure is complex, and the matrix interference is large. Using n-hexane as the solvent and accelerated solvent extraction (ASE) as the pretreatment method, the petroleum substances in the samples were determined by fluorescence photometer. RESULTS Using the petroleum standard material for marine environmental monitoring as the calibration material to prepare a working curve, the linear correlation coefficient was 0.9997, the detection limit was 0.40mg/kg, precision was 1.10% to 8.76% and the recovery was 89.0% to 95.7%. The results of actual samples were consistent with those of the currently valid infrared spectrophotometry method HJ 1051-2019, and the measurement results of high-content samples were higher than those of the infrared method. CONCLUSIONS The pretreatment method ASE has high automation and high extraction efficiency. It can be used to increase the precision by 11.5%-67.3%. For samples with a relatively complex structure of petroleum components and that are difficult to extract, the detection limit of this method is lower than that of the infrared method (4mg/kg).

Published

2021

146. Preconceptional and prenatal exposure to diurnal temperature variation increases the risk of childhood pneumonia

Author

Xiangrong Zheng, Jian Kuang, Chan Lu, Qihong Deng, Haiyu Wu, Rachael Gakii Murithi, McSherry Brownel Johnson, Wang Peng, and Maolan Wu

Subjects

Diurnal temperature variation, Preconceptional, Pregnancy, Trimester, Childhood pneumonia, Pediatrics, RJ1-570

Abstract

Abstract Background Pneumonia is the leading cause of death and hospitalization among young children worldwide, but its risk factors remain unclear. Objective To evaluate the effect of maternal exposure to diurnal temperature variation (DTV) during preconceptional and prenatal periods on childhood pneumonia. Methods A retrospective cohort study by case-control design was conducted for pneumonia (N = 699) and normal (N = 811) children under age of 14 who were enrolled in XiangYa Hospital, Changsha, China from May 2017 to April 2019. Demographic data including gender, age, birth season, gestational age, parity, mode of delivery, and parental atopy were collected from the electronic medical records in the hospital system. We obtained the data of daily DTV in Changsha during 2003–2019 from China Meteorological Administration. Maternal exposure to DTV during preconceptional and prenatal periods was respectively calculated by the average of daily DTV during one year and three months before conception and entire pregnancy as well as the three trimesters. The association between maternal exposure to outdoor DTV and childhood pneumonia was analyzed by multiple logic regression model. Results We found that childhood pneumonia was significantly associated with exposure to an increase in DTV during one year before conception and entire pregnancy, with ORs (95 % CI) = 2.53 (1.56–4.10) and 1.85 (1.24–2.76). We further identified a significant risk of pneumonia of DTV exposure during the first and second trimester of pregnancy. Sensitivity analysis showed that boys were more susceptible to the effect of prenatal exposure to outdoor DTV during pregnancy particularly in the first two trimesters compared to girls. Conclusions Preconceptional and prenatal exposure to DTV plays an important role in development of childhood pneumonia, especially during the first and second trimesters of pregnancy.

Published

2021

147. Influence of gas migration patterns on reinforcement of dredged slurry by air-booster vacuum preloading method

Author

LEI Hua-yang, WANG Peng, LIU Xu, and WANG Lei

Subjects

air-booster vacuum preloading, gas migration, dredged slurry, reinforcement mechanism, boosting depths, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

In this study, laboratory tests of the air-booster vacuum preloading method with different air-boosting depths were performed on the Tianjin dredged slurry of high water content. The law of gas migration in soil was used to analyze the reinforcement mechanism and the reinforcement factors. Test results show that the drainage, settlement, dissipation of excess pore water pressure as well as the vane shear strength were significantly improved when air boosting is operated on the lower part of drainage board. In the initial stage of consolidation of the fluid-plastic soil, the injected gas is easy to form bubbles and to move upwards rapidly under the action of buoyancy, which drives the deep soil particles to move upwards and disturbs the soil like stirring, so that the dredged slurry is reinforced more uniformly. As water content of the dredged slurry gradually decreases, the gas in soil will form a closed space with a certain pressure, leading to an increase in pressure between the plastic vertical drain and the gas injection pipe. In the later stage of consolidation, the gas expands in soil, which forms micro-fracture cracks to accelerate the water dissipation in the soil and improves the drainage reinforcement effect.

Published

2021

148. Clinical features of hypertensive patients with COVID-19 compared with a normotensive group: Single-center experience in China

Author

Wang Shuang, Zhang Qiang, Wang Peng, Ye Huahong, Jing Xiaoqing, Zhang Zhongdan, Zhu Shisheng, Luo Tingting, and Zheng Zhaobin

Subjects

covid-19, hypertension, clinical features, acei/arb, Medicine

Abstract

SARS-CoV-2 has spread worldwide and poses a great threat to human health. Among COVID-19 patients, those with hypertension have been reported to have higher morbidity and mortality. This study was conducted to provide the international community with a deeper understanding of COVID-19 with hypertension.

Published

2021

149. Regulation of 3D Organization and Its Role in Cancer Biology

Author

Anghui Peng, Wang Peng, Ruiqi Wang, Hao Zhao, Xinyang Yu, and Yihao Sun

Subjects

chromatin, spatial structure, cancer, super-enhancer, oncogene, Biology (General), QH301-705.5

Abstract

Three-dimensional (3D) genomics is the frontier field in the post-genomics era, its foremost content is the relationship between chromatin spatial conformation and regulation of gene transcription. Cancer biology is a complex system resulting from genetic alterations in key tumor oncogenes and suppressor genes for cell proliferation, DNA replication, cell differentiation, and homeostatic functions. Although scientific research in recent decades has revealed how the genome sequence is mutated in many cancers, high-order chromosomal structures involved in the development and fate of cancer cells represent a crucial but rarely explored aspect of cancer genomics. Hence, dissection of the 3D genome conformation of cancer helps understand the unique epigenetic patterns and gene regulation processes that distinguish cancer biology from normal physiological states. In recent years, research in tumor 3D genomics has grown quickly. With the rapid progress of 3D genomics technology, we can now better determine the relationship between cancer pathogenesis and the chromatin structure of cancer cells. It is becoming increasingly explicit that changes in 3D chromatin structure play a vital role in controlling oncogene transcription. This review focuses on the relationships between tumor gene expression regulation, tumor 3D chromatin structure, and cancer phenotypic plasticity. Furthermore, based on the functional consequences of spatial disorganization in the cancer genome, we look forward to the clinical application prospects of 3D genomic biomarkers.

Published

2022

150. A nanograting-based flexible and stretchable waveguide for tactile sensing

Author

Wang Peng, Qingxi Liao, and Han Song

Subjects

Flexible and stretchable waveguide, tactile sensing, Nanoreplica molding, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract Based on the related characteristics of optical waveguide and flexible optical materials, a flexible and stretchable optical waveguide structure oriented to tactile perception is proposed. The sensing principle of optical waveguide is based on mechanical deformation caused by output light loss. It overcomes the shortcomings of traditional optical waveguide devices, which are unable to conform to irregular surface. The flexible and stretchable optical waveguide is fabricated with nanoreplica molding method, and it has been applied to the measurement of pressure and strain in the field of tactile sensing. The flexible and stretchable optical waveguide had a strain detection range of 0 to 12.5%, and the external force detection range is from 0 to 23 × 10–3 N.

Published

2021