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1. Knowledge Bridger: Towards Training-free Missing Multi-modality Completion

Author

Ke, Guanzhou, He, Shengfeng, Wang, Xiao Li, Wang, Bo, Chao, Guoqing, Zhang, Yuanyang, Xie, Yi, and Su, HeXing

Subjects
Computer Science - Machine Learning, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Multimedia
Abstract

Previous successful approaches to missing modality completion rely on carefully designed fusion techniques and extensive pre-training on complete data, which can limit their generalizability in out-of-domain (OOD) scenarios. In this study, we pose a new challenge: can we develop a missing modality completion model that is both resource-efficient and robust to OOD generalization? To address this, we present a training-free framework for missing modality completion that leverages large multimodal models (LMMs). Our approach, termed the "Knowledge Bridger", is modality-agnostic and integrates generation and ranking of missing modalities. By defining domain-specific priors, our method automatically extracts structured information from available modalities to construct knowledge graphs. These extracted graphs connect the missing modality generation and ranking modules through the LMM, resulting in high-quality imputations of missing modalities. Experimental results across both general and medical domains show that our approach consistently outperforms competing methods, including in OOD generalization. Additionally, our knowledge-driven generation and ranking techniques demonstrate superiority over variants that directly employ LMMs for generation and ranking, offering insights that may be valuable for applications in other domains., Comment: Accepted to CVPR 2025

Published
2025

2. Dax invariant for closed embedded surfaces and the mapping class group of $\Sigma\times S^2$

Author

Lin, Jianfeng, Xie, Yi, and Zhang, Boyu

Subjects
Mathematics - Geometric Topology
Abstract

Let $M=\Sigma\times S^2$ where $\Sigma$ is a closed oriented surface of positive genus. Let $\operatorname{MCG}(M)$ be the smooth mapping class group of $M$, and let $\operatorname{MCG}_0(M)$ denote the subgroup of $\operatorname{MCG}(M)$ consisting of elements homotopic to the identity. We show that there exists a surjection from $\operatorname{MCG}(M)$ to $\mathbb{Z}^\infty$ such that its restriction to $\operatorname{MCG}_0(M)$ is also of infinite rank. As a result, every subgroup of $\operatorname{MCG}(M)$ that contains $\operatorname{MCG}_0(M)$ is infinitely generated. The proof is based on a generalization of the Dax invariant to embedded \emph{closed} surfaces. Using the generalized Dax invariant, we also show that there exist infinitely many embedded closed surfaces in $M$ that have a common geometrically dual sphere, are homotopic to each other, but are mutually non-isotopic to each other. Since $\pi_1(M)$ has no 2-torsion, this answers a question of Gabai., Comment: 23 pages. Comments welcome!

Published
2025

3. On the mapping class groups of 4-manifolds with 1-handles

Author

Lin, Jianfeng, Xie, Yi, and Zhang, Boyu

Subjects
Mathematics - Geometric Topology, 57K40, 57R52, 57R50
Abstract

We develop a framework that generalizes Budney-Gabai's $W_3$ invariant on $\pi_0\textrm{Diff}(S^1\times D^3,\partial)$ to 4-manifolds with 1-handles. As applications, we show that if $M=(S^1\times D^3)\natural \hat M$ where $\hat M$ either has the form $I\times Y$ or is a punctured aspherical manifold, then the center of the mapping class group of $M$ is of infinite rank., Comment: 43 pages

Published
2025

4. Shear-gravity transition determines the steep velocity dispersion-size relation in molecular clouds: confronting analytical formula with observations

Author

Xie, Yi-Heng and Li, Guang-Xing

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The velocity dispersion-size relation is a crucial indicator of the dynamic properties of interstellar gas. Recent observations reveal a steep velocity dispersion-size relation ($\sigma_{\rm v}\sim R^{\beta}$) with the index $\beta> 0.6$, which cannot be explained by a single mechanism with only gravity ($\beta\sim0.5$) or shear ($\beta \sim 1$). We present a two-component model $\sigma_{\rm v_{mixture}} = \lambda_1 \sigma_{\rm v_{g}} + \lambda_2 \sigma_{\rm v_{shear}} = A[(GM/R)^{\frac{1}{2}} + f(R/t_{\rm shear})]$ to explain the steep velocity dispersion-size relation in the observation from e.g. Miville et al. (2017) and Zhou et al. (2022). We find that the velocity dispersion of small clouds is mainly caused by self-gravity, while large clouds are primarily affected by shear, and these two regimes are linked by a gradual transition with a transition scale $\sim100$ pc. The variation of cloud velocity dispersion with the Galactocentric distance results from the variation of both cloud internal density structure and Galactic shear. Our two-component model captures how the dynamics of the molecular gas can be affected by both internal and external factors, and we expect it to be applied to data from galaxies with different physical conditions to reveal the physics., Comment: Submitted to APJL

Published
2025

5. Enhancing Masked Time-Series Modeling via Dropping Patches

Author

Qiu, Tianyu, Xie, Yi, Xiong, Yun, Niu, Hao, and Gao, Xiaofeng

Subjects
Statistics - Machine Learning, Computer Science - Machine Learning
Abstract

This paper explores how to enhance existing masked time-series modeling by randomly dropping sub-sequence level patches of time series. On this basis, a simple yet effective method named DropPatch is proposed, which has two remarkable advantages: 1) It improves the pre-training efficiency by a square-level advantage; 2) It provides additional advantages for modeling in scenarios such as in-domain, cross-domain, few-shot learning and cold start. This paper conducts comprehensive experiments to verify the effectiveness of the method and analyze its internal mechanism. Empirically, DropPatch strengthens the attention mechanism, reduces information redundancy and serves as an efficient means of data augmentation. Theoretically, it is proved that DropPatch slows down the rate at which the Transformer representations collapse into the rank-1 linear subspace by randomly dropping patches, thus optimizing the quality of the learned representations

Published
2024

6. TSGaussian: Semantic and Depth-Guided Target-Specific Gaussian Splatting from Sparse Views

Author

Zhao, Liang, Bao, Zehan, Xie, Yi, Chen, Hong, Chen, Yaohui, and Li, Weifu

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

Recent advances in Gaussian Splatting have significantly advanced the field, achieving both panoptic and interactive segmentation of 3D scenes. However, existing methodologies often overlook the critical need for reconstructing specified targets with complex structures from sparse views. To address this issue, we introduce TSGaussian, a novel framework that combines semantic constraints with depth priors to avoid geometry degradation in challenging novel view synthesis tasks. Our approach prioritizes computational resources on designated targets while minimizing background allocation. Bounding boxes from YOLOv9 serve as prompts for Segment Anything Model to generate 2D mask predictions, ensuring semantic accuracy and cost efficiency. TSGaussian effectively clusters 3D gaussians by introducing a compact identity encoding for each Gaussian ellipsoid and incorporating 3D spatial consistency regularization. Leveraging these modules, we propose a pruning strategy to effectively reduce redundancy in 3D gaussians. Extensive experiments demonstrate that TSGaussian outperforms state-of-the-art methods on three standard datasets and a new challenging dataset we collected, achieving superior results in novel view synthesis of specific objects. Code is available at: https://github.com/leon2000-ai/TSGaussian.

Published
2024

7. Look a Group at Once: Multi-Slide Modeling for Survival Prediction

Author

Li, Xinyang, Zhang, Yi, Xie, Yi, Yang, Jianfei, Wang, Xi, Chen, Hao, and Zhang, Haixian

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Survival prediction is a critical task in pathology. In clinical practice, pathologists often examine multiple cases, leveraging a broader spectrum of cancer phenotypes to enhance pathological assessment. Despite significant advancements in deep learning, current solutions typically model each slide as a sample, struggling to effectively capture comparable and slide-agnostic pathological features. In this paper, we introduce GroupMIL, a novel framework inspired by the clinical practice of collective analysis, which models multiple slides as a single sample and organizes groups of patches and slides sequentially to capture cross-slide prognostic features. We also present GPAMamba, a model designed to facilitate intra- and inter-slide feature interactions, effectively capturing local micro-environmental characteristics within slide-level graphs while uncovering essential prognostic patterns across an extended patch sequence within the group framework. Furthermore, we develop a dual-head predictor that delivers comprehensive survival risk and probability assessments for each patient. Extensive empirical evaluations demonstrate that our model significantly outperforms state-of-the-art approaches across five datasets from The Cancer Genome Atlas.

Published
2024

8. Enhancing Dataset Distillation via Label Inconsistency Elimination and Learning Pattern Refinement

Author

Zhou, Chuhao, Jiang, Chenxi, Xie, Yi, Cao, Haozhi, and Yang, Jianfei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Dataset Distillation (DD) seeks to create a condensed dataset that, when used to train a model, enables the model to achieve performance similar to that of a model trained on the entire original dataset. It relieves the model training from processing massive data and thus reduces the computation resources, storage, and time costs. This paper illustrates our solution that ranks 1st in the ECCV-2024 Data Distillation Challenge (track 1). Our solution, Modified Difficulty-Aligned Trajectory Matching (M-DATM), introduces two key modifications to the original state-of-the-art method DATM: (1) the soft labels learned by DATM do not achieve one-to-one correspondence with the counterparts generated by the official evaluation script, so we remove the soft labels technique to alleviate such inconsistency; (2) since the removal of soft labels makes it harder for the synthetic dataset to learn late trajectory information, particularly on Tiny ImageNet, we reduce the matching range, allowing the synthetic data to concentrate more on the easier patterns. In the final evaluation, our M-DATM achieved accuracies of 0.4061 and 0.1831 on the CIFAR-100 and Tiny ImageNet datasets, ranking 1st in the Fixed Images Per Class (IPC) Track., Comment: ECCV 2024 Dataset Distillation Challenge

Published
2024

9. Sensitivity adjustable in-line high-temperature sensor based on metal microwire optical Fabry-Perot interferometer

Author

Duan, Dewen, Zhao, Zihao, and Xie, Yi-Yuan

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

The optical fiber Fabry-Perot interferometer (FPI) has been widely investigated as a potential temperature sensor. To function as a temperature sensor, the cavity of the FPI is typically constructed from either silica fibers or polymers. The silica cavity FPIs can function at temperatures exceeding 1000{\deg}C. However, its temperature sensitivity is constrained by its relatively low thermal optical coefficient and thermal expansion of silica materials. Although the polymer cavity FPI exhibits a high temperature sensitivity, its cavity is susceptible to deterioration in high-temperature environments. Here, to overcome this challenge and achieve high-sensitivity temperature sensing in a high-temperature environment, we propose a new type of temperature FPI sensor by inserting and sealing a section of Cr20Ni80 metal microwire inside a section of silica hollow core fiber (HCF) spliced to standard single-mode fiber (SMF). The FPIs exhibit a high degree of temperature sensitivity due to the high thermal expansion of the Cr20Ni80 metal microwire. Since the Cr20Ni80 metal has a high melting temperature of 1400{\deg}C, such FPIs can function in high-temperature environments. Moreover, the temperature sensitivity of this FPI can be modified without affecting its reflection spectrum by changing the length of the metallic microwire situated within the hollow core fiber. The experimental results indicate that the proposed FPIs exhibit a temperature sensitivity greater than -0.35nm/{\deg}C within the temperature range of 50{\deg}C to 440{\deg}C. Our proposed metal microwire-based FPIs are economical, robust, simple to fabricate, and capable of functioning in high-temperature environments, rendering them appealing options for practical applications, Comment: 6 pages, 5 figures

Published
2024

10. MemSim: A Bayesian Simulator for Evaluating Memory of LLM-based Personal Assistants

Author

Zhang, Zeyu, Dai, Quanyu, Chen, Luyu, Jiang, Zeren, Li, Rui, Zhu, Jieming, Chen, Xu, Xie, Yi, Dong, Zhenhua, and Wen, Ji-Rong

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

LLM-based agents have been widely applied as personal assistants, capable of memorizing information from user messages and responding to personal queries. However, there still lacks an objective and automatic evaluation on their memory capability, largely due to the challenges in constructing reliable questions and answers (QAs) according to user messages. In this paper, we propose MemSim, a Bayesian simulator designed to automatically construct reliable QAs from generated user messages, simultaneously keeping their diversity and scalability. Specifically, we introduce the Bayesian Relation Network (BRNet) and a causal generation mechanism to mitigate the impact of LLM hallucinations on factual information, facilitating the automatic creation of an evaluation dataset. Based on MemSim, we generate a dataset in the daily-life scenario, named MemDaily, and conduct extensive experiments to assess the effectiveness of our approach. We also provide a benchmark for evaluating different memory mechanisms in LLM-based agents with the MemDaily dataset. To benefit the research community, we have released our project at https://github.com/nuster1128/MemSim., Comment: 26 pages, 25 tables, 1 figure

Published
2024

11. Gravitational Wave Astronomy With TianQin

Author

Li, En-Kun, Liu, Shuai, Torres-Orjuela, Alejandro, Chen, Xian, Inayoshi, Kohei, Wang, Long, Hu, Yi-Ming, Amaro-Seoane, Pau, Askar, Abbas, Bambi, Cosimo, Capelo, Pedro R., Chen, Hong-Yu, Chua, Alvin J. K., Condés-Breña, Enrique, Dai, Lixin, Das, Debtroy, Derdzinski, Andrea, Fan, Hui-Min, Fujii, Michiko, Gao, Jie, Garg, Mudit, Ge, Hongwei, Giersz, Mirek, Huang, Shun-Jia, Hypki, Arkadiusz, Liang, Zheng-Cheng, Liu, Bin, Liu, Dongdong, Liu, Miaoxin, Liu, Yunqi, Mayer, Lucio, Napolitano, Nicola R., Peng, Peng, Shao, Yong, Shashank, Swarnim, Shen, Rongfeng, Tagawa, Hiromichi, Tanikawa, Ataru, Toscani, Martina, Vázquez-Aceves, Verónica, Wang, Hai-Tian, Wang, Han, Yi, Shu-Xu, Zhang, Jian-dong, Zhang, Xue-Ting, Zhu, Lianggui, Zwick, Lorenz, Huang, Song, Mei, Jianwei, Wang, Yan, Xie, Yi, Zhang, Jiajun, and Luo, Jun

Subjects
Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, General Relativity and Quantum Cosmology
Abstract

The opening of the gravitational wave window has significantly enhanced our capacity to explore the universe's most extreme and dynamic sector. In the mHz frequency range, a diverse range of compact objects, from the most massive black holes at the farthest reaches of the Universe to the lightest white dwarfs in our cosmic backyard, generate a complex and dynamic symphony of gravitational wave signals. Once recorded by gravitational wave detectors, these unique fingerprints have the potential to decipher the birth and growth of cosmic structures over a wide range of scales, from stellar binaries and stellar clusters to galaxies and large-scale structures. The TianQin space-borne gravitational wave mission is scheduled for launch in the 2030s, with an operational lifespan of five years. It will facilitate pivotal insights into the history of our universe. This document presents a concise overview of the detectable sources of TianQin, outlining their characteristics, the challenges they present, and the expected impact of the TianQin observatory on our understanding of them., Comment: TianQin Gravitational Wave Whitepaper, 72 pages, 30 figures

Published
2024

12. MSSDA: Multi-Sub-Source Adaptation for Diabetic Foot Neuropathy Recognition

Author

Zhong, Yan, Yan, Zhixin, Xie, Yi, Wu, Shibin, Zhang, Huaidong, Shu, Lin, and Zhou, Peiru

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

Diabetic foot neuropathy (DFN) is a critical factor leading to diabetic foot ulcers, which is one of the most common and severe complications of diabetes mellitus (DM) and is associated with high risks of amputation and mortality. Despite its significance, existing datasets do not directly derive from plantar data and lack continuous, long-term foot-specific information. To advance DFN research, we have collected a novel dataset comprising continuous plantar pressure data to recognize diabetic foot neuropathy. This dataset includes data from 94 DM patients with DFN and 41 DM patients without DFN. Moreover, traditional methods divide datasets by individuals, potentially leading to significant domain discrepancies in some feature spaces due to the absence of mid-domain data. In this paper, we propose an effective domain adaptation method to address this proplem. We split the dataset based on convolutional feature statistics and select appropriate sub-source domains to enhance efficiency and avoid negative transfer. We then align the distributions of each source and target domain pair in specific feature spaces to minimize the domain gap. Comprehensive results validate the effectiveness of our method on both the newly proposed dataset for DFN recognition and an existing dataset.

Published
2024

13. An Efficient and Generalizable Symbolic Regression Method for Time Series Analysis

Author

Xie, Yi, Qiu, Tianyu, Xiong, Yun, Huang, Xiuqi, Gao, Xiaofeng, and Chen, Chao

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Time series analysis and prediction methods currently excel in quantitative analysis, offering accurate future predictions and diverse statistical indicators, but generally falling short in elucidating the underlying evolution patterns of time series. To gain a more comprehensive understanding and provide insightful explanations, we utilize symbolic regression techniques to derive explicit expressions for the non-linear dynamics in the evolution of time series variables. However, these techniques face challenges in computational efficiency and generalizability across diverse real-world time series data. To overcome these challenges, we propose \textbf{N}eural-\textbf{E}nhanced \textbf{Mo}nte-Carlo \textbf{T}ree \textbf{S}earch (NEMoTS) for time series. NEMoTS leverages the exploration-exploitation balance of Monte-Carlo Tree Search (MCTS), significantly reducing the search space in symbolic regression and improving expression quality. Furthermore, by integrating neural networks with MCTS, NEMoTS not only capitalizes on their superior fitting capabilities to concentrate on more pertinent operations post-search space reduction, but also replaces the complex and time-consuming simulation process, thereby substantially improving computational efficiency and generalizability in time series analysis. NEMoTS offers an efficient and comprehensive approach to time series analysis. Experiments with three real-world datasets demonstrate NEMoTS's significant superiority in performance, efficiency, reliability, and interpretability, making it well-suited for large-scale real-world time series data.

Published
2024

14. Morphology of molecular clouds at kiloparsec scale in the Milky Way: Shear-induced alignment and vertical confinement

Author

Xie, Yi-Heng, Li, Guang-Xing, and Chen, Bing-Qiu

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

The shape of the cold interstellar molecular gas is determined by several processes, including self-gravity, tidal force, turbulence, magnetic field, and galactic shear. Based on the 3D dust extinction map derived by Vergely et al., we identify a sample of 550 molecular clouds (MCs) within $3\hspace{0.2em}\rm kpc$ of the solar vicinity in the Galactic disk. Our sample contains clouds whose size ranges from pc to kiloparsec, which enables us to study the effect of Galactic-scale processes, such as shear, on cloud evolution. We find that our sample clouds follow a power-law mass-size relation of $M\propto 32.00\hspace{0.2em}{R_{\rm{max}}}^{1.77}$, $M\propto 20.59\hspace{0.2em}{R_S}^{2.04}$ and $M\propto 14.41\hspace{0.2em}{R_V}^{2.29}$, where $R_{\rm{max}}$ is the major axis-based cloud radius, $R_S$ is the area-based radius, and $R_V$ is the volume-based radius, respectively. These clouds have a mean constant surface density of $\sim 7 \hspace{0.2em} \rm {M_{\odot}pc^{-2}}$, and follow a volume density-size relation of $\rho \propto 2.60\hspace{0.2em}{R_{\rm{max}}}^{-0.55}$. As cloud size increases, their shapes gradually transition from ellipsoidal to disk-like to bar-like structures. Large clouds tend to have a pitch angle of $28^{\circ} - 45^{\circ}$, where the angle is measured concerning the Galactic tangential direction. These giant clouds also tend to stay parallel to the Galactic disk plane and are confined within the Galactic molecular gas disk. Our results show that large molecular clouds in the Milky Way can be shaped by Galactic shear and confined in the vertical direction by gravity., Comment: Accepted by APJ

Published
2024

15. In-line fiber optic optofluidic sensor based on a fully open Fabry-Perot interferometer

Author

Duan, Dewen, Kang, Qian, Yang, Qianhui, Zhao, Zihao, Li, Na, Du, Guan-Xiang, and Xie, Yi-Yuan

Subjects
Physics - Optics, Physics - Applied Physics, 7805
Abstract

We present an all-fiber, fully open Fabry-Perot interferometer (FPI) cavity that is suitable for fluidic measurement applications. Fabrication of the FPI involves the alignment and bonding of three optical fiber sections using either ceramic glue or low-temperature melting glass. The fabrication procedure allows the protection of the cleaved optical fiber end faces, which serve as the two mirrors of the FPI, from damage, thus ensuring the high visibility of the FPI sensor. The FPI's complete openness permits the analyte of interest fluids to flow smoothly into the cavity and interact directly with the light, obviating the need for additional assistance. The fabrication experiment demonstrates that the fabrication procedure can readily achieve a visibility of over 20 dB. Refractive index testing indicates that the sensor exhibits a sensitivity of over 1116 nm/RIU within the range of 1.334-1.375. A comparison of temperature investigations indicates that the fully open cavity FPI fabricated by bonding with low-temperature melting glass exhibits relatively lower temperature immunity than that bonded with ceramic glue. Both have a relatively low temperature fluctuation within the temperature range of 40{\deg}C-100{\deg}C, with less than 3 nm and 4.5 nm in the over 60{\deg}C changes, respectively. Our proposed fully open FPI is an economical, robust, and simple-to-fabricate structure with the potential for mass production. This renders it an appealing option for practical optofluidics applications., Comment: 6 pages, 10 figures

Published
2024
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16. Thermometry of Trapped Ions Based on Bichromatic Driving

Author

Li, Xie-Qian, Tao, Yi, Chen, Ting, Wu, Wei, Xie, Yi, Wu, Chun-Wang, and Chen, Ping-Xing

Subjects
Quantum Physics
Abstract

Accurate thermometry of laser-cooled ions is crucial for the performance of the trapped-ions quantum computing platform. However, most existing methods face a computational exponential bottleneck. Recently, a thermometry method based on bichromatic driving was theoretically proposed by Ivan Vybornyi et al. to overcome this obstacle, which allows the computational complexity to remain constant with the increase of ion numbers. In this paper, we provide a detailed statistical analysis of this method and prove its robustness to several imperfect experimental conditions using Floquet theory. We then experimentally verify its good performance on a linear segmented surface-electrode ion trap platform for the first time. This method is proven to be effective from near the motional ground state to a few mean phonon numbers. Our theoretical analysis and experimental verification demonstrate that the scheme can accurately and efficiently measure the temperature in ion crystals.

Published
2024
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17. Inference Performance Optimization for Large Language Models on CPUs

Author

He, Pujiang, Zhou, Shan, Huang, Wenhuan, Li, Changqing, Wang, Duyi, Guo, Bin, Meng, Chen, Gui, Sheng, Yu, Weifei, and Xie, Yi

Subjects
Computer Science - Artificial Intelligence
Abstract

Large language models (LLMs) have shown exceptional performance and vast potential across diverse tasks. However, the deployment of LLMs with high performance in low-resource environments has garnered significant attention in the industry. When GPU hardware resources are limited, we can explore alternative options on CPUs. To mitigate the financial burden and alleviate constraints imposed by hardware resources, optimizing inference performance is necessary. In this paper, we introduce an easily deployable inference performance optimization solution aimed at accelerating LLMs on CPUs. In this solution, we implement an effective way to reduce the KV cache size while ensuring precision. We propose a distributed inference optimization approach and implement it based on oneAPI Collective Communications Library. Furthermore, we propose optimization approaches for LLMs on CPU, and conduct tailored optimizations for the most commonly used models. The code is open-sourced at https://github.com/intel/xFasterTransformer., Comment: 5 pages, 6 figure, ICML 2024 on Foundation Models in the Wild

Published
2024

19. H-bonded organic frameworks as ultrasound-programmable delivery platform

Author

Wang, Wenliang, Shi, Yanshu, Chai, Wenrui, Tang, Kai Wing Kevin, Pyatnitskiy, Ilya, Xie, Yi, Liu, Xiangping, He, Weilong, Jeong, Jinmo, Hsieh, Ju-Chun, Lozano, Anakaren Romero, Artman, Brinkley, Shi, Xi, Hoefer, Nicole, Shrestha, Binita, Stern, Noah B., Zhou, Wei, McComb, David W., Porter, Tyrone, Henkelman, Graeme, Chen, Banglin, and Wang, Huiliang

Published
2025
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22. Remote chirality transfer in low-dimensional hybrid metal halide semiconductors

Author

Haque, Md Azimul, Grieder, Andrew, Harvey, Steven P., Brunecky, Roman, Ye, Jiselle Y., Addison, Bennett, Zhang, Junxiang, Dong, Yifan, Xie, Yi, Hautzinger, Matthew P., Walpitage, Heshan Hewa, Zhu, Kai, Blackburn, Jeffrey L., Vardeny, Zeev Valy, Mitzi, David B., Berry, Joseph J., Marder, Seth R., Ping, Yuan, Beard, Matthew C., and Luther, Joseph M.

Published
2025
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26. Analysis of Electric Vehicle Charging Behavior Based on Gaussian Mixture Model Clustering

Author

Peng, Peng, Zhang, Zhaosheng, Li, Jinli, Gao, Wei, Xie, Yi, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Yang, Qingxin, editor, Bie, Zhaohong, editor, and Yang, Xu, editor

Published
2025
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27. TUMSyn: A Text-Guided Generalist Model for Customized Multimodal MR Image Synthesis

Author

Wang, Yulin, Xiong, Honglin, Xie, Yi, Liu, Jiameng, Wang, Qian, Liu, Qian, Shen, Dinggang, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Deng, Zhongying, editor, Shen, Yiqing, editor, Kim, Hyunwoo J., editor, Jeong, Won-Ki, editor, Aviles-Rivero, Angelica I., editor, He, Junjun, editor, and Zhang, Shaoting, editor

Published
2025
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28. Multi-person Pose Forecasting with Individual Interaction Perceptron and Prior Learning

Author

Xiao, Peng, Xie, Yi, Xu, Xuemiao, Chen, Weihong, Zhang, Huaidong, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published
2025
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29. ZBanner: Fast Stateless Scanning Capable of Obtaining Responses over TCP

Author

Chen, Chiyu, Lu, Yuliang, Yang, Guozheng, Xie, Yi, and Guo, Shasha

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Fast large-scale network scanning is an important way to understand internet service configurations and security in real time, among which stateless scan is representative. Existing stateless scanners can perform single-packet scans for internet-wide network measurements but are limited to host discovery or port scanning. To obtain further information over TCP, slower stateful scanners must be used in conjunction which spend more time and memory because of connection state maintenance. Through simplifying TCP finite state machine, this paper proposes a novel stateless scanning model, which can establish TCP connections and obtain further responses in a completely stateless manner. Based on this model, we implement ZBanner, an improved modular stateless scanner that utilizes user-defined probes for identifying services and versions, fingerprinting TLS servers, etc. We present unique design of ZBanner and experimentally characterize its feasibility and performance. Experiments show that ZBanner performs better than current state-of-the-art solutions in terms of scan rate and memory usage. ZBanner achieves at least three times faster than current tools for generic ports and over 90 times faster for open ports while keeping a minimum and stable memory usage., Comment: The paper has been submitted and the code will be published later

Published
2024

30. AttacKG+:Boosting Attack Knowledge Graph Construction with Large Language Models

Author

Zhang, Yongheng, Du, Tingwen, Ma, Yunshan, Wang, Xiang, Xie, Yi, Yang, Guozheng, Lu, Yuliang, and Chang, Ee-Chien

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence
Abstract

Attack knowledge graph construction seeks to convert textual cyber threat intelligence (CTI) reports into structured representations, portraying the evolutionary traces of cyber attacks. Even though previous research has proposed various methods to construct attack knowledge graphs, they generally suffer from limited generalization capability to diverse knowledge types as well as requirement of expertise in model design and tuning. Addressing these limitations, we seek to utilize Large Language Models (LLMs), which have achieved enormous success in a broad range of tasks given exceptional capabilities in both language understanding and zero-shot task fulfillment. Thus, we propose a fully automatic LLM-based framework to construct attack knowledge graphs named: AttacKG+. Our framework consists of four consecutive modules: rewriter, parser, identifier, and summarizer, each of which is implemented by instruction prompting and in-context learning empowered by LLMs. Furthermore, we upgrade the existing attack knowledge schema and propose a comprehensive version. We represent a cyber attack as a temporally unfolding event, each temporal step of which encapsulates three layers of representation, including behavior graph, MITRE TTP labels, and state summary. Extensive evaluation demonstrates that: 1) our formulation seamlessly satisfies the information needs in threat event analysis, 2) our construction framework is effective in faithfully and accurately extracting the information defined by AttacKG+, and 3) our attack graph directly benefits downstream security practices such as attack reconstruction. All the code and datasets will be released upon acceptance., Comment: 20 pages, 5 figures

Published
2024

31. Fixers and derangements of finite permutation groups

Author

Huang, Hong Yi, Li, Cai Heng, and Xie, Yi Lin

Subjects
Mathematics - Group Theory, Mathematics - Combinatorics
Abstract

Let $G\leqslant\mathrm{Sym}(\Omega)$ be a finite transitive permutation group with point stabiliser $H$. We say that a subgroup $K$ of $G$ is a fixer if every element of $K$ has fixed points, and we say that $K$ is large if $|K| \geqslant |H|$. There is a special interest in studying large fixers due to connections with Erd\H{o}s-Ko-Rado type problems. In this paper, we classify up to conjugacy the large fixers of the almost simple primitive groups with socle $\mathrm{PSL}_2(q)$, and we use this result to verify a special case of a conjecture of Spiga on permutation characters. We also present some results on large fixers of almost simple primitive groups with socle an alternating or sporadic group., Comment: 33 pages

Published
2024

32. Entanglement signatures for quantum synchronization with single-ion phonon laser

Author

He, Si-Wen, Deng, Zhi-Jiao, Xie, Yi, Wang, Yan-Yi, and Chen, Ping-Xing

Subjects
Quantum Physics
Abstract

The entanglement properties of quantum synchronization, based on a single-ion phonon laser subjected to an external drive, have been studied. It is found that the maximum value of steady-state entanglement between the ion's internal and external states occurs near the noiseless boundary from synchronization to unsynchronization, accompanied by noticeable oscillatory behaviors during the corresponding time evolution of entanglement. In addition, the later time dynamics of entanglement also indicates the occurrence of frequency entrainment, as evidenced by the strong consistency between the bending of the observed frequency and the emergence of Liouvillian exceptional points (LEPs) in the first two eigenvalues of the Liouvillian eigenspectrum. Moreover, the emergence of LEPs, which is intimately associated with frequency entrainment, should be widely observed in quantum synchronization and can be explored in LEPs-based applications., Comment: 12 pages, 6 figures, Supplement 6 pages, 2 figures

Published
2024
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47. Mode-resolved thermometry of trapped ion with Deep Learning

Author

Tao, Yi, Chen, Ting, Xie, Yi, Wang, Hongyang, Zhang, Jie, Zhang, Ting, Chen, Pingxing, and Wu, Wei

Subjects
Quantum Physics
Abstract

In trapped ion system, accurate thermometry of ion is crucial for evaluating the system state and precisely performing quantum operations. However, when the motional state of a single ion is far away from the ground state, the spatial dimension of the phonon state sharply increases, making it difficult to realize accurate and mode-resolved thermometry with existing methods. In this work, we apply deep learning for the first time to the thermometry of trapped ion, providing an efficient and mode-resolved method for accurately estimating large mean phonon numbers. Our trained neural network model can be directly applied to other experimental setups without retraining or post-processing, as long as the related parameters are covered by the model's effective range, and it can also be conveniently extended to other parameter ranges. We have conducted experimental verification based on our surface trap, of which the result has shown the accuracy and efficiency of the method for thermometry of single ion under large mean phonon number, and its mode resolution characteristic can make it better applied to the characterization of system parameters, such as evaluating cooling effectiveness, analyzing surface trap noise.

Published
2024

48. Identifying an $\rm X(3872)$ tetraquark state versus a molecular state by formation time, velocity and temperature in relativistic nuclear collisions

Author

She, Zhi-Lei, Lei, An-Ke, Yan, Yu-Liang, Zhou, Dai-Mei, Zhang, Wen-Chao, Zheng, Hua, Zheng, Liang, Xie, Yi-Long, Chen, Gang, and Sa, Ben-Hao

Subjects
High Energy Physics - Phenomenology
Abstract

The production of exotic hadron $\rm X(3872)$ in $pp$ collisions at $\sqrt{s}=2.76\,\mathrm{TeV}$ is investigated by the parton and hadron cascade model PACIAE in this work. In the simulation the final partonic state (quark matter, QM) and the final hadronic state (hadron matter, HM) are continuously processed and recorded. The $\rm X(3872)$ compact tetraquark state and loose molecular state are, respectively, coalesced and recombined in the QM and HM with the quantum statistical mechanics inspired dynamically constrained phase-space coalescence model. The formation time, velocity and temperature of QM (tetraquark state) and HM (molecular state) are proposed as identifying criteria between the two states. Our results in transverse momentum spectrum and rapidity distribution, etc. show a significant discrepancy between the two states and confirm that they are also valuable criteria identifying the $\rm X(3872)$ compact tetraquark state or molecular state., Comment: 6 pages, 3 figures

Published
2024
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49. Gravitational lensing of massive particles by a black-bounce-Schwarzschild black hole

Author

He, Guansheng, Xie, Yi, Jiang, Chunhua, and Lin, Wenbin

Subjects
General Relativity and Quantum Cosmology
Abstract

We investigate in detail the weak-field gravitational lensing of a relativistic neutral massive particle induced by a regular black-bounce-Schwarzschild black hole proposed by Simpson and Visser. Starting with the calculation of the gravitational deflection of the massive particle up to the third post-Minkowskian order, the Virbhadra-Ellis lens equation is solved perturbatively beyond the weak-deflection limit to achieve the expressions for the lensing observables of the primary and secondary images of a point-like particle source. The main observables contain not only the positions, the flux magnifications, and the gravitational time delays of the individual images, but also the positional relations, the magnification relations (including the total magnification), the magnification centroid, and the differential time delay. We then discuss the velocity-induced effects originated from the deviation of the particle's initial velocity from the speed of light on the black-bounce-Schwarzschild lensing observables of the images of a point-like light source, and the effects induced by the bounce parameter of the spacetime on the measurable image properties of Schwarzschild lensing of the massive particle. As an application of the results, we model the supermassive black hole in the Galactic Center (i.e., Sgr A$^{\ast}$) as the lens, and focus on evaluating the possibilities to detect the new velocity-induced and bounce-induced effects on the practical lensing observables and analyzing the dependence of these effects on the parameters., Comment: Accepted for publication in PRD

Published
2024
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50. Observation of quantum strong Mpemba effect

Author

Zhang, Jie, Xia, Gang, Wu, Chun-Wang, Chen, Ting, Zhang, Qian, Xie, Yi, Su, Wen-Bo, Wu, Wei, Qiu, Cheng-Wei, Chen, Ping-xing, Li, Weibin, Jing, Hui, and Zhou, Yan-Li

Subjects
Quantum Physics
Abstract

An ancient and counterintuitive phenomenon know as the Mpemba effect (water can cool faster when initially heated up) showcases the critical role of initial conditions in relaxation processes. How to realize and utilize this effect for speeding up relaxation is an important but challenging task in purely quantum system till now. Here, we report the first experiment, as far as we know,about the strong Mpemba effect in a single trapped ion system in which an exponentially expedited relaxation in time is observed by preparing an optimal initial state with no excitation of the slowest decaying mode. Also, we find that the condition of realizing such effect coincides with the Liouvillian exceptional point, featuring the coalescence of both the eigenvalues and the eigenmodes of the system. Our work provides an efficient strategy to exponentially accelerate relaxations of quantum system to their stationary state, and suggests a link unexplored yet between the Mpemba effect and the non-Hermitian physics. It could open up the door to engineer a wide range of dissipative quantum systems by utilizing the anomalous Mpemba effect, for applications in quantum simulation and quantum information processing., Comment: Accepted by Nature Communications

Published
2024
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