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3,247 results on '"Huang, Xuan"'

1. The design of high-brightness ERL-FEL injector based on VHF electron gun

Author

Chen, Xiuji, Liu, Zipeng, Chen, Si, Gu, Duan, Huang, Xuan, Qian, Houjun, Wang, Dong, and Deng, Haixiao

Subjects
Physics - Accelerator Physics
Abstract

In the past decade, the fourth-generation light source based on the combination of Energy Recovery Linac (ERL) and Free-Electron Laser (FEL) using superconducting linear accelerators has garnered significant attention. It holds immense potential, particularly in generating high-power Extreme Ultraviolet (EUV) light sources. This article primarily focuses on the physical design of an injector for ERL-FEL, based on a Very High Frequency (VHF) electron gun with a charge of 100 pC. The beam energy is accelerated to 10 MeV using 3-cell superconducting cavity. The optimization of beam parameters is conducted through employment of BMad and ASTRA simulations, incorporating the concept of Merger optimization. The beam emittance is less than 0.6 mm mrad, and the peak current at the injector exit exceeds 18 A. We present a new method to evaluate the Longitudinal Space Charge (LSC) effects in merger sections, which can be readily applied in design work. Furthermore, we introduce a novel type of merger. The performance of this new merger is comparable to the previously known optimum, the zigzag merger, offering a potential alternative solution for injectors in ERLs.

Published
2024

2. Learning Interaction-aware 3D Gaussian Splatting for One-shot Hand Avatars

Author

Huang, Xuan, Li, Hanhui, Liu, Wanquan, Liang, Xiaodan, Yan, Yiqiang, Cheng, Yuhao, and Gao, Chengqiang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we propose to create animatable avatars for interacting hands with 3D Gaussian Splatting (GS) and single-image inputs. Existing GS-based methods designed for single subjects often yield unsatisfactory results due to limited input views, various hand poses, and occlusions. To address these challenges, we introduce a novel two-stage interaction-aware GS framework that exploits cross-subject hand priors and refines 3D Gaussians in interacting areas. Particularly, to handle hand variations, we disentangle the 3D presentation of hands into optimization-based identity maps and learning-based latent geometric features and neural texture maps. Learning-based features are captured by trained networks to provide reliable priors for poses, shapes, and textures, while optimization-based identity maps enable efficient one-shot fitting of out-of-distribution hands. Furthermore, we devise an interaction-aware attention module and a self-adaptive Gaussian refinement module. These modules enhance image rendering quality in areas with intra- and inter-hand interactions, overcoming the limitations of existing GS-based methods. Our proposed method is validated via extensive experiments on the large-scale InterHand2.6M dataset, and it significantly improves the state-of-the-art performance in image quality. Project Page: \url{https://github.com/XuanHuang0/GuassianHand}., Comment: Accepted to NeurIPS 2024

Published
2024

4. Bimodal Visualization of Industrial X-Ray and Neutron Computed Tomography Data

Author

Huang, Xuan, Miao, Haichao, Kim, Hyojin, Townsend, Andrew, Champley, Kyle, Tringe, Joseph, Pascucci, Valerio, and Bremer, Peer-Timo

Subjects
Computer Science - Graphics
Abstract

Advanced manufacturing creates increasingly complex objects with material compositions that are often difficult to characterize by a single modality. Our collaborating domain scientists are going beyond traditional methods by employing both X-ray and neutron computed tomography to obtain complementary representations expected to better resolve material boundaries. However, the use of two modalities creates its own challenges for visualization, requiring either complex adjustments of bimodal transfer functions or the need for multiple views. Together with experts in nondestructive evaluation, we designed a novel interactive bimodal visualization approach to create a combined view of the co-registered X-ray and neutron acquisitions of industrial objects. Using an automatic topological segmentation of the bivariate histogram of X-ray and neutron values as a starting point, the system provides a simple yet effective interface to easily create, explore, and adjust a bimodal visualization. We propose a widget with simple brushing interactions that enables the user to quickly correct the segmented histogram results. Our semiautomated system enables domain experts to intuitively explore large bimodal datasets without the need for either advanced segmentation algorithms or knowledge of visualization techniques. We demonstrate our approach using synthetic examp

Published
2024

5. Web-based Visualization and Analytics of Petascale data: Equity as a Tide that Lifts All Boats

Author

Panta, Aashish, Huang, Xuan, McCurdy, Nina, Ellsworth, David, Gooch, Amy, Scorzelli, Giorgio, Torres, Hector, Klein, Patrice, Ovando-Montejo, Gustavo, and Pascucci, Valerio

Subjects
Computer Science - Human-Computer Interaction
Abstract

Scientists generate petabytes of data daily to help uncover environmental trends or behaviors that are hard to predict. For example, understanding climate simulations based on the long-term average of temperature, precipitation, and other environmental variables is essential to predicting and establishing root causes of future undesirable scenarios and assessing possible mitigation strategies. While supercomputer centers provide a powerful infrastructure for generating petabytes of simulation output, accessing and analyzing these datasets interactively remains challenging on multiple fronts. This paper presents an approach to managing, visualizing, and analyzing petabytes of data within a browser on equipment ranging from the top NASA supercomputer to commodity hardware like a laptop. Our novel data fabric abstraction layer allows user-friendly querying of scientific information while hiding the complexities of dealing with file systems or cloud services. We also optimize network utilization while streaming from petascale repositories through state-of-the-art progressive compression algorithms. Based on this abstraction, we provide customizable dashboards that can be accessed from any device with any internet connection, enabling interactive visual analysis of vast amounts of data to a wide range of users - from top scientists with access to leadership-class computing environments to undergraduate students of disadvantaged backgrounds from minority-serving institutions. We focus on NASA's use of petascale climate datasets as an example of particular societal impact and, therefore, a case where achieving equity in science participation is critical. We further validate our approach by deploying the dashboards and simplified training materials in the classroom at a minority-serving institution., Comment: 11 pages, 12 figures, conference paper

Published
2024

6. Large positive magnetoconductance in carbon nanoscrolls

Author

Zhong, Yu-Jie, Huang, Xuan-Fu, Chen, Ting-Zhen, Zhang, Jia-Ren, Li, Jia-Cheng, Huang, Angus, Hsu, Hsiu-Chuan, Ortix, Carmine, and Chang, Ching-Hao

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Materials Science, Quantum Physics
Abstract

We theoretically demonstrate that carbon nanoscrolls -- spirally wrapped graphene layers with open endpoints -- can be characterized by a large positive magnetoconductance. We show that when a carbon nanoscroll is subject to an axial magnetic field of ~ 10T, the ballistic conductance at low carrier densities of the nanoscroll has an increase of about 200%. Importantly, we find that this positive magnetoconductance is not only preserved but can be even enhanced in the presence of on-site disorder. We prove that the positive magnetoconductance comes about the emergence of magnetic field-induced zero energy modes, specific of rolled-up geometries. Our results establish curved graphene systems as a new material platform displaying sizable magnetoresistive phenomena., Comment: 13 pages, 4 figures

Published
2024

7. DSNet: A Novel Way to Use Atrous Convolutions in Semantic Segmentation

Author

Guo, Zilu, Bian, Liuyang, Huang, Xuan, Wei, Hu, Li, Jingyu, and Ni, Huasheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Atrous convolutions are employed as a method to increase the receptive field in semantic segmentation tasks. However, in previous works of semantic segmentation, it was rarely employed in the shallow layers of the model. We revisit the design of atrous convolutions in modern convolutional neural networks (CNNs), and demonstrate that the concept of using large kernels to apply atrous convolutions could be a more powerful paradigm. We propose three guidelines to apply atrous convolutions more efficiently. Following these guidelines, we propose DSNet, a Dual-Branch CNN architecture, which incorporates atrous convolutions in the shallow layers of the model architecture, as well as pretraining the nearly entire encoder on ImageNet to achieve better performance. To demonstrate the effectiveness of our approach, our models achieve a new state-of-the-art trade-off between accuracy and speed on ADE20K, Cityscapes and BDD datasets. Specifically, DSNet achieves 40.0% mIOU with inference speed of 179.2 FPS on ADE20K, and 80.4% mIOU with speed of 81.9 FPS on Cityscapes. Source code and models are available at Github: https://github.com/takaniwa/DSNet.

Published
2024

8. Soar: Design and Deployment of A Smart Roadside Infrastructure System for Autonomous Driving

Author

Shi, Shuyao, Ling, Neiwen, Jiang, Zhehao, Huang, Xuan, He, Yuze, Zhao, Xiaoguang, Yang, Bufang, Bian, Chen, Xia, Jingfei, Yan, Zhenyu, Yeung, Raymond, and Xing, Guoliang

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Machine Learning
Abstract

Recently,smart roadside infrastructure (SRI) has demonstrated the potential of achieving fully autonomous driving systems. To explore the potential of infrastructure-assisted autonomous driving, this paper presents the design and deployment of Soar, the first end-to-end SRI system specifically designed to support autonomous driving systems. Soar consists of both software and hardware components carefully designed to overcome various system and physical challenges. Soar can leverage the existing operational infrastructure like street lampposts for a lower barrier of adoption. Soar adopts a new communication architecture that comprises a bi-directional multi-hop I2I network and a downlink I2V broadcast service, which are designed based on off-the-shelf 802.11ac interfaces in an integrated manner. Soar also features a hierarchical DL task management framework to achieve desirable load balancing among nodes and enable them to collaborate efficiently to run multiple data-intensive autonomous driving applications. We deployed a total of 18 Soar nodes on existing lampposts on campus, which have been operational for over two years. Our real-world evaluation shows that Soar can support a diverse set of autonomous driving applications and achieve desirable real-time performance and high communication reliability. Our findings and experiences in this work offer key insights into the development and deployment of next-generation smart roadside infrastructure and autonomous driving systems.

Published
2024

12. 3D Visibility-aware Generalizable Neural Radiance Fields for Interacting Hands

Author

Huang, Xuan, Li, Hanhui, Yang, Zejun, Wang, Zhisheng, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Neural radiance fields (NeRFs) are promising 3D representations for scenes, objects, and humans. However, most existing methods require multi-view inputs and per-scene training, which limits their real-life applications. Moreover, current methods focus on single-subject cases, leaving scenes of interacting hands that involve severe inter-hand occlusions and challenging view variations remain unsolved. To tackle these issues, this paper proposes a generalizable visibility-aware NeRF (VA-NeRF) framework for interacting hands. Specifically, given an image of interacting hands as input, our VA-NeRF first obtains a mesh-based representation of hands and extracts their corresponding geometric and textural features. Subsequently, a feature fusion module that exploits the visibility of query points and mesh vertices is introduced to adaptively merge features of both hands, enabling the recovery of features in unseen areas. Additionally, our VA-NeRF is optimized together with a novel discriminator within an adversarial learning paradigm. In contrast to conventional discriminators that predict a single real/fake label for the synthesized image, the proposed discriminator generates a pixel-wise visibility map, providing fine-grained supervision for unseen areas and encouraging the VA-NeRF to improve the visual quality of synthesized images. Experiments on the Interhand2.6M dataset demonstrate that our proposed VA-NeRF outperforms conventional NeRFs significantly. Project Page: \url{https://github.com/XuanHuang0/VANeRF}., Comment: Accepted by AAAI-24

Published
2024

13. Efficient Multi-scale Network with Learnable Discrete Wavelet Transform for Blind Motion Deblurring

Author

Gao, Xin, Qiu, Tianheng, Zhang, Xinyu, Bai, Hanlin, Liu, Kang, Huang, Xuan, Wei, Hu, Zhang, Guoying, and Liu, Huaping

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Coarse-to-fine schemes are widely used in traditional single-image motion deblur; however, in the context of deep learning, existing multi-scale algorithms not only require the use of complex modules for feature fusion of low-scale RGB images and deep semantics, but also manually generate low-resolution pairs of images that do not have sufficient confidence. In this work, we propose a multi-scale network based on single-input and multiple-outputs(SIMO) for motion deblurring. This simplifies the complexity of algorithms based on a coarse-to-fine scheme. To alleviate restoration defects impacting detail information brought about by using a multi-scale architecture, we combine the characteristics of real-world blurring trajectories with a learnable wavelet transform module to focus on the directional continuity and frequency features of the step-by-step transitions between blurred images to sharp images. In conclusion, we propose a multi-scale network with a learnable discrete wavelet transform (MLWNet), which exhibits state-of-the-art performance on multiple real-world deblurred datasets, in terms of both subjective and objective quality as well as computational efficiency.

Published
2023

14. Monocular 3D Hand Mesh Recovery via Dual Noise Estimation

Author

Li, Hanhui, Lin, Xiaojian, Huang, Xuan, Yang, Zejun, Wang, Zhisheng, and Liang, Xiaodan

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Current parametric models have made notable progress in 3D hand pose and shape estimation. However, due to the fixed hand topology and complex hand poses, current models are hard to generate meshes that are aligned with the image well. To tackle this issue, we introduce a dual noise estimation method in this paper. Given a single-view image as input, we first adopt a baseline parametric regressor to obtain the coarse hand meshes. We assume the mesh vertices and their image-plane projections are noisy, and can be associated in a unified probabilistic model. We then learn the distributions of noise to refine mesh vertices and their projections. The refined vertices are further utilized to refine camera parameters in a closed-form manner. Consequently, our method obtains well-aligned and high-quality 3D hand meshes. Extensive experiments on the large-scale Interhand2.6M dataset demonstrate that the proposed method not only improves the performance of its baseline by more than 10$\%$ but also achieves state-of-the-art performance. Project page: \url{https://github.com/hanhuili/DNE4Hand}., Comment: Accepted by AAAI-24

Published
2023

19. Cyclic Fusion of Measuring Information in Curved Elastomer Contact via Vision-Based Tactile Sensing

Author

Li, Zilan, Zou, Zhibin, Xu, Weiliang, Zhou, Yuanzhi, Zhou, Guoyuan, Huang, Muxing, Huang, Xuan, and Li, Xinming

Subjects
Computer Science - Robotics
Abstract

Using elastomer deformation to measure object surface features in tactile sensing is effective, as it captures microscale deformations through densely arranged optical imaging sensors that detect subtle data variations. To enable continuous contact recognition, elastomers are crafted with curved surfaces to adjust to changes in the contact area. However, this design leads to uneven deformations, distorting tactile images and inaccurately reflecting the true elastomer deformations. This inconsistency considerably reduces the utility of the tactile data. In this work, we propose a cyclic fusion strategy for vision-based tactile sensing for precise contact data extraction and shape feature integration at the pixel level. Utilizing frequency domain fusion, the system merges topography as indicated by elastomer deformation, enhancing information content by over 40% and preserving structural consistency. Further, this system could effectively extract and summarize micro-scale contact features, using neural networks to achieve a detection mAP of 90.90% and classification accuracy of 99.83%. Using this strategy, the measurement minimizes data interference, accurately depicting object morphology on tactile images and enhancing tactile sensation restoration.

Published
2023

24. A Cloud-Based Sign Language Translation System via CNN with Smart Glasses

Author

Zhao, Siwei, Wang, Jun, Sato, Kiminori, Wu, Bo, Huang, Xuan, Goos, Gerhard, Founding 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, Jin, Hai, editor, Yu, Zhiwen, editor, Yu, Chen, editor, Zhou, Xiaokang, editor, Lu, Zeguang, editor, and Song, Xianhua, editor

Published
2024
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25. A Smart Glasses-Based Real-Time Micro-expressions Recognition System via Deep Neural Network

Author

Xiong, Siyu, Huang, Xuan, Sato, Kiminori, Wu, Bo, Goos, Gerhard, Founding 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, Jin, Hai, editor, Yu, Zhiwen, editor, Yu, Chen, editor, Zhou, Xiaokang, editor, Lu, Zeguang, editor, and Song, Xianhua, editor

Published
2024
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30. Adversarial Attacks on ASR Systems: An Overview

Author

Zhang, Xiao, Tan, Hao, Huang, Xuan, Zhang, Denghui, Tang, Keke, and Gu, Zhaoquan

Subjects
Computer Science - Sound, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Cryptography and Security, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

With the development of hardware and algorithms, ASR(Automatic Speech Recognition) systems evolve a lot. As The models get simpler, the difficulty of development and deployment become easier, ASR systems are getting closer to our life. On the one hand, we often use APPs or APIs of ASR to generate subtitles and record meetings. On the other hand, smart speaker and self-driving car rely on ASR systems to control AIoT devices. In past few years, there are a lot of works on adversarial examples attacks against ASR systems. By adding a small perturbation to the waveforms, the recognition results make a big difference. In this paper, we describe the development of ASR system, different assumptions of attacks, and how to evaluate these attacks. Next, we introduce the current works on adversarial examples attacks from two attack assumptions: white-box attack and black-box attack. Different from other surveys, we pay more attention to which layer they perturb waveforms in ASR system, the relationship between these attacks, and their implementation methods. We focus on the effect of their works.

Published
2022

44. Diagnosis and treatment of anterior cruciate ligament injuries: Consensus of Chinese experts part II: Graft selection and clinical outcome evaluation

Author

Chen, Tianwu, Bai, Xizhuang, Bai, Lunhao, Chan, Wai Sin, Chen, Shiyi, Chen, Chen, Chen, Jiwu, Chen, Liaobin, Dai, Guofeng, Gao, Zhizeng, Guo, Yang, Hu, Yong, Hu, Ning, Huang, Huayang, Huang, Xunwu, Huang, Xuan, Huang, Jingmin, Kang, Yifan, Lee, Hung Maan, Li, Hongyun, Li, Yunxia, Li, Jin, Li, Kuanxin, Li, Yanlin, Li, Jian, Li, Qi, Lin, Ruixin, Liu, Xinwei, Liu, Ning, Lü, Wei, Lü, Hongbin, Ma, Xiaogang, Mi, Kun, Qi, Zhiming, Sun, Luning, Tao, Jun, Teng, Xueren, Wang, Xuesong, Wang, Jianquan, Wang, Kai, Wang, Fei, Wang, Hong, Wang, Weiming, Wu, Meng, Xia, Yayi, Xing, Gengyan, Xu, Weidong, Xu, Youjia, Yin, Kun, You, Hongbo, Yu, Jia-Kuo, Yung, Patrick, Zhang, Hui, Zhang, Xinghuo, Zhang, Xintao, Zhang, Chunli, Zhang, Wentao, Zhang, Weiguo, Zhang, Yufei, Zhang, Keyuan, Zhang, Yadong, Zhang, Lei, Zhao, Qichun, Zheng, Jiapeng, Zhou, Jingbin, Zhou, Liwu, and Xu, Yongsheng

Published
2024
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