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5,238 results on '"Song, Liang"'

1. Extracting and Transferring Abilities For Building Multi-lingual Ability-enhanced Large Language Models

Author

Chen, Zhipeng, Song, Liang, Zhou, Kun, Zhao, Wayne Xin, Wang, Bingning, Chen, Weipeng, and Wen, Ji-Rong

Subjects
Computer Science - Computation and Language
Abstract

Multi-lingual ability transfer has become increasingly important for the broad application of large language models (LLMs). Existing work highly relies on training with the multi-lingual ability-related data, which may be not available for low-resource languages. To solve it, we propose a Multi-lingual Ability Extraction and Transfer approach, named as MAET. Our key idea is to decompose and extract language-agnostic ability-related weights from LLMs, and transfer them across different languages by simple addition and subtraction operations without training. Specially, our MAET consists of the extraction and transfer stages. In the extraction stage, we firstly locate key neurons that are highly related to specific abilities, and then employ them to extract the transferable ability-specific weights. In the transfer stage, we further select the ability-related parameter tensors, and design the merging strategy based on the linguistic and ability specific weights, to build the multi-lingual ability-enhanced LLM. To demonstrate the effectiveness of our proposed approach, we conduct extensive experiments on mathematical and scientific tasks in both high-resource lingual and low-resource lingual scenarios. Experiment results have shown that MAET can effectively and efficiently extract and transfer the advanced abilities, and outperform training-based baseline methods. Our code and data are available at \url{https://github.com/RUCAIBox/MAET}., Comment: 18 Pages. Working in progress

Published
2024

2. End-Cloud Collaboration Framework for Advanced AI Customer Service in E-commerce

Author

Teng, Liangyu, Liu, Yang, Liu, Jing, and Song, Liang

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Artificial Intelligence, Computer Science - Computation and Language, Computer Science - Machine Learning
Abstract

In recent years, the e-commerce industry has seen a rapid increase in the demand for advanced AI-driven customer service solutions. Traditional cloud-based models face limitations in terms of latency, personalized services, and privacy concerns. Furthermore, end devices often lack the computational resources to deploy large AI models effectively. In this paper, we propose an innovative End-Cloud Collaboration (ECC) framework for advanced AI customer service in e-commerce. This framework integrates the advantages of large cloud models and mid/small-sized end models by deeply exploring the generalization potential of cloud models and effectively utilizing the computing power resources of terminal chips, alleviating the strain on computing resources to some extent. Specifically, the large cloud model acts as a teacher, guiding and promoting the learning of the end model, which significantly reduces the end model's reliance on large-scale, high-quality data and thereby addresses the data bottleneck in traditional end model training, offering a new paradigm for the rapid deployment of industry applications. Additionally, we introduce an online evolutive learning strategy that enables the end model to continuously iterate and upgrade based on guidance from the cloud model and real-time user feedback. This strategy ensures that the model can flexibly adapt to the rapid changes in application scenarios while avoiding the uploading of sensitive information by performing local fine-tuning, achieving the dual goals of privacy protection and personalized service. %We make systematic contributions to the customized model fine-tuning methods in the e-commerce domain. To conclude, we implement in-depth corpus collection (e.g., data organization, cleaning, and preprocessing) and train an ECC-based industry-specific model for e-commerce customer service., Comment: Accepted by 2024 IEEE 10th World Forum on Internet of Things (WF-IoT)

Published
2024

3. Global solutions to 3D quadratic nonlinear Schr\'odinger-type equation

Author

Guo, Zihua, Liu, Naijia, and Song, Liang

Subjects
Mathematics - Analysis of PDEs, 35Q53, 35Q55, 35E15
Abstract

We consider the Cauchy problem to the 3D fractional Schr\"odinger equation with quadratic interaction of $u\bar u$ type. We prove the global existence of solutions and scattering properties for small initial data. For the proof, one novelty is that we combine the normal form methods and the space-time resonance methods. Using the normal form transform enables us more flexibilities in designing the resolution spaces so that we can control various interactions. It is also convenient for the final data problem.

Published
2024

4. Tur\'an-Type Inequalities for Gaussian Hypergeometric Functions, and Baricz's Conjecture

Author

Qiu, Song-Liang, Ma, Xiao-Yan, and Xiang, Xue-Yan

Subjects
Mathematics - Classical Analysis and ODEs, 33Co5, 33C75
Abstract

In 2007, \'A. Baricz put forward a conjecture concerning Tur\'an-type inequalities for Gaussian hypergeometric functions (see Conjecture \ref{ConjA} in Section \ref{Sec1}). In this paper, the authors disprove this conjecture with several methods, and present Tur\'an-type double inequalities for Gaussian hypergeometric functions, and sharp bounds for complete and generalized elliptic integrals of the first kind., Comment: 23 pages

Published
2024

5. Explain EEG-based End-to-end Deep Learning Models in the Frequency Domain

Author

Wang, Hanqi, Yang, Kun, Zhang, Jingyu, Chen, Tao, and Song, Liang

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

The recent rise of EEG-based end-to-end deep learning models presents a significant challenge in elucidating how these models process raw EEG signals and generate predictions in the frequency domain. This challenge limits the transparency and credibility of EEG-based end-to-end models, hindering their application in security-sensitive areas. To address this issue, we propose a mask perturbation method to explain the behavior of end-to-end models in the frequency domain. Considering the characteristics of EEG data, we introduce a target alignment loss to mitigate the out-of-distribution problem associated with perturbation operations. Additionally, we develop a perturbation generator to define perturbation generation in the frequency domain. Our explanation method is validated through experiments on multiple representative end-to-end deep learning models in the EEG decoding field, using an established EEG benchmark dataset. The results demonstrate the effectiveness and superiority of our method, and highlight its potential to advance research in EEG-based end-to-end models.

Published
2024

6. MetaGPT: Merging Large Language Models Using Model Exclusive Task Arithmetic

Author

Zhou, Yuyan, Song, Liang, Wang, Bingning, and Chen, Weipeng

Subjects
Computer Science - Computation and Language
Abstract

The advent of large language models (LLMs) like GPT-4 has catalyzed the exploration of multi-task learning (MTL), in which a single model demonstrates proficiency across diverse tasks. Task arithmetic has emerged as a cost-effective approach for MTL. It enables performance enhancement across multiple tasks by adding their corresponding task vectors to a pre-trained model. However, the current lack of a method that can simultaneously achieve optimal performance, computational efficiency, and data privacy limits their application to LLMs. In this paper, we propose \textbf{M}odel \textbf{E}xclusive \textbf{T}ask \textbf{A}rithmetic for merging \textbf{GPT}-scale models, which formalizes the objective of model merging into a multi-task learning framework, aiming to minimize the average loss difference between the merged model and each individual task model. Since data privacy limits the use of multi-task training data, we leverage LLMs' local linearity and task vectors' orthogonality to separate the data term and scaling coefficients term and derive a model-exclusive task arithmetic method. Our proposed MetaGPT is data-agnostic and bypasses the heavy search process, making it cost-effective and easy to implement for LLMs.Extensive experiments demonstrate that MetaGPT leads to improvements in task arithmetic and achieves state-of-the-art performance on multiple tasks., Comment: 19 pages

Published
2024

7. Networking Systems for Video Anomaly Detection: A Tutorial and Survey

Author

Liu, Jing, Liu, Yang, Lin, Jieyu, Li, Jielin, Cao, Liang, Sun, Peng, Hu, Bo, Song, Liang, Boukerche, Azzedine, and Leung, Victor C. M.

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

The increasing utilization of surveillance cameras in smart cities, coupled with the surge of online video applications, has heightened concerns regarding public security and privacy protection, which propelled automated Video Anomaly Detection (VAD) into a fundamental research task within the Artificial Intelligence (AI) community. With the advancements in deep learning and edge computing, VAD has made significant progress and advances synergized with emerging applications in smart cities and video internet, which has moved beyond the conventional research scope of algorithm engineering to deployable Networking Systems for VAD (NSVAD), a practical hotspot for intersection exploration in the AI, IoVT, and computing fields. In this article, we delineate the foundational assumptions, learning frameworks, and applicable scenarios of various deep learning-driven VAD routes, offering an exhaustive tutorial for novices in NSVAD. This article elucidates core concepts by reviewing recent advances and typical solutions and aggregating available research resources accessible at https://github.com/fdjingliu/NSVAD. Additionally, we showcase our latest NSVAD research in industrial IoT and smart cities, along with an end-cloud collaborative architecture for deployable NSVAD. Lastly, this article projects future development trends and discusses how the integration of AI and computing technologies can address existing research challenges and promote open opportunities, serving as an insightful guide for prospective researchers and engineers., Comment: Revised to ACM Computing Surveys, under review, for more information and supplementary material, please see https://github.com/fdjingliu/NSVAD

Published
2024

8. Cascaded Self-supervised Learning for Subject-independent EEG-based Emotion Recognition

Author

Wang, Hanqi, Chen, Tao, and Song, Liang

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

EEG-based Emotion recognition holds significant promise for applications in human-computer interaction, medicine, and neuroscience. While deep learning has shown potential in this field, current approaches usually rely on large-scale high-quality labeled datasets, limiting the performance of deep learning. Self-supervised learning offers a solution by automatically generating labels, but its inter-subject generalizability remains under-explored. For this reason, our interest lies in offering a self-supervised learning paradigm with better inter-subject generalizability. Inspired by recent efforts in combining low-level and high-level tasks in deep learning, we propose a cascaded self-supervised architecture for EEG emotion recognition. Then, we introduce a low-level task, time-to-frequency reconstruction (TFR). This task leverages the inherent time-frequency relationship in EEG signals. Our architecture integrates it with the high-level contrastive learning modules, performing self-supervised learning for EEG-based emotion recognition. Experiment on DEAP and DREAMER datasets demonstrates superior performance of our method over similar works. The outcome results also highlight the indispensability of the TFR task and the robustness of our method to label scarcity, validating the effectiveness of the proposed method.

Published
2024

18. Introduction

Author

Song, Liang, Chen, Mingsong, Xu, Zhibing, Song, Liang, Chen, Mingsong, and Xu, Zhibing

Published
2025
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21. Spherical maximal functions and Hardy spaces for Fourier integral operators

Author

Ghosh, Abhishek, Liu, Naijia, Rozendaal, Jan, and Song, Liang

Subjects
Mathematics - Classical Analysis and ODEs, Mathematics - Analysis of PDEs, Primary 42B25. Secondary 42B35, 42B37, 58J40
Abstract

We use the Hardy spaces for Fourier integral operators to obtain bounds for spherical maximal functions in $L^{p}(\mathbb{R}^{n})$, $n\geq2$, where the radii of the spheres are restricted to a compact subset of $(0,\infty)$. These bounds extend to general hypersurfaces with non-vanishing Gaussian curvature, to the complex spherical means, and to geodesic spheres on compact manifolds. We also obtain improved maximal function bounds and pointwise convergence statements for wave equations, both on $\mathbb{R}^{n}$ and on compact manifolds. The maximal function bounds are essentially sharp for all $p\in[1,2]\cup [\frac{2(n+1)}{n-1},\infty]$, for each such hypersurface, every complex spherical mean, and on every manifold., Comment: 32 pages. Revised version with additional sharpness statements

Published
2024

23. Align Before Collaborate: Mitigating Feature Misalignment for Robust Multi-agent Perception

Author

Yang, Kun, Yang, Dingkang, Li, Ke, Xiao, Dongling, Shao, Zedian, Sun, Peng, Song, Liang, 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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26. SNI-SLAM: Semantic Neural Implicit SLAM

Author

Zhu, Siting, Wang, Guangming, Blum, Hermann, Liu, Jiuming, Song, Liang, Pollefeys, Marc, and Wang, Hesheng

Subjects
Computer Science - Robotics
Abstract

We propose SNI-SLAM, a semantic SLAM system utilizing neural implicit representation, that simultaneously performs accurate semantic mapping, high-quality surface reconstruction, and robust camera tracking. In this system, we introduce hierarchical semantic representation to allow multi-level semantic comprehension for top-down structured semantic mapping of the scene. In addition, to fully utilize the correlation between multiple attributes of the environment, we integrate appearance, geometry and semantic features through cross-attention for feature collaboration. This strategy enables a more multifaceted understanding of the environment, thereby allowing SNI-SLAM to remain robust even when single attribute is defective. Then, we design an internal fusion-based decoder to obtain semantic, RGB, Truncated Signed Distance Field (TSDF) values from multi-level features for accurate decoding. Furthermore, we propose a feature loss to update the scene representation at the feature level. Compared with low-level losses such as RGB loss and depth loss, our feature loss is capable of guiding the network optimization on a higher-level. Our SNI-SLAM method demonstrates superior performance over all recent NeRF-based SLAM methods in terms of mapping and tracking accuracy on Replica and ScanNet datasets, while also showing excellent capabilities in accurate semantic segmentation and real-time semantic mapping., Comment: Accepted to CVPR 2024

Published
2023

27. Baichuan 2: Open Large-scale Language Models

Author

Yang, Aiyuan, Xiao, Bin, Wang, Bingning, Zhang, Borong, Bian, Ce, Yin, Chao, Lv, Chenxu, Pan, Da, Wang, Dian, Yan, Dong, Yang, Fan, Deng, Fei, Wang, Feng, Liu, Feng, Ai, Guangwei, Dong, Guosheng, Zhao, Haizhou, Xu, Hang, Sun, Haoze, Zhang, Hongda, Liu, Hui, Ji, Jiaming, Xie, Jian, Dai, JunTao, Fang, Kun, Su, Lei, Song, Liang, Liu, Lifeng, Ru, Liyun, Ma, Luyao, Wang, Mang, Liu, Mickel, Lin, MingAn, Nie, Nuolan, Guo, Peidong, Sun, Ruiyang, Zhang, Tao, Li, Tianpeng, Li, Tianyu, Cheng, Wei, Chen, Weipeng, Zeng, Xiangrong, Wang, Xiaochuan, Chen, Xiaoxi, Men, Xin, Yu, Xin, Pan, Xuehai, Shen, Yanjun, Wang, Yiding, Li, Yiyu, Jiang, Youxin, Gao, Yuchen, Zhang, Yupeng, Zhou, Zenan, and Wu, Zhiying

Subjects
Computer Science - Computation and Language
Abstract

Large language models (LLMs) have demonstrated remarkable performance on a variety of natural language tasks based on just a few examples of natural language instructions, reducing the need for extensive feature engineering. However, most powerful LLMs are closed-source or limited in their capability for languages other than English. In this technical report, we present Baichuan 2, a series of large-scale multilingual language models containing 7 billion and 13 billion parameters, trained from scratch, on 2.6 trillion tokens. Baichuan 2 matches or outperforms other open-source models of similar size on public benchmarks like MMLU, CMMLU, GSM8K, and HumanEval. Furthermore, Baichuan 2 excels in vertical domains such as medicine and law. We will release all pre-training model checkpoints to benefit the research community in better understanding the training dynamics of Baichuan 2., Comment: Baichuan 2 technical report. Github: https://github.com/baichuan-inc/Baichuan2

Published
2023

28. SC-NeRF: Self-Correcting Neural Radiance Field with Sparse Views

Author

Song, Liang, Wang, Guangming, Liu, Jiuming, Fu, Zhenyang, Miao, Yanzi, and Hesheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In recent studies, the generalization of neural radiance fields for novel view synthesis task has been widely explored. However, existing methods are limited to objects and indoor scenes. In this work, we extend the generalization task to outdoor scenes, trained only on object-level datasets. This approach presents two challenges. Firstly, the significant distributional shift between training and testing scenes leads to black artifacts in rendering results. Secondly, viewpoint changes in outdoor scenes cause ghosting or missing regions in rendered images. To address these challenges, we propose a geometric correction module and an appearance correction module based on multi-head attention mechanisms. We normalize rendered depth and combine it with light direction as query in the attention mechanism. Our network effectively corrects varying scene structures and geometric features in outdoor scenes, generalizing well from object-level to unseen outdoor scenes. Additionally, we use appearance correction module to correct appearance features, preventing rendering artifacts like blank borders and ghosting due to viewpoint changes. By combining these modules, our approach successfully tackles the challenges of outdoor scene generalization, producing high-quality rendering results. When evaluated on four datasets (Blender, DTU, LLFF, Spaces), our network outperforms previous methods. Notably, compared to MVSNeRF, our network improves average PSNR from 19.369 to 25.989, SSIM from 0.838 to 0.889, and reduces LPIPS from 0.265 to 0.224 on Spaces outdoor scenes.

Published
2023

29. A multi-epitope subunit vaccine providing broad cross-protection against diverse serotypes of Streptococcus suis

Author

Jianan Liu, Zhen Zhang, Wanxia Pu, Xinming Pan, Pei Li, Qiankun Bai, Song Liang, Caiying Li, Yong Yu, Huochun Yao, and Jiale Ma

Subjects
Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Streptococcus suis infection represents a major challenge in pig farming and public health due to its zoonotic potential and diverse serotypes, while existing vaccines lack effective cross-protection. This study employed reverse vaccinology and immunoinformatics to identify 8 conserved proteins across 11 prevalent serotypes of S. suis. 16 candidate epitopes were selected to design three multi-epitope antigens against S. suis (designated as MEASs), which fused with a dendritic cell-targeting peptide to improve antigen presentation in host. Purified MEASs displayed favorable cross-reactogenicity against 29 serotype-specific antiserums. Robust humoral and cellular immune responses can be induced by MEAS 1 and MEAS 3 in a mouse model, which provided substantial protection against virulent strains from two different serotypes. In particular, their immune serums exhibited positive opsonization effects within bloodstream and macrophage phagocytosis. Taken together, we identified two promising MEASs with excellent cross-protection, offering potential in preventing S. suis infections in a mouse model.

Published
2024
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30. Learning Causality-inspired Representation Consistency for Video Anomaly Detection

Author

Liu, Yang, Xia, Zhaoyang, Zhao, Mengyang, Wei, Donglai, Wang, Yuzheng, Siao, Liu, Ju, Bobo, Fang, Gaoyun, Liu, Jing, and Song, Liang

Subjects
Computer Science - Multimedia
Abstract

Video anomaly detection is an essential yet challenging task in the multimedia community, with promising applications in smart cities and secure communities. Existing methods attempt to learn abstract representations of regular events with statistical dependence to model the endogenous normality, which discriminates anomalies by measuring the deviations to the learned distribution. However, conventional representation learning is only a crude description of video normality and lacks an exploration of its underlying causality. The learned statistical dependence is unreliable for diverse regular events in the real world and may cause high false alarms due to overgeneralization. Inspired by causal representation learning, we think that there exists a causal variable capable of adequately representing the general patterns of regular events in which anomalies will present significant variations. Therefore, we design a causality-inspired representation consistency (CRC) framework to implicitly learn the unobservable causal variables of normality directly from available normal videos and detect abnormal events with the learned representation consistency. Extensive experiments show that the causality-inspired normality is robust to regular events with label-independent shifts, and the proposed CRC framework can quickly and accurately detect various complicated anomalies from real-world surveillance videos., Comment: Accepted to ACM MM 2023

Published
2023

31. Spatio-Temporal Domain Awareness for Multi-Agent Collaborative Perception

Author

Yang, Kun, Yang, Dingkang, Zhang, Jingyu, Li, Mingcheng, Liu, Yang, Liu, Jing, Wang, Hanqi, Sun, Peng, and Song, Liang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Multi-agent collaborative perception as a potential application for vehicle-to-everything communication could significantly improve the perception performance of autonomous vehicles over single-agent perception. However, several challenges remain in achieving pragmatic information sharing in this emerging research. In this paper, we propose SCOPE, a novel collaborative perception framework that aggregates the spatio-temporal awareness characteristics across on-road agents in an end-to-end manner. Specifically, SCOPE has three distinct strengths: i) it considers effective semantic cues of the temporal context to enhance current representations of the target agent; ii) it aggregates perceptually critical spatial information from heterogeneous agents and overcomes localization errors via multi-scale feature interactions; iii) it integrates multi-source representations of the target agent based on their complementary contributions by an adaptive fusion paradigm. To thoroughly evaluate SCOPE, we consider both real-world and simulated scenarios of collaborative 3D object detection tasks on three datasets. Extensive experiments demonstrate the superiority of our approach and the necessity of the proposed components., Comment: Accepted by ICCV 2023

Published
2023

32. Multi-scale Spatial-temporal Interaction Network for Video Anomaly Detection

Author

Ning, Zhiyuan, Li, Zhangxun, Guo, Zhengliang, Wang, Zile, and Song, Liang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Video Anomaly Detection (VAD) is an essential yet challenging task in signal processing. Since certain anomalies cannot be detected by isolated analysis of either temporal or spatial information, the interaction between these two types of data is considered crucial for VAD. However, current dual-stream architectures either confine this integral interaction to the bottleneck of the autoencoder or introduce anomaly-irrelevant background pixels into the interactive process, hindering the accuracy of VAD. To address these deficiencies, we propose a Multi-scale Spatial-Temporal Interaction Network (MSTI-Net) for VAD. First, to prioritize the detection of moving objects in the scene and harmonize the substantial semantic discrepancies between the two types of data, we propose an Attention-based Spatial-Temporal Fusion Module (ASTFM) as a substitute for the conventional direct fusion. Furthermore, we inject multi-ASTFM-based connections that bridge the appearance and motion streams of the dual-stream network, thus fostering multi-scale spatial-temporal interaction. Finally, to bolster the delineation between normal and abnormal activities, our system records the regular information in a memory module. Experimental results on three benchmark datasets validate the effectiveness of our approach, which achieves AUCs of 96.8%, 87.6%, and 73.9% on the UCSD Ped2, CUHK Avenue, and ShanghaiTech datasets, respectively.

Published
2023

40. The Garnett-Jones Theorem on BMO spaces associated with operators and applications

Author

Chen, Peng, Duong, Xuan Thinh, Li, Ji, Song, Liang, and Yan, Lixin

Subjects
Mathematics - Classical Analysis and ODEs, Mathematics - Analysis of PDEs, 42B35, 42B37, 47F05
Abstract

Let $X$ be a metric space with doubling measure, and $L$ be a nonnegative self-adjoint operator on $L^2(X)$ whose heat kernel satisfies the Gaussian upper bound. Let $f$ be in the space $ {\rm BMO}_L(X)$ associated with the operator $L$ and we define its distance from the subspace $L^{\infty}(X)$ under the $ {\rm BMO}_L(X)$ norm as follows: $$ {\rm dist} (f, L^{\infty}):= \inf_{g\in L^{\infty}} \|f -g\|_{{\rm BMO}_L(X)}. $$ In this paper we prove that ${\rm dist} (f, L^{\infty})$ is equivalent to the infimum of the constant $\varepsilon$ in the John-Nirenberg inequality for the space ${\rm BMO}_L(X)$: $$ \sup_B { \mu\big(\{ x\in B: |f(x)-e^{-{r_B^2}L}f(x)|>\lambda\}\big) \over \mu(B)} \leq e^{-\lambda/\varepsilon}\ \ \ \ {\rm for\ large\ } \lambda. $$ This extends the well-known result of Garnett and Jones \cite{GJ1} for the classical ${\rm BMO}$ space (introduced by John and Nirenberg). As an application, we show that a ${\rm BMO}_L(X)$ function with compact support can be decomposed as the summation of an $L^\infty$-function and the integral of the heat kernel (associated with $L$) against a finite Carleson measure on $X\times[0,\infty)$. The key new technique is a geometric construction involving the semigroup $e^{-tL}$. We also resort to several fundamental tools including the stopping time argument and the random dyadic lattice.

Published
2023

41. Lp bounds for Stein's spherical maximal operators

Author

Liu, Naijia, Shen, Minxing, Song, Liang, and Yan, Lixin

Subjects
Mathematics - Analysis of PDEs, Mathematics - Classical Analysis and ODEs
Abstract

Let ${\frak M}^\alpha$ be the spherical maximal operators of complex order $\alpha$ on ${\mathbb R^n}$. In this article we show that when $n\geq 2$, suppose \begin{eqnarray*} \|{\frak M}^{\alpha} f \|_{L^p({\mathbb R^n})} \leq C\|f \|_{L^p({\mathbb R^n})} \end{eqnarray*} holds for some $\alpha$ and $p\geq 2$, then we must have ${\rm Re}\,\alpha \geq \max \{1/p-(n-1)/2,\ -(n-1)/p \}.$ When $n=2$, we prove that $\|{\frak M}^{\alpha} f \|_{L^p({\mathbb R^2})} \leq C\|f \|_{L^p({\mathbb R^2})}$ if ${\rm Re}\ \ \alpha>\max\{1/p-1/2,\ -1/p\}$, and hence the range of $\alpha$ is sharp in the sense the estimate fails for ${\rm Re}\ \alpha <\max\{1/p-1/2, -1/ p\}.$, Comment: 14 pages

Published
2023

42. Research on the Design of the BNCT Neutron Beam Device Based on the New Pool-Type Research Reactor

Author

Song LIANG, Xiaoliang CHEN, Yajie ZUO, and Jianping XU

Subjects
new pool type research reactor, bnct, epithermal neutron beam, thermal neutron beam, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Based on the design scheme of a new-type swimming pool research reactor,this paper conducts preliminary design for a variable-energy neutron beam facility for boron neutron capture therapy (BNCT). Combining the shielding body and collimator,the neutron moderation layer,thermal neutron absorption layer,gamma shielding layer,and neutron collimator for BNCT are analyzed,calculated,and optimized according to the core structure of the new-type swimming pool reactor. Without increasing the number of neutron extraction beam channels,the switching between epithermal neutron and thermal neutron BNCT beams is achieved. Through theoretical calculations and analysis,the neutron beam characteristics of the two devices are determined. Parameters such as epithermal/thermal neutron flux density,fast neutron dose per unit,photon dose per unit,and the proportion of thermal neutron flux all meet the BNCT recommended reference standards in the IAEA-TECDOC-1223 report,which can be used for boron neutron capture therapy with different energy requirements. This lays a technical foundation for the application and promotion of the new-type multifunctional swimming pool reactor.

Published
2024
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44. A novel efficient Multi-view traffic-related object detection framework

Author

Yang, Kun, Liu, Jing, Yang, Dingkang, Wang, Hanqi, Sun, Peng, Zhang, Yanni, Liu, Yan, and Song, Liang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

With the rapid development of intelligent transportation system applications, a tremendous amount of multi-view video data has emerged to enhance vehicle perception. However, performing video analytics efficiently by exploiting the spatial-temporal redundancy from video data remains challenging. Accordingly, we propose a novel traffic-related framework named CEVAS to achieve efficient object detection using multi-view video data. Briefly, a fine-grained input filtering policy is introduced to produce a reasonable region of interest from the captured images. Also, we design a sharing object manager to manage the information of objects with spatial redundancy and share their results with other vehicles. We further derive a content-aware model selection policy to select detection methods adaptively. Experimental results show that our framework significantly reduces response latency while achieving the same detection accuracy as the state-of-the-art methods., Comment: Accepted by ICASSP 2023

Published
2023

45. Generalized Video Anomaly Event Detection: Systematic Taxonomy and Comparison of Deep Models

Author

Liu, Yang, Yang, Dingkang, Wang, Yan, Liu, Jing, Liu, Jun, Boukerche, Azzedine, Sun, Peng, and Song, Liang

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

Video Anomaly Detection (VAD) serves as a pivotal technology in the intelligent surveillance systems, enabling the temporal or spatial identification of anomalous events within videos. While existing reviews predominantly concentrate on conventional unsupervised methods, they often overlook the emergence of weakly-supervised and fully-unsupervised approaches. To address this gap, this survey extends the conventional scope of VAD beyond unsupervised methods, encompassing a broader spectrum termed Generalized Video Anomaly Event Detection (GVAED). By skillfully incorporating recent advancements rooted in diverse assumptions and learning frameworks, this survey introduces an intuitive taxonomy that seamlessly navigates through unsupervised, weakly-supervised, supervised and fully-unsupervised VAD methodologies, elucidating the distinctions and interconnections within these research trajectories. In addition, this survey facilitates prospective researchers by assembling a compilation of research resources, including public datasets, available codebases, programming tools, and pertinent literature. Furthermore, this survey quantitatively assesses model performance, delves into research challenges and directions, and outlines potential avenues for future exploration., Comment: Accepted by ACM Computing Surveys. For more information, please see our project page: https://github.com/fudanyliu/GVAED

Published
2023

46. Gender differences in postoperative pain, sleep quality, and recovery outcomes in patients undergoing visual thoracoscopic surgery

Author

Hongyu Wang, Man Luo, Yanping Yang, Shiyi Li, Song Liang, Ran Xu, Junchao Zhu, and Bijia Song

Subjects
Postoperative sleep quality, Pain, Inflammatory response, Sex difference, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Objective: The purpose of our study was to investigate the effect of gender on postoperative pain, sleep quality, and recovery outcomes in patients undergoing VATS surgery under general anesthesia. Method: Perioperative peripheral blood inflammatory markers system inflammation Index (SII) was recorded for perioperative inflammatory response. The visual analog scale (VAS) was used to evaluate pain level. And the Athens Insomnia Scale (AIS) was evaluated on the night before surgery (sleep preop 1), the first night after surgery (sleep POD 1), and the third night after surgery (sleep POD 3) for postoperative sleep. Result: In this prospective cohort study, 79 males and 79 females were consecutively included. Females had significantly higher pain score (both rest and cough pain) compared to the males at 3 h after the surgery (3.85 ± 1.2 vs. 3.16 ± 1.1) (rest) (p

Published
2024
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47. Chloroplast mini-barcodes combined with high resolution melting analysis to identify herbal medicine Difengpi (Illicium difengpi)

Author

Qian-Ru Zhou, Yun-Ying Ma, Hu-Qiang Lv, Zhao-Cen Lu, Li-Sheng Wang, Jun-Song Liang, and Jing-Jian Li

Subjects
Herbal medicine safety, Illicium difengpi, Chloroplast genome, Mini-barcode, HRM assay, Species identification, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Difengpi, derived from the air-dried stem bark of Illicium difengpi and enlisted in the Chinese Pharmacopoeia for its therapeutic effect against common ailments, confronts challenges due to dwindling wild resources and intentional substitution with potentially harmful botanical relatives. The imperative need to authenticate this herbal remedy has led to the development of robust methods. Here, we integrated chloroplast mini-barcoding and high resolution melting (HRM) analysis to distinguish Difengpi from the reported adulterants. We assembled the complete chloroplast (cp) genomes of I. difengpi and substituted close relatives I. jiadifengpi and I. majus, and conducted an in-depth comparative analysis to screen divergent regions for exploiting as DNA mini-barcodes. Despite the conservativeness characterizing the whole cp genomes among these Illicium species, we identified some highly variable regions with promising potential as molecular markers for species identification. Subsequently, we designed DNA mini-barcodes and subjected them to HRM analysis to assess their efficacy in species discrimination. Melting profiles unveiled that mini-barcodes designed from four divergence regions trnL–trnF, trnF–ndhJ, ycf1–ndhF and rpl32–trnL exhibited substantial discriminatory power, distinctly differentiated I. difengpi from I. jiadifengpi, I. majus and I. verum. We tested ten commercially available Difengpi products from online stores and local traditional markets using these four mini-barcodes. All ten samples clustered closely with the reference I. difengpi with genotype confidence higher than 93 %, indicating the presence of the claimed species in these samples, sans any reported toxic adulterants. Consequently, we simulated Difengpi mimic samples utilizing I. jiadifengpi, I. majus and I. verum and subjected them to evaluate the practicability of these mini-barcodes. The outcomes confirmed the precision of the four mini-barcodes in accurately discerning the mimic samples. In conclusion, integrating taxon-specific DNA mini-barcodes with HRM analysis is an efficient strategy for the authentication of species identity within commercial herbal products.

Published
2024
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50. A Multi-Agent Service Migration Algorithm for Mobile Edge Computing with Diversified Services

Author

Chen, Jining, Liao, Linbo, Lai, Yongxuan, Song, Liang, Yang, Fan, 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, Zhang, Wenjie, editor, Tung, Anthony, editor, Zheng, Zhonglong, editor, Yang, Zhengyi, editor, Wang, Xiaoyang, editor, and Guo, Hongjie, editor

Published
2024
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