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593 results on '"Li, Peiyang"'

1. LinBridge: A Learnable Framework for Interpreting Nonlinear Neural Encoding Models

Author

Gao, Xiaohui, Cheng, Yue, Li, Peiyang, Niu, Yijie, Ren, Yifan, Liu, Yiheng, Sun, Haiyang, Li, Zhuoyi, Xing, Weiwei, and Hu, Xintao

Subjects
Quantitative Biology - Neurons and Cognition, Computer Science - Computation and Language
Abstract

Neural encoding of artificial neural networks (ANNs) links their computational representations to brain responses, offering insights into how the brain processes information. Current studies mostly use linear encoding models for clarity, even though brain responses are often nonlinear. This has sparked interest in developing nonlinear encoding models that are still interpretable. To address this problem, we propose LinBridge, a learnable and flexible framework based on Jacobian analysis for interpreting nonlinear encoding models. LinBridge posits that the nonlinear mapping between ANN representations and neural responses can be factorized into a linear inherent component that approximates the complex nonlinear relationship, and a mapping bias that captures sample-selective nonlinearity. The Jacobian matrix, which reflects output change rates relative to input, enables the analysis of sample-selective mapping in nonlinear models. LinBridge employs a self-supervised learning strategy to extract both the linear inherent component and nonlinear mapping biases from the Jacobian matrices of the test set, allowing it to adapt effectively to various nonlinear encoding models. We validate the LinBridge framework in the scenario of neural visual encoding, using computational visual representations from CLIP-ViT to predict brain activity recorded via functional magnetic resonance imaging (fMRI). Our experimental results demonstrate that: 1) the linear inherent component extracted by LinBridge accurately reflects the complex mappings of nonlinear neural encoding models; 2) the sample-selective mapping bias elucidates the variability of nonlinearity across different levels of the visual processing hierarchy. This study presents a novel tool for interpreting nonlinear neural encoding models and offers fresh evidence about hierarchical nonlinearity distribution in the visual cortex., Comment: 9 pages of main text, 23 pages total, submitted to ICLR 2025 and currently under review

Published
2024

2. Governing equation discovery of a complex system from snapshots

Author

Zhu, Qunxi, Zhao, Bolin, Zhang, Jingdong, Li, Peiyang, and Lin, Wei

Subjects
Computer Science - Machine Learning, Mathematics - Dynamical Systems, Physics - Computational Physics
Abstract

Complex systems in physics, chemistry, and biology that evolve over time with inherent randomness are typically described by stochastic differential equations (SDEs). A fundamental challenge in science and engineering is to determine the governing equations of a complex system from snapshot data. Traditional equation discovery methods often rely on stringent assumptions, such as the availability of the trajectory information or time-series data, and the presumption that the underlying system is deterministic. In this work, we introduce a data-driven, simulation-free framework, called Sparse Identification of Differential Equations from Snapshots (SpIDES), that discovers the governing equations of a complex system from snapshots by utilizing the advanced machine learning techniques to perform three essential steps: probability flow reconstruction, probability density estimation, and Bayesian sparse identification. We validate the effectiveness and robustness of SpIDES by successfully identifying the governing equation of an over-damped Langevin system confined within two potential wells. By extracting interpretable drift and diffusion terms from the SDEs, our framework provides deeper insights into system dynamics, enhances predictive accuracy, and facilitates more effective strategies for managing and simulating stochastic systems.

Published
2024

3. Energy spectrum of two-dimensional isotropic rapidly rotating turbulence

Author

Li, Peiyang and Xie, Jin-Han

Subjects
Physics - Fluid Dynamics
Abstract

We study a two-dimensional isotropic rotating system and obtain both theoretically and numerically a $K^{-2}$ energy spectrum under the rapidly rotating condition ($Ro\ll 1$), which was initially obtained by Zeman (1994) and Zhou (1995). In rotating turbulence, the $K^{-2}$ energy spectrum was proposed under the assumption of isotropy, however, the direction selectivity of rotation breaks isotropy, making this $K^{-2}$ spectrum not easily observable. To fill the gap between theoretical assumptions and realizability, we study the turbulence of inertial waves in an artificial two-dimensional isotropic rotating turbulence system. In the limit of a small Rossby number, we asymptotically derive a nonlinear amplitude equation for inertial waves, which gives the $K^{-2}$ spectrum using a strong turbulence argument. This scaling is justified by numerical simulations of both the amplitude equation and the original system.

Published
2024

4. P/D-Serve: Serving Disaggregated Large Language Model at Scale

Author

Jin, Yibo, Wang, Tao, Lin, Huimin, Song, Mingyang, Li, Peiyang, Ma, Yipeng, Shan, Yicheng, Yuan, Zhengfan, Li, Cailong, Sun, Yajing, Wu, Tiandeng, Chu, Xing, Huan, Ruizhi, Ma, Li, You, Xiao, Zhou, Wenting, Ye, Yunpeng, Liu, Wen, Xu, Xiangkun, Zhang, Yongsheng, Dong, Tiantian, Zhu, Jiawei, Wang, Zhe, Ju, Xijian, Song, Jianxun, Cheng, Haoliang, Li, Xiaojing, Ding, Jiandong, Guo, Hefei, and Zhang, Zhengyong

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

Serving disaggregated large language models (LLMs) over tens of thousands of xPU devices (GPUs or NPUs) with reliable performance faces multiple challenges. 1) Ignoring the diversity (various prefixes and tidal requests), treating all the prompts in a mixed pool is inadequate. To facilitate the similarity per scenario and minimize the inner mismatch on P/D (prefill and decoding) processing, fine-grained organization is required, dynamically adjusting P/D ratios for better performance. 2) Due to inaccurate estimation on workload (queue status or maintained connections), the global scheduler easily incurs unnecessary timeouts in prefill. 3) Block-fixed device-to-device (D2D) KVCache transfer over cluster-level RDMA (remote direct memory access) fails to achieve desired D2D utilization as expected. To overcome previous problems, this paper proposes an end-to-end system P/D-Serve, complying with the paradigm of MLOps (machine learning operations), which models end-to-end (E2E) P/D performance and enables: 1) fine-grained P/D organization, mapping the service with RoCE (RDMA over converged ethernet) as needed, to facilitate similar processing and dynamic adjustments on P/D ratios; 2) on-demand forwarding upon rejections for idle prefill, decoupling the scheduler from regular inaccurate reports and local queues, to avoid timeouts in prefill; and 3) efficient KVCache transfer via optimized D2D access. P/D-Serve is implemented upon Ascend and MindSpore, has been deployed over tens of thousands of NPUs for more than eight months in commercial use, and further achieves 60\%, 42\% and 46\% improvements on E2E throughput, time-to-first-token (TTFT) SLO (service level objective) and D2D transfer time. As the E2E system with optimizations, P/D-Serve achieves 6.7x increase on throughput, compared with aggregated LLMs.

Published
2024

5. Risk Taxonomy, Mitigation, and Assessment Benchmarks of Large Language Model Systems

Author

Cui, Tianyu, Wang, Yanling, Fu, Chuanpu, Xiao, Yong, Li, Sijia, Deng, Xinhao, Liu, Yunpeng, Zhang, Qinglin, Qiu, Ziyi, Li, Peiyang, Tan, Zhixing, Xiong, Junwu, Kong, Xinyu, Wen, Zujie, Xu, Ke, and Li, Qi

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

Large language models (LLMs) have strong capabilities in solving diverse natural language processing tasks. However, the safety and security issues of LLM systems have become the major obstacle to their widespread application. Many studies have extensively investigated risks in LLM systems and developed the corresponding mitigation strategies. Leading-edge enterprises such as OpenAI, Google, Meta, and Anthropic have also made lots of efforts on responsible LLMs. Therefore, there is a growing need to organize the existing studies and establish comprehensive taxonomies for the community. In this paper, we delve into four essential modules of an LLM system, including an input module for receiving prompts, a language model trained on extensive corpora, a toolchain module for development and deployment, and an output module for exporting LLM-generated content. Based on this, we propose a comprehensive taxonomy, which systematically analyzes potential risks associated with each module of an LLM system and discusses the corresponding mitigation strategies. Furthermore, we review prevalent benchmarks, aiming to facilitate the risk assessment of LLM systems. We hope that this paper can help LLM participants embrace a systematic perspective to build their responsible LLM systems.

Published
2024

6. Lifting by Image -- Leveraging Image Cues for Accurate 3D Human Pose Estimation

Author

Zhou, Feng, Yin, Jianqin, and Li, Peiyang

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The "lifting from 2D pose" method has been the dominant approach to 3D Human Pose Estimation (3DHPE) due to the powerful visual analysis ability of 2D pose estimators. Widely known, there exists a depth ambiguity problem when estimating solely from 2D pose, where one 2D pose can be mapped to multiple 3D poses. Intuitively, the rich semantic and texture information in images can contribute to a more accurate "lifting" procedure. Yet, existing research encounters two primary challenges. Firstly, the distribution of image data in 3D motion capture datasets is too narrow because of the laboratorial environment, which leads to poor generalization ability of methods trained with image information. Secondly, effective strategies for leveraging image information are lacking. In this paper, we give new insight into the cause of poor generalization problems and the effectiveness of image features. Based on that, we propose an advanced framework. Specifically, the framework consists of two stages. First, we enable the keypoints to query and select the beneficial features from all image patches. To reduce the keypoints attention to inconsequential background features, we design a novel Pose-guided Transformer Layer, which adaptively limits the updates to unimportant image patches. Then, through a designed Adaptive Feature Selection Module, we prune less significant image patches from the feature map. In the second stage, we allow the keypoints to further emphasize the retained critical image features. This progressive learning approach prevents further training on insignificant image features. Experimental results show that our model achieves state-of-the-art performance on both the Human3.6M dataset and the MPI-INF-3DHP dataset., Comment: Accepted by AAAI24

Published
2023

9. Learning from Limited Heterogeneous Training Data: Meta-Learning for Unsupervised Zero-Day Web Attack Detection across Web Domains

Author

Li, Peiyang, Wang, Ye, Li, Qi, Liu, Zhuotao, Xu, Ke, Ren, Ju, Liu, Zhiying, and Lin, Ruilin

Subjects
Computer Science - Cryptography and Security
Abstract

Recently unsupervised machine learning based systems have been developed to detect zero-day Web attacks, which can effectively enhance existing Web Application Firewalls (WAFs). However, prior arts only consider detecting attacks on specific domains by training particular detection models for the domains. These systems require a large amount of training data, which causes a long period of time for model training and deployment. In this paper, we propose RETSINA, a novel meta-learning based framework that enables zero-day Web attack detection across different domains in an organization with limited training data. Specifically, it utilizes meta-learning to share knowledge across these domains, e.g., the relationship between HTTP requests in heterogeneous domains, to efficiently train detection models. Moreover, we develop an adaptive preprocessing module to facilitate semantic analysis of Web requests across different domains and design a multi-domain representation method to capture semantic correlations between different domains for cross-domain model training. We conduct experiments using four real-world datasets on different domains with a total of 293M Web requests. The experimental results demonstrate that RETSINA outperforms the existing unsupervised Web attack detection methods with limited training data, e.g., RETSINA needs only 5-minute training data to achieve comparable detection performance to the existing methods that train separate models for different domains using 1-day training data. We also conduct real-world deployment in an Internet company. RETSINA captures on average 126 and 218 zero-day attack requests per day in two domains, respectively, in one month.

Published
2023

19. Increasing awareness of HIV pre‐exposure prophylaxis (PrEP) and willingness to use HIV PrEP among men who have sex with men: a systematic review and meta‐analysis of global data

Author

Sun, Zhishan, Gu, Qianfei, Dai, Yifan, Zou, Huachun, Agins, Bruce, Chen, Qiaosen, Li, Peiyang, Shen, Junchun, Yang, Yi, and Jiang, Hongbo

Subjects
Public Health, Biomedical and Clinical Sciences, Clinical Sciences, Health Sciences, HIV/AIDS, Sexual and Gender Minorities (SGM/LGBT*), Behavioral and Social Science, Prevention, Infectious Diseases, 3.1 Primary prevention interventions to modify behaviours or promote wellbeing, Prevention of disease and conditions, and promotion of well-being, Infection, Female, HIV Infections, Health Knowledge, Attitudes, Practice, Homosexuality, Male, Humans, Male, Patient Acceptance of Health Care, Pre-Exposure Prophylaxis, Sexual Partners, Sexual and Gender Minorities, men who have sex with men, pre-exposure prophylaxis, awareness, willingness, trend, meta-analysis, Public Health and Health Services, Other Medical and Health Sciences, Clinical sciences, Epidemiology, Public health
Abstract

IntroductionIntegrated knowledge regarding pre-exposure prophylaxis (PrEP) awareness and willingness to use PrEP can be useful for HIV prevention in high incidence groups. This review summarizes the awareness of PrEP and willingness to use PrEP among men who have sex with men (MSM).MethodsOnline electronic databases were searched before 31 August 2021. A meta-analysis was conducted to pool studies analysing PrEP awareness and willingness to use PrEP. LOESS regression and linear regression were applied to fit the trends over time for the proportion of MSM aware of PrEP and willing to use PrEP. Dose-response meta-analysis (DRMA) was conducted by a restricted cubic spline model to explore the relationship between willingness to use PrEP and selected factors.Results and discussionA total of 156 articles involving 228,403 MSM were included. The pooled proportions of MSM aware of PrEP and willing to use PrEP were 50.0 (95% CI: 44.8-55.2) and 58.6% (95% CI: 54.8-62.4), respectively. PrEP awareness varied among countries with different economic status and different WHO regions, among different publication and research years, PrEP types and support policies. PrEP willingness differed among countries with different economic status and groups with different risks of HIV. The awareness of PrEP increased from 2007 to 2019 with a slope of 0.040260 (p

Published
2022

21. OAT: An Optimized Android Testing Framework Based on Reinforcement Learning

Author

Du, Mengjun, Li, Peiyang, Song, Lian, Chan, W. K., Jiang, 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, David, Cristina, editor, and Sun, Meng, editor

Published
2023
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27. Hierarchical emotion-recognition framework based on discriminative brain neural network topology and ensemble co-decision strategy

Author

Li, Cunbo, Li, Peiyang, Zhang, Yangsong, Li, Ning, Si, Yajing, Li, Fali, Yao, Dezhong, and Xu, Peng

Subjects
Quantitative Biology - Neurons and Cognition, Electrical Engineering and Systems Science - Signal Processing
Abstract

Brain neural networks characterize various information propagation patterns for different emotional states. However, the statistical features based on traditional graph theory may ignore the spacial network difference. To reveal these inherent spatial features and increase the stability of emotional recognition, we proposed a hierarchical framework that can perform the multiple emotion recognitions with the multiple emotion-related spatial network topology patterns (MESNP) by combining a supervised learning with ensemble co-decision strategy. To evaluate the performance of our proposed MESNP approach, we conduct both off-line and simulated on-line experiments with two public datasets i.e., MAHNOB and DEAP. The experiment results demonstrated that MESNP can significantly enhance the classification performance for the multiple emotions. The highest accuracies of off-line experiments for MAHNOB-HCI and DEAP achieved 99.93% (3 classes) and 83.66% (4 classes), respectively. For simulated on-line experiments, we also obtained the best classification accuracies with 100% (3 classes) for MAHNOB and 99.22% (4 classes) for DEAP by proposed MESNP. These results further proved the efficiency of MESNP for structured feature extraction in mult-classification emotional task.

Published
2020

30. Verifying the Quality of Outsourced Training on Clouds

Author

Li, Peiyang, Wang, Ye, Liu, Zhuotao, Xu, Ke, Wang, Qian, Shen, Chao, Li, Qi, 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, Atluri, Vijayalakshmi, editor, Di Pietro, Roberto, editor, Jensen, Christian D., editor, and Meng, Weizhi, editor

Published
2022
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36. Stretchable plasmonic metasurfaces for deformation monitoring.

Author

Li, Peiyang, Gao, Kaikai, Ma, Ruize, Pan, Kai, Li, Dong, Liu, Feng, Li, Peng, Gan, Xuetao, Zhao, Jianlin, and Wen, Dandan

Subjects
LASER beams, OPTICAL materials, OPTICAL sensors, POINT cloud, HOLOGRAPHY
Abstract

Metasurfaces have recently gained significant attention due to the strong capacity in light field manipulation. However, most traditional metasurfaces are fabricated on rigid substrates, which fix their functionality after fabrication and limit their applications in dynamic measurement fields. In this work, we designed and fabricated a silver metasurface embedded in a stretchable substrate for sensing applications. This metasurface can generate different point cloud patterns under varying stretch ratios when illuminated by a laser beam. By collecting and analyzing the patterns, we can precisely reconstruct the deformation of the metasurface. Furthermore, the sample exhibits excellent performance under incident light of various wavelengths. These results pave the way for developing microdevices with novel capabilities based on flexible metamaterials. [ABSTRACT FROM AUTHOR]

Published
2024
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37. ITO-Based Electrically Tunable Metasurface for Active Control of Light Transmission.

Author

Ma, Ruize, Mao, Yu, Li, Peiyang, Li, Dong, and Wen, Dandan

Subjects
COMPLEMENTARY metal oxide semiconductors, INDIUM tin oxide, LIGHT transmission, OPTICAL control, OPTICAL properties
Abstract

In recent years, the rapid development of dynamically tunable metasurfaces has provided a new avenue for flexible control of optical properties. This paper introduces a transmission-type electrically tunable metasurface, employing a series of subwavelength-scale silicon (Si) nanoring structures with an intermediate layer of Al2O3-ITO-Al2O3. This design allows the metasurface to induce strong Mie resonance when transverse electric (TE) waves are normally incident. When a bias voltage is applied, the interaction between light and matter is enhanced due to the formation of an electron accumulation layer at the ITO-Al2O3 interface, thereby altering the resonance characteristics of the metasurface. This design not only avoids the absorption loss of metal nanostructures and has a large modulation depth, but also shows compatibility with complementary metal oxide semiconductor (CMOS) technology. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Robot Path Planning Based on Improved RRT Algorithm

Author

Zeng, Xiuyun, Lu, Huacai, Lv, Hefeng, Li, Peiyang, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Han, Qinglong, editor, McLoone, Sean, editor, Peng, Chen, editor, and Zhang, Baolin, editor

Published
2021
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44. Stakeholder efforts to mitigate antiretroviral therapy interruption among people living with HIV during the COVID-19 pandemic in China: a qualitative study

Author

Sun, Yinghui, Zhan, Yuewei, Li, Hui, Yuan, Tanwei, Gao, Yanxiao, Liang, Bowen, Feng, Anping, Li, Peiyang, Zheng, Weiran, Fitzpatrick, Thomas, Wu, Dan, Zhai, Xinyi, and Zou, Huachun

Subjects
Health
Abstract

Introduction: The COVID-19 pandemic has affected antiretroviral therapy (ART) continuity among people living with HIV (PLHIV) worldwide. We conducted a qualitative study to explore barriers to ART maintenance and solutions to ART interruption when stringent COVID-19 control measures were implemented in China, from the perspective of PLHIV and relevant key stakeholders. Methods: Between 11 February and 15 February 2020, we interviewed PLHIV, community-based organization (CBO) workers, staff from centres for disease control and prevention (CDC) at various levels whose work is relevant to HIV care (CDC staff), HIV doctors and nurses and drug vendors from various regions in China. Semi-structured interviews were conducted using a messaging and social media app. Challenges and responses relevant to ART continuity during the COVID-19 pandemic were discussed. Themes were identified by transcript coding and mindmaps. Results: Sixty-four stakeholders were recruited, including 16 PLHIV, 17 CBO workers, 15 CDC staff, 14 HIV doctors and nurses and two drug vendors. Many CDC staff, HIV doctors and nurses responsible for ART delivery and HIV care were shifted to COVID-19 response efforts. Barriers to ART maintenance were (a) travel restrictions, (b) inadequate communication and bureaucratic obstacles, (c) shortage in personnel, (d) privacy concerns, and (e) insufficient ART reserve. CBO helped PLHIV maintain access to ART through five solutions identified from thematic analysis: (a) coordination to refill ART from local CDC clinics or hospitals, (b) delivery of ART by mail, (c) privacy protection measures, (d) mental health counselling, and (e) providing connections to alternative sources of ART. Drug vendors contributed to ART maintenance by selling out-of-pocket ART. Conclusions: Social and institutional disruption from COVID-19 contributed to increased risk of ART interruption among PLHIV in China. Collaboration among key stakeholders was needed to maintain access to ART, with CBO playing an important role. Other countries facing ART interruption during current or future public health emergencies may learn from the solutions employed in China. Keywords: antiretroviral therapy; antiretroviral therapy maintenance; community-based organization; COVID-19; HIV; people living with HIV, 1 INTRODUCTION Access and adherence to antiretroviral therapy (ART) is needed for people living with HIV (PLHIV) to achieve viral suppression, reduce HIV-associated morbidity and mortality, and prevent HIV transmission [...]

Published
2021
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48. Granger Causal Inference Based on Dual Laplacian Distribution and Its Application to MI-BCI Classification

Author

Li, Peiyang, Gao, Xiaohui, Li, Cunbo, Yi, Chanlin, Huang, Weijie, Si, Yajing, Li, Fali, Cao, Zehong, Tian, Yin, and Xu, Peng

Abstract

Granger causality-based effective brain connectivity provides a powerful tool to probe the neural mechanism for information processing and the potential features for brain computer interfaces. However, in real applications, traditional Granger causality is prone to the influence of outliers, such as inevitable ocular artifacts, resulting in unreasonable brain linkages and the failure to decipher inherent cognition states. In this work, motivated by constructing the sparse causality brain networks under the strong physiological outlier noise conditions, we proposed a dual Laplacian Granger causality analysis (DLap-GCA) by imposing Laplacian distributions on both model parameters and residuals. In essence, the first Laplacian assumption on residuals will resist the influence of outliers in electroencephalogram (EEG) on causality inference, and the second Laplacian assumption on model parameters will sparsely characterize the intrinsic interactions among multiple brain regions. Through simulation study, we quantitatively verified its effectiveness in suppressing the influence of complex outliers, the stable capacity for model estimation, and sparse network inference. The application to motor-imagery (MI) EEG further reveals that our method can effectively capture the inherent hemispheric lateralization of MI tasks with sparse patterns even under strong noise conditions. The MI classification based on the network features derived from the proposed approach shows higher accuracy than other existing traditional approaches, which is attributed to the discriminative network structures being captured in a timely manner by DLap-GCA even under the single-trial online condition. Basically, these results consistently show its robustness to the influence of complex outliers and the capability of characterizing representative brain networks for cognition information processing, which has the potential to offer reliable network structures for both cognitive studies and future brain–computer interface (BCI) realization.

Published
2024
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