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2,599 results on '"Li, Mengyao"'

1. Fast Feedforward 3D Gaussian Splatting Compression

Author

Chen, Yihang, Wu, Qianyi, Li, Mengyao, Lin, Weiyao, Harandi, Mehrtash, and Cai, Jianfei

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

With 3D Gaussian Splatting (3DGS) advancing real-time and high-fidelity rendering for novel view synthesis, storage requirements pose challenges for their widespread adoption. Although various compression techniques have been proposed, previous art suffers from a common limitation: for any existing 3DGS, per-scene optimization is needed to achieve compression, making the compression sluggish and slow. To address this issue, we introduce Fast Compression of 3D Gaussian Splatting (FCGS), an optimization-free model that can compress 3DGS representations rapidly in a single feed-forward pass, which significantly reduces compression time from minutes to seconds. To enhance compression efficiency, we propose a multi-path entropy module that assigns Gaussian attributes to different entropy constraint paths for balance between size and fidelity. We also carefully design both inter- and intra-Gaussian context models to remove redundancies among the unstructured Gaussian blobs. Overall, FCGS achieves a compression ratio of over 20X while maintaining fidelity, surpassing most per-scene SOTA optimization-based methods. Our code is available at: https://github.com/YihangChen-ee/FCGS., Comment: Project Page: https://yihangchen-ee.github.io/project_fcgs/ Code: https://github.com/yihangchen-ee/fcgs/

Published
2024

2. A Survey for Large Language Models in Biomedicine

Author

Wang, Chong, Li, Mengyao, He, Junjun, Wang, Zhongruo, Darzi, Erfan, Chen, Zan, Ye, Jin, Li, Tianbin, Su, Yanzhou, Ke, Jing, Qu, Kaili, Li, Shuxin, Yu, Yi, Liò, Pietro, Wang, Tianyun, Wang, Yu Guang, and Shen, Yiqing

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

Recent breakthroughs in large language models (LLMs) offer unprecedented natural language understanding and generation capabilities. However, existing surveys on LLMs in biomedicine often focus on specific applications or model architectures, lacking a comprehensive analysis that integrates the latest advancements across various biomedical domains. This review, based on an analysis of 484 publications sourced from databases including PubMed, Web of Science, and arXiv, provides an in-depth examination of the current landscape, applications, challenges, and prospects of LLMs in biomedicine, distinguishing itself by focusing on the practical implications of these models in real-world biomedical contexts. Firstly, we explore the capabilities of LLMs in zero-shot learning across a broad spectrum of biomedical tasks, including diagnostic assistance, drug discovery, and personalized medicine, among others, with insights drawn from 137 key studies. Then, we discuss adaptation strategies of LLMs, including fine-tuning methods for both uni-modal and multi-modal LLMs to enhance their performance in specialized biomedical contexts where zero-shot fails to achieve, such as medical question answering and efficient processing of biomedical literature. Finally, we discuss the challenges that LLMs face in the biomedicine domain including data privacy concerns, limited model interpretability, issues with dataset quality, and ethics due to the sensitive nature of biomedical data, the need for highly reliable model outputs, and the ethical implications of deploying AI in healthcare. To address these challenges, we also identify future research directions of LLM in biomedicine including federated learning methods to preserve data privacy and integrating explainable AI methodologies to enhance the transparency of LLMs.

Published
2024

3. Towards Real-World HDR Video Reconstruction: A Large-Scale Benchmark Dataset and A Two-Stage Alignment Network

Author

Shu, Yong, Shen, Liquan, Hu, Xiangyu, Li, Mengyao, and Zhou, Zihao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

As an important and practical way to obtain high dynamic range (HDR) video, HDR video reconstruction from sequences with alternating exposures is still less explored, mainly due to the lack of large-scale real-world datasets. Existing methods are mostly trained on synthetic datasets, which perform poorly in real scenes. In this work, to facilitate the development of real-world HDR video reconstruction, we present Real-HDRV, a large-scale real-world benchmark dataset for HDR video reconstruction, featuring various scenes, diverse motion patterns, and high-quality labels. Specifically, our dataset contains 500 LDRs-HDRs video pairs, comprising about 28,000 LDR frames and 4,000 HDR labels, covering daytime, nighttime, indoor, and outdoor scenes. To our best knowledge, our dataset is the largest real-world HDR video reconstruction dataset. Correspondingly, we propose an end-to-end network for HDR video reconstruction, where a novel two-stage strategy is designed to perform alignment sequentially. Specifically, the first stage performs global alignment with the adaptively estimated global offsets, reducing the difficulty of subsequent alignment. The second stage implicitly performs local alignment in a coarse-to-fine manner at the feature level using the adaptive separable convolution. Extensive experiments demonstrate that: (1) models trained on our dataset can achieve better performance on real scenes than those trained on synthetic datasets; (2) our method outperforms previous state-of-the-art methods. Our dataset is available at https://github.com/yungsyu99/Real-HDRV., Comment: This paper has been accepted by CVPR 2024

Published
2024

7. Psychological Impact of Health Risk Communication and Social Media on College Students During the COVID-19 Pandemic: Cross-Sectional Study

Author

Li, Mengyao, Liu, Li, Yang, Yilong, Wang, Yang, Yang, Xiaoshi, and Wu, Hui

Subjects
Computer applications to medicine. Medical informatics, R858-859.7, Public aspects of medicine, RA1-1270
Abstract

BackgroundThe outbreak of COVID-19 began in 2019 and is expected to impact the psychological health of college students. Few studies have investigated the associations among health risk communication, social media, and psychological symptoms during a major pandemic. ObjectiveThe aim of this research was to assess the prevalence of psychological symptoms among college students and explore their associations with health risk communication and social media. MethodsA web-based survey was distributed through the Wenjuanxing platform among Chinese college students from March 3-15, 2020. In addition to demographics, information on health risk communication and social media was collected, and the Symptom Checklist 90 Phobia and Health Anxiety Inventory subscale was used to assess psychological symptoms among 1676 college students in China. Multivariable logistic regression was performed to examine these independent risk factors. ResultsThe prevalence of panic and health anxiety was 17.2% (288/1676) and 24.3% (408/1676), respectively. Regarding risk communication, understanding the risk of COVID-19 (odds ratio [OR] 0.480, 95% CI 0.367-0.627) was a protective factor against panic. Knowledge of prognosis (OR 0.708, 95% CI 0.551-0.910), preventive measures (OR 0.380, 95% CI 0.195-0.742), and wearing face masks (OR 0.445, 95% CI 0.230-0.862) were shown to be protective factors in predicting health anxiety. Perceived lethality (OR 1.860, 95% CI 1.408-2.459), being affected by the global spread (OR 1.936, 95% CI 1.405-2.669), and impact on social contacts (OR 1.420, 95% CI 1.118-1.802) were identified as significant risk factors associated with health anxiety. In terms of social media, trust in mainstream media (OR 0.613, 95% CI 0.461-0.816) was considered to be a protective factor against health anxiety. ConclusionsThere was a high prevalence of psychological symptoms among college students. Health risk communication and social media use were important in predicting psychological symptoms, especially health anxiety. Scientific and evidence-based information should be reported by social media platforms. Web-based consultation and intervention measures should be the focus of future studies.

Published
2020
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9. RFD-ECNet: Extreme Underwater Image Compression with Reference to Feature Dictionar

Author

Li, Mengyao, Shen, Liquan, Ye, Peng, Feng, Guorui, and Wang, Zheyin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Thriving underwater applications demand efficient extreme compression technology to realize the transmission of underwater images (UWIs) in very narrow underwater bandwidth. However, existing image compression methods achieve inferior performance on UWIs because they do not consider the characteristics of UWIs: (1) Multifarious underwater styles of color shift and distance-dependent clarity, caused by the unique underwater physical imaging; (2) Massive redundancy between different UWIs, caused by the fact that different UWIs contain several common ocean objects, which have plenty of similarities in structures and semantics. To remove redundancy among UWIs, we first construct an exhaustive underwater multi-scale feature dictionary to provide coarse-to-fine reference features for UWI compression. Subsequently, an extreme UWI compression network with reference to the feature dictionary (RFD-ECNet) is creatively proposed, which utilizes feature match and reference feature variant to significantly remove redundancy among UWIs. To align the multifarious underwater styles and improve the accuracy of feature match, an underwater style normalized block (USNB) is proposed, which utilizes underwater physical priors extracted from the underwater physical imaging model to normalize the underwater styles of dictionary features toward the input. Moreover, a reference feature variant module (RFVM) is designed to adaptively morph the reference features, improving the similarity between the reference and input features. Experimental results on four UWI datasets show that our RFD-ECNet is the first work that achieves a significant BD-rate saving of 31% over the most advanced VVC.

Published
2023

11. The Race of mRNA therapy: Evidence from Patent Landscape

Author

Ren, Jianxiong, Zhang, Xiaoming, Si, Xingyong, Kong, Xiangjun, Cong, Jinyu, Wang, Pingping, Li, Xiang, Zhang, Qianru, Yao, Peifen, Li, Mengyao, Cai, Yuanqi, Sun, Zhaocai, Liu, Kunmeng, and Wei, Benzheng

Subjects
Statistics - Applications
Abstract

mRNA therapy is gaining worldwide attention as an emerging therapeutic approach. The widespread use of mRNA vaccines during the COVID-19 outbreak has demonstrated the potential of mRNA therapy. As mRNA-based drugs have expanded and their indications have broadened, more patents for mRNA innovations have emerged. The global patent landscape for mRNA therapy has not yet been analyzed, indicating a research gap in need of filling, from new technology to productization. This study uses social network analysis with the patent quality assessment to investigate the temporal trends, citation relationship, and significant litigation for 16,101 mRNA therapy patents and summarizes the hot topics and potential future directions for this industry. The information obtained in this study not only may be utilized as a tool of knowledge for researchers in a comprehensive and integrated way but can also provide inspiration for efficient production methods for mRNA drugs. This study shows that infectious diseases and cancer are currently the primary applications for mRNA drugs. Emerging patent activity and lawsuits in this field are demonstrating that delivery technology remains one of the key challenges in the field and that drug-targeting research in combination with vector technology will be one of the major directions for the industry going forward. With significant funding, new organizations have developed novel delivery technologies in an attempt to break into the patent thicket established by companies such as Arbutus. The global mRNA therapeutic landscape is undergoing a multifaceted development pattern, and the monopoly of giant companies is being challenged., Comment: I have received requests from co-authors and funding agencies to withdraw the manuscript

Published
2023

13. An information-theoretic learning model based on importance sampling

Author

Zhang, Jiangshe, Ji, Lizhen, Gao, Fei, and Li, Mengyao

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

A crucial assumption underlying the most current theory of machine learning is that the training distribution is identical to the test distribution. However, this assumption may not hold in some real-world applications. In this paper, we develop a learning model based on principles of information theory by minimizing the worst-case loss at prescribed levels of uncertainty. We reformulate the empirical estimation of the risk functional and the distribution deviation constraint based on the importance sampling method. The objective of the proposed approach is to minimize the loss under maximum degradation and hence the resulting problem is a minimax problem which can be converted to an unconstrained minimum problem using the Lagrange method with the Lagrange multiplier $T$. We reveal that the minimization of the objective function under logarithmic transformation is equivalent to the minimization of the p-norm loss with $p=\frac{1}{T}$. We applied the proposed model to the face verification task on Racial Faces in the Wild datasets and showed that the proposed model performs better under large distribution deviations., Comment: 7 pages, 4 figures

Published
2023

18. Ultra-narrowband terahertz circular dichroism driven by planar metasurface supporting chiral quasi bound states in continuum

Author

Li, Jitao, Yue, Zhen, Li, Jie, Zheng, Chenglong, Yang, Dingyu, Wang, Silei, Li, Mengyao, Zhang, Yating, and Yao, Jianquan

Subjects
Physics - Optics
Abstract

Terahertz (THz) chirality pursues customizable manipulation from narrowband to broadband. While conventional THz chirality is restricted by non-negligible linewidth and unable to handle narrowband well. Recently, the concept "quasi bound states in continuum" (quasi-BIC) is introduced to optics resonance system whose the quality factor can be extremely high with the ultra-low radiative loss, thus providing a conceptual feasibility for wave control with ultra-narrow linewidth. Herein, we construct quasi-BIC in a planar all-silicon THz metasurface with in-plane C2 and mirror symmetries breaking. Such system not only exposes the symmetry-protected BIC, but also exposes the parameter-tuned BIC assigned to single resonance type. An extremely narrow linewidth (below 0.06 GHz) with high quality factor (104 level) is obtained at quasi-BIC frequency, which achieves the ultra-narrowband THz chirality.

Published
2022
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19. A weighted average distributed estimator for high dimensional parameter

Author

Lu, Jun, Li, Mengyao, and Hou, Chenping

Subjects
Statistics - Methodology
Abstract

Distributed sparse learning for high dimensional parameters has attached vast attentions due to its wide application in prediction and classification in diverse fields of machine learning. Existing distributed sparse regression usually takes an average way to ensemble the local results produced by distributed machines, which enjoys low communication cost but is statistical inefficient. To address this problem, we proposed a new Weighted AVerage Estimate (WAVE) for high-dimensional regressions. The WAVE is a solution to a weighted least-square loss with an adaptive $L_1$ penalty, in which the $L_1$ penalty controls the sparsity and the weight promotes the statistical efficiency. It can not only achieve a balance between the statistical and communication efficiency, but also reach a faster rate than the average estimate with a very low communication cost, requiring the local machines delivering two vectors to the master merely. The consistency of parameter estimation and model selection is also provided, which guarantees the safety of using WAVE in the distributed system. The consistency also provides a way to make hypothisis testing on the parameter. Moreover, WAVE is robust to the heterogeneous distributed samples with varied mean and covariance across machines, which has been verified by the asymptotic normality under such conditions. Other competitors, however, do not own this property. The effectiveness of WAVE is further illustrated by extensive numerical studies and real data analyses.

Published
2022

20. PAGAE: Improving Graph Autoencoder by Dual Enhanced Adversary

Author

Wang, Gongju, Li, Mengyao, Feng, Hanbin, Yan, Long, Song, Yulun, Li, Yang, and Song, Yinghao

Subjects
Artificial Intelligence, Computer Science, Machine learning, Representation, Computational Modeling, Neural Networks
Abstract

Autoencoder frameworks have received attention for graph embedding, particularly those utilizing generative adversarial networks (GAN). However, GAN-based frameworks do not fully utilize the original graph information and lack stable updates in the GAN component. To bridge this gap, we propose a dual-adversarial framework for graph embedding that expands mutual information (MI) in positive and negative samples for adversarial training using GAN. We further improve model performance by incorporating reinforcement learning ideas. Our framework includes two variants: a pessimistic adversarial graph autoencoder (PAGAE), and a pessimistic adversarial graph autoencoder with PO loss (PAGAEPO). Essentially, we present a pessimistic module to negative sample generator to boost original discriminator, thereby reinforcing the generator’s ability. Additionally, we designed a PO loss function on discriminator to stabilize the learning process and it will further improve the ability of model. Experimental results show that our models are competitive with state-of-the-art GAEs on benchmark datasets.

Published
2023

23. A novel NF2 splicing mutant causes neurofibromatosis type 2 via liquid-liquid phase separation with large tumor suppressor and Hippo pathway

Author

Jia, Zexiao, Yang, Shuxu, Li, Mengyao, Lei, Zhaoying, Ding, Xue, Fan, Mingjie, Wang, Dixian, Xie, Dajiang, Zhou, Hui, Qiu, Yue, Zhuang, Qianqian, Li, Dan, Yang, Wei, Qi, Xuchen, Cang, Xiaohui, Zhao, Jing-Wei, Wang, Wenqi, Lin, Aifu, and Yan, Qingfeng

Subjects
Biochemistry and Cell Biology, Biological Sciences, Neurofibromatosis, Cancer, Pediatric, Neurosciences, Genetics, Rare Diseases, Aetiology, 2.1 Biological and endogenous factors, Clinical genetics, Functional aspects of cell biology, Pathophysiology
Abstract

Neurofibromatosis type 2 is an autosomal dominant multiple neoplasia syndrome and is usually caused by mutations in the neurofibromin 2 (NF2) gene, which encodes a tumor suppressor and initiates the Hippo pathway. However, the mechanism by which NF2 functions in the Hippo pathway isn't fully understood. Here we identified a NF2 c.770-784del mutation from a neurofibromatosis type 2 family. MD simulations showed that this mutation significantly changed the structure of the F3 module of the NF2-FERM domain. Functional assays indicated that the NF2 c.770-784del variant formed LLPS in the cytoplasm with LATS to restrain LATS plasma membrane localization and inactivated the Hippo pathway. Besides, this deletion partly caused a skipping of exon 8 and reduced the protein level of NF2, collectively promoting proliferation and tumorigenesis of meningeal cells. We identified an unrecognized mechanism of LLPS and splicing skipping for the NF2-induced Hippo pathway, which provided new insight into the pathogenesis of neurofibromatosis type 2.

Published
2022

44. Promoting Academic Self-Efficacy, Positive Relationships, and Psychological Resilience for Chinese University Students' Life Satisfaction

Author

Mao, Yanhui, Xie, Mei, Li, Mengyao, Gu, Chenxi, Chen, Yiping, Zhang, Zhenyu, and Peng, Chuanyu

Abstract

The current study, based on the PERMA model, proposed and examined a hypothetical model exploring the effects of academic self-efficacy, positive relationships, and psychological resilience on university students' life satisfaction. We collected data from a large sample of 1,089 university students in southwest China. The participants completed a battery of self-report questionnaire items measuring academic self-efficacy, positive relationships, psychological resilience, and life satisfaction. The results of the structural equation modeling analysis demonstrated a good fit for our data, suggesting that academic self-efficacy positively predicted university students' life satisfaction through two independent mediators: positive relationships and psychological resilience. Findings yielded from the empirically validated hypothetical model add value to and enrich the PERMA model within a group of Chinese university students. The implications and practical suggestions for improving university students' life satisfaction are discussed in light of these findings.

Published
2023
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