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5,289 results on '"Zhou, Rong"'

1. ClusMFL: A Cluster-Enhanced Framework for Modality-Incomplete Multimodal Federated Learning in Brain Imaging Analysis

Author

Wang, Xinpeng, Zhou, Rong, Xie, Han, Tang, Xiaoying, He, Lifang, and Yang, Carl

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

Multimodal Federated Learning (MFL) has emerged as a promising approach for collaboratively training multimodal models across distributed clients, particularly in healthcare domains. In the context of brain imaging analysis, modality incompleteness presents a significant challenge, where some institutions may lack specific imaging modalities (e.g., PET, MRI, or CT) due to privacy concerns, device limitations, or data availability issues. While existing work typically assumes modality completeness or oversimplifies missing-modality scenarios, we simulate a more realistic setting by considering both client-level and instance-level modality incompleteness in this study. Building on this realistic simulation, we propose ClusMFL, a novel MFL framework that leverages feature clustering for cross-institutional brain imaging analysis under modality incompleteness. Specifically, ClusMFL utilizes the FINCH algorithm to construct a pool of cluster centers for the feature embeddings of each modality-label pair, effectively capturing fine-grained data distributions. These cluster centers are then used for feature alignment within each modality through supervised contrastive learning, while also acting as proxies for missing modalities, allowing cross-modal knowledge transfer. Furthermore, ClusMFL employs a modality-aware aggregation strategy, further enhancing the model's performance in scenarios with severe modality incompleteness. We evaluate the proposed framework on the ADNI dataset, utilizing structural MRI and PET scans. Extensive experimental results demonstrate that ClusMFL achieves state-of-the-art performance compared to various baseline methods across varying levels of modality incompleteness, providing a scalable solution for cross-institutional brain imaging analysis.

Published
2025

2. RADICE: Causal Graph Based Root Cause Analysis for System Performance Diagnostic

Author

Tonon, Andrea, Zhang, Meng, Caglayan, Bora, Shen, Fei, Gui, Tong, Wang, MingXue, and Zhou, Rong

Subjects
Computer Science - Software Engineering
Abstract

Root cause analysis is one of the most crucial operations in software reliability regarding system performance diagnostic. It aims to identify the root causes of system performance anomalies, allowing the resolution or the future prevention of issues that can cause millions of dollars in losses. Common existing approaches relying on data correlation or full domain expert knowledge are inaccurate or infeasible in most industrial cases, since correlation does not imply causation, and domain experts may not have full knowledge of complex and real-time systems. In this work, we define a novel causal domain knowledge model representing causal relations about the underlying system components to allow domain experts to contribute partial domain knowledge for root cause analysis. We then introduce RADICE, an algorithm that through the causal graph discovery, enhancement, refinement, and subtraction processes is able to output a root cause causal sub-graph showing the causal relations between the system components affected by the anomaly. We evaluated RADICE with simulated data and reported a real data use case, sharing the lessons we learned. The experiments show that RADICE provides better results than other baseline methods, including causal discovery algorithms and correlation based approaches for root cause analysis., Comment: Accepted at IEEE SANER 2025

Published
2025

4. Normative Modeling for AD Diagnosis and Biomarker Identification

Author

Zhao, Songlin, Zhou, Rong, Zhang, Yu, Chen, Yong, and He, Lifang

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

In this paper, we introduce a novel normative modeling approach that incorporates focal loss and adversarial autoencoders (FAAE) for Alzheimer's Disease (AD) diagnosis and biomarker identification. Our method is an end-to-end approach that embeds an adversarial focal loss discriminator within the autoencoder structure, specifically designed to effectively target and capture more complex and challenging cases. We first use the enhanced autoencoder to create a normative model based on data from healthy control (HC) individuals. We then apply this model to estimate total and regional neuroanatomical deviation in AD patients. Through extensive experiments on the OASIS-3 and ADNI datasets, our approach significantly outperforms previous state-of-the-art methods. This advancement not only streamlines the detection process but also provides a greater insight into the biomarker potential for AD. Our code can be found at \url{https://github.com/soz223/FAAE}., Comment: 10 pages, 3 figures

Published
2024

5. Monte Carlo Simulation of Angular Response of GRID Detectors for GRID Mission

Author

Liu, Qize, Pan, Xiaofan, Zheng, Xutao, Gao, Huaizhong, Li, Longhao, Wang, Qidong, Yang, Zirui, Tang, Chenchong, Wu, Wenxuan, Cheng, Jianping, Zeng, Zhi, Zeng, Ming, Feng, Hua, Zhang, Binbin, Wang, Zhonghai, Zhou, Rong, Liu, Yuanyuan, Lin, Lin, Zhong, Jiayong, Jiang, Jianyong, Han, Wentao, Tian, Yang, Xu, Benda, and Collaboration, GRID

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

The Gamma-Ray Integrated Detectors (GRID) are a space science mission that employs compact gamma-ray detectors mounted on NanoSats in low Earth orbit (LEO) to monitor the transient gamma-ray sky. Owing to the unpredictability of the time and location of gamma-ray bursts (GRBs), obtaining the photon responses of gamma-ray detectors at various incident angles is important for the scientific analysis of GRB data captured by GRID detectors. For this purpose, a dedicated Monte Carlo simulation framework has been developed for GRID detectors. By simulating each GRID detector and the NanoSat carrying it, the spectral energy response, detection efficiency, and other angular responses of each detector for photons with different incident angles and energies can be obtained within this framework. The accuracy of these simulations has been corroborated through on-ground calibration, and the derived angular responses have been successfully applied to the data analysis of recorded GRBs., Comment: 15 pages, 9 figures

Published
2024

6. TTT-Unet: Enhancing U-Net with Test-Time Training Layers for Biomedical Image Segmentation

Author

Zhou, Rong, Yuan, Zhengqing, Yan, Zhiling, Sun, Weixiang, Zhang, Kai, Li, Yiwei, Ye, Yanfang, Li, Xiang, He, Lifang, and Sun, Lichao

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

Biomedical image segmentation is crucial for accurately diagnosing and analyzing various diseases. However, Convolutional Neural Networks (CNNs) and Transformers, the most commonly used architectures for this task, struggle to effectively capture long-range dependencies due to the inherent locality of CNNs and the computational complexity of Transformers. To address this limitation, we introduce TTT-Unet, a novel framework that integrates Test-Time Training (TTT) layers into the traditional U-Net architecture for biomedical image segmentation. TTT-Unet dynamically adjusts model parameters during the testing time, enhancing the model's ability to capture both local and long-range features. We evaluate TTT-Unet on multiple medical imaging datasets, including 3D abdominal organ segmentation in CT and MR images, instrument segmentation in endoscopy images, and cell segmentation in microscopy images. The results demonstrate that TTT-Unet consistently outperforms state-of-the-art CNN-based and Transformer-based segmentation models across all tasks. The code is available at https://github.com/rongzhou7/TTT-Unet.

Published
2024

7. Integral models of Shimura varieties with parahoric level structure, II

Author

Kisin, Mark, Pappas, Georgios, and Zhou, Rong

Subjects
Mathematics - Number Theory, Mathematics - Algebraic Geometry
Abstract

We construct integral models of Shimura varieties of abelian type with parahoric level structure over odd primes. These models are \'etale locally isomorphic to corresponding local models., Comment: Minor changes

Published
2024

8. Biomedical SAM 2: Segment Anything in Biomedical Images and Videos

Author

Yan, Zhiling, Sun, Weixiang, Zhou, Rong, Yuan, Zhengqing, Zhang, Kai, Li, Yiwei, Liu, Tianming, Li, Quanzheng, Li, Xiang, He, Lifang, and Sun, Lichao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Medical image segmentation and video object segmentation are essential for diagnosing and analyzing diseases by identifying and measuring biological structures. Recent advances in natural domain have been driven by foundation models like the Segment Anything Model 2 (SAM-2). To explore the performance of SAM-2 in biomedical applications, we designed three evaluation pipelines for single-frame 2D image segmentation, multi-frame 3D image segmentation and multi-frame video segmentation with varied prompt designs, revealing SAM-2's limitations in medical contexts. Consequently, we developed BioSAM-2, an enhanced foundation model optimized for biomedical data based on SAM-2. Our experiments show that BioSAM-2 not only surpasses the performance of existing state-of-the-art foundation models but also matches or even exceeds specialist models, demonstrating its efficacy and potential in the medical domain.

Published
2024

17. Normative Modeling with Focal Loss and Adversarial Autoencoders for Alzheimer’s Disease Diagnosis and Biomarker Identification

Author

Zhao, Songlin, Zhou, Rong, Zhang, Yu, Chen, Yong, He, Lifang, 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, Wu, Shandong, editor, Shabestari, Behrouz, editor, and Xing, Lei, editor

Published
2025
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18. ViT-1.58b: Mobile Vision Transformers in the 1-bit Era

Author

Yuan, Zhengqing, Zhou, Rong, Wang, Hongyi, He, Lifang, Ye, Yanfang, and Sun, Lichao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Vision Transformers (ViTs) have achieved remarkable performance in various image classification tasks by leveraging the attention mechanism to process image patches as tokens. However, the high computational and memory demands of ViTs pose significant challenges for deployment in resource-constrained environments. This paper introduces ViT-1.58b, a novel 1.58-bit quantized ViT model designed to drastically reduce memory and computational overhead while preserving competitive performance. ViT-1.58b employs ternary quantization, which refines the balance between efficiency and accuracy by constraining weights to {-1, 0, 1} and quantizing activations to 8-bit precision. Our approach ensures efficient scaling in terms of both memory and computation. Experiments on CIFAR-10 and ImageNet-1k demonstrate that ViT-1.58b maintains comparable accuracy to full-precision Vit, with significant reductions in memory usage and computational costs. This paper highlights the potential of extreme quantization techniques in developing sustainable AI solutions and contributes to the broader discourse on efficient model deployment in practical applications. Our code and weights are available at https://github.com/DLYuanGod/ViT-1.58b.

Published
2024

19. Towards an Extensible Model-Based Digital Twin Framework for Space Launch Vehicles

Author

Wei, Ran, Yang, Ruizhe, Liu, Shijun, Fan, Chongsheng, Zhou, Rong, Wu, Zekun, Wang, Haochi, Cai, Yifan, and Jiang, Zhe

Subjects
Computer Science - Software Engineering
Abstract

The concept of Digital Twin (DT) is increasingly applied to systems on different levels of abstraction across domains, to support monitoring, analysis, diagnosis, decision making and automated control. Whilst the interest in applying DT is growing, the definition of DT is unclear, neither is there a clear pathway to develop DT to fully realise its capacities. In this paper, we revise the concept of DT and its categorisation. We propose a DT maturity matrix, based on which we propose a model-based DT development methodology. We also discuss how model-based tools can be used to support the methodology and present our own supporting tool. We report our preliminary findings with a discussion on a case study, in which we use our proposed methodology and our supporting tool to develop an extensible DT platform for the assurance of Electrical and Electronics systems of space launch vehicles.

Published
2024

20. Unleashing the Power of Multi-Task Learning: A Comprehensive Survey Spanning Traditional, Deep, and Pretrained Foundation Model Eras

Author

Yu, Jun, Dai, Yutong, Liu, Xiaokang, Huang, Jin, Shen, Yishan, Zhang, Ke, Zhou, Rong, Adhikarla, Eashan, Ye, Wenxuan, Liu, Yixin, Kong, Zhaoming, Zhang, Kai, Yin, Yilong, Namboodiri, Vinod, Davison, Brian D., Moore, Jason H., and Chen, Yong

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

MTL is a learning paradigm that effectively leverages both task-specific and shared information to address multiple related tasks simultaneously. In contrast to STL, MTL offers a suite of benefits that enhance both the training process and the inference efficiency. MTL's key advantages encompass streamlined model architecture, performance enhancement, and cross-domain generalizability. Over the past twenty years, MTL has become widely recognized as a flexible and effective approach in various fields, including CV, NLP, recommendation systems, disease prognosis and diagnosis, and robotics. This survey provides a comprehensive overview of the evolution of MTL, encompassing the technical aspects of cutting-edge methods from traditional approaches to deep learning and the latest trend of pretrained foundation models. Our survey methodically categorizes MTL techniques into five key areas: regularization, relationship learning, feature propagation, optimization, and pre-training. This categorization not only chronologically outlines the development of MTL but also dives into various specialized strategies within each category. Furthermore, the survey reveals how the MTL evolves from handling a fixed set of tasks to embracing a more flexible approach free from task or modality constraints. It explores the concepts of task-promptable and -agnostic training, along with the capacity for ZSL, which unleashes the untapped potential of this historically coveted learning paradigm. Overall, we hope this survey provides the research community with a comprehensive overview of the advancements in MTL from its inception in 1997 to the present in 2023. We address present challenges and look ahead to future possibilities, shedding light on the opportunities and potential avenues for MTL research in a broad manner. This project is publicly available at https://github.com/junfish/Awesome-Multitask-Learning., Comment: 60 figures, 116 pages, 500+ references

Published
2024

21. Relationship Between Whole Blood Iron Levels and Lipid Profile Parameters in the General Population: Findings from Routine Physical Examination Report: Relationship Between Whole Blood Iron Levels and Lipid Profile Parameters in the General Population: Findings from Routine Physical Examination Report

Author

Pan, Rou-Jun, Luo, Zhi, You, Yu-Shun, Wang, Jun-Dong, Chen, Ya-Qi, Zhou, Rong-Rong, Chen, Shu-Zi-Qi, Wang, Lin-Min, Zhao, Jun-Xiang, Su, Hua-Qin, Wang, Cai-Li, Zhang, Li-Fen, Peng, Feng-Lian, Meneses, Jezza Joi, Wang, Xiang-Hu, He, Lian-Ping, and Wang, Ting

Published
2024
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25. Geometric inequalities and their stabilities for modified quermassintegrals in hyperbolic space

Author

Gao, Chaoqun and Zhou, Rong

Subjects
Mathematics - Differential Geometry, 53C42, 53E10
Abstract

In this paper, we first consider the curve case of Hu-Li-Wei's flow for shifted principal curvatures of h-convex hypersurfaces in $\mathbb{H}^{n+1}$ proposed in [10]. We prove that if the initial closed curve is smooth and strictly h-convex, then the solution exists for all time and preserves strict h-convexity along the flow. Moreover, the evolving curve converges smoothly and exponentially to a geodesic circle centered at the origin. The key ingredient in our proof is the Heintze-Karcher type inequality for h-convex curves proved recently in [14]. As an application, we then provide a new proof of geometric inequalities involving weighted curvature integrals and modified quermassintegrals for h-convex curves in $\mathbb{H}^2$. We finally discuss the stability of these inequalities as well as Alexandrov-Fenchel type inequalities for modified quermassintegrals for strictly h-convex domains in $\mathbb{H}^{n+1}$., Comment: 26 pages

Published
2024

26. Correlations of vascular cognitive impairment with brain-derived neurotrophic factor and trace elements

Author

Zhou Rong, Lei Chao, and Zhi Haiyang

Subjects
brain, cognitive impairment, correlation, neurotrophic factor, trace element, Medicine
Abstract

Cognitive impairment has become one of the major public health problems due to population aging and the increased morbidity associated with stroke. In this study, we aimed to analyze the correlations of vascular cognitive impairment (VCI) with brain-derived neurotrophic factor (BDNF) and trace elements.

Published
2025
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27. On the smooth locus of affine Schubert varieties

Author

Pappas, Georgios and Zhou, Rong

Subjects
Mathematics - Algebraic Geometry, Mathematics - Representation Theory
Abstract

We give a simple and uniform proof of a conjecture of Haines-Richarz characterizing the smooth locus of Schubert varieties in twisted affine Grassmannians. Our method is elementary and avoids any representation theoretic techniques, instead relying on a combinatorial analysis of tangent spaces of Schubert varieties., Comment: 16 pages. Minor changes

Published
2023

28. Multimodal ChatGPT for Medical Applications: an Experimental Study of GPT-4V

Author

Yan, Zhiling, Zhang, Kai, Zhou, Rong, He, Lifang, Li, Xiang, and Sun, Lichao

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this paper, we critically evaluate the capabilities of the state-of-the-art multimodal large language model, i.e., GPT-4 with Vision (GPT-4V), on Visual Question Answering (VQA) task. Our experiments thoroughly assess GPT-4V's proficiency in answering questions paired with images using both pathology and radiology datasets from 11 modalities (e.g. Microscopy, Dermoscopy, X-ray, CT, etc.) and fifteen objects of interests (brain, liver, lung, etc.). Our datasets encompass a comprehensive range of medical inquiries, including sixteen distinct question types. Throughout our evaluations, we devised textual prompts for GPT-4V, directing it to synergize visual and textual information. The experiments with accuracy score conclude that the current version of GPT-4V is not recommended for real-world diagnostics due to its unreliable and suboptimal accuracy in responding to diagnostic medical questions. In addition, we delineate seven unique facets of GPT-4V's behavior in medical VQA, highlighting its constraints within this complex arena. The complete details of our evaluation cases are accessible at https://github.com/ZhilingYan/GPT4V-Medical-Report.

Published
2023

31. Application of LS-RAPID to simulate the motion of two contrasting landslides triggered by earthquakes

Author

Zhou Rong

Subjects
earthquake-induced landslides, rapid and long runout, flow-like movement, computer simulation, motion process, Geology, QE1-996.5
Abstract

Earthquake-triggered landslides are one of the most significant hazards worldwide. These landslides, involving small or large volumes, can develop debris flows or avalanches with high mobility and long runout distances. The motion processes of this type of landslide are also quite complicated. This study reproduced the motion processes of two landslides using the LS-RAPID program. The Aso-Bridge landslide occurred on April 16, 2016, and it featured rapid movement and a long runout distance. The Kataragai landslide occurred on April 9, 2018, and it traveled with a flow-like behavior. This work presents the features and mechanical parameters of these two landslides by means of survey investigations and laboratory experiments. We established pre-failure models and reproduced motion processes of these two landslides using the LS-PAPID program. Two indicators, consisting of the sliding speed and traveling morphology at different intervals, were considered to describe the motion processes. Results indicated that the resultant maximum sliding speeds of these two landslides were approximately 297.1 and 43.6 m/s, respectively, and that post-failure morphologies were consistent with those observed in field investigations.

Published
2024
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