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1. SleepNetZero: Zero-Burden Zero-Shot Reliable Sleep Staging With Neural Networks Based on Ballistocardiograms

Author

Li, Shuzhen, Chen, Yuxin, Chen, Xuesong, Gao, Ruiyang, Zhang, Yupeng, Yu, Chao, Li, Yunfei, Ye, Ziyi, Huang, Weijun, Yi, Hongliang, Leng, Yue, and Wu, Yi

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning
Abstract

Sleep monitoring plays a crucial role in maintaining good health, with sleep staging serving as an essential metric in the monitoring process. Traditional methods, utilizing medical sensors like EEG and ECG, can be effective but often present challenges such as unnatural user experience, complex deployment, and high costs. Ballistocardiography~(BCG), a type of piezoelectric sensor signal, offers a non-invasive, user-friendly, and easily deployable alternative for long-term home monitoring. However, reliable BCG-based sleep staging is challenging due to the limited sleep monitoring data available for BCG. A restricted training dataset prevents the model from generalization across populations. Additionally, transferring to BCG faces difficulty ensuring model robustness when migrating from other data sources. To address these issues, we introduce SleepNetZero, a zero-shot learning based approach for sleep staging. To tackle the generalization challenge, we propose a series of BCG feature extraction methods that align BCG components with corresponding respiratory, cardiac, and movement channels in PSG. This allows models to be trained on large-scale PSG datasets that are diverse in population. For the migration challenge, we employ data augmentation techniques, significantly enhancing generalizability. We conducted extensive training and testing on large datasets~(12393 records from 9637 different subjects), achieving an accuracy of 0.803 and a Cohen's Kappa of 0.718. ZeroSleepNet was also deployed in real prototype~(monitoring pads) and tested in actual hospital settings~(265 users), demonstrating an accuracy of 0.697 and a Cohen's Kappa of 0.589. To the best of our knowledge, this work represents the first known reliable BCG-based sleep staging effort and marks a significant step towards in-home health monitoring., Comment: 25 pages

Published
2024

2. Mozart's Touch: A Lightweight Multi-modal Music Generation Framework Based on Pre-Trained Large Models

Author

Xu, Tianze, Li, Jiajun, Chen, Xuesong, Yao, Xinrui, and Liu, Shuchang

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

In recent years, AI-Generated Content (AIGC) has witnessed rapid advancements, facilitating the generation of music, images, and other forms of artistic expression across various industries. However, researches on general multi-modal music generation model remain scarce. To fill this gap, we propose a multi-modal music generation framework Mozart's Touch. It could generate aligned music with the cross-modality inputs, such as images, videos and text. Mozart's Touch is composed of three main components: Multi-modal Captioning Module, Large Language Model (LLM) Understanding & Bridging Module, and Music Generation Module. Unlike traditional approaches, Mozart's Touch requires no training or fine-tuning pre-trained models, offering efficiency and transparency through clear, interpretable prompts. We also introduce "LLM-Bridge" method to resolve the heterogeneous representation problems between descriptive texts of different modalities. We conduct a series of objective and subjective evaluations on the proposed model, and results indicate that our model surpasses the performance of current state-of-the-art models. Our codes and examples is availble at: https://github.com/WangTooNaive/MozartsTouch, Comment: 7 pages, 2 figures, submitted to ACM MM 2024

Published
2024

3. TrajectoryFormer: 3D Object Tracking Transformer with Predictive Trajectory Hypotheses

Author

Chen, Xuesong, Shi, Shaoshuai, Zhang, Chao, Zhu, Benjin, Wang, Qiang, Cheung, Ka Chun, See, Simon, and Li, Hongsheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

3D multi-object tracking (MOT) is vital for many applications including autonomous driving vehicles and service robots. With the commonly used tracking-by-detection paradigm, 3D MOT has made important progress in recent years. However, these methods only use the detection boxes of the current frame to obtain trajectory-box association results, which makes it impossible for the tracker to recover objects missed by the detector. In this paper, we present TrajectoryFormer, a novel point-cloud-based 3D MOT framework. To recover the missed object by detector, we generates multiple trajectory hypotheses with hybrid candidate boxes, including temporally predicted boxes and current-frame detection boxes, for trajectory-box association. The predicted boxes can propagate object's history trajectory information to the current frame and thus the network can tolerate short-term miss detection of the tracked objects. We combine long-term object motion feature and short-term object appearance feature to create per-hypothesis feature embedding, which reduces the computational overhead for spatial-temporal encoding. Additionally, we introduce a Global-Local Interaction Module to conduct information interaction among all hypotheses and models their spatial relations, leading to accurate estimation of hypotheses. Our TrajectoryFormer achieves state-of-the-art performance on the Waymo 3D MOT benchmarks. Code is available at https://github.com/poodarchu/EFG ., Comment: Accepted by ICCV 2023

Published
2023

5. Brain Topography Adaptive Network for Satisfaction Modeling in Interactive Information Access System

Author

Ye, Ziyi, Xie, Xiaohui, Liu, Yiqun, Wang, Zhihong, Chen, Xuesong, Zhang, Min, and Ma, Shaoping

Subjects
Computer Science - Human-Computer Interaction, Computer Science - Information Retrieval, Computer Science - Multimedia
Abstract

With the growth of information on the Web, most users heavily rely on information access systems (e.g., search engines, recommender systems, etc.) in their daily lives. During this procedure, modeling users' satisfaction status plays an essential part in improving their experiences with the systems. In this paper, we aim to explore the benefits of using Electroencephalography (EEG) signals for satisfaction modeling in interactive information access system design. Different from existing EEG classification tasks, the arisen of satisfaction involves multiple brain functions, such as arousal, prototypicality, and appraisals, which are related to different brain topographical areas. Thus modeling user satisfaction raises great challenges to existing solutions. To address this challenge, we propose BTA, a Brain Topography Adaptive network with a multi-centrality encoding module and a spatial attention mechanism module to capture cognitive connectivities in different spatial distances. We explore the effectiveness of BTA for satisfaction modeling in two popular information access scenarios, i.e., search and recommendation. Extensive experiments on two real-world datasets verify the effectiveness of introducing brain topography adaptive strategy in satisfaction modeling. Furthermore, we also conduct search result re-ranking task and video rating prediction task based on the satisfaction inferred from brain signals on search and recommendation scenarios, respectively. Experimental results show that brain signals extracted with BTA help improve the performance of interactive information access systems significantly., Comment: Accepted by Multimedia 2022 (MM'22) as a full paper

Published
2022
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6. Random Telegraph Noise of a 28-nm Cryogenic MOSFET in the Coulomb Blockade Regime

Author

Yang, HeeBong, Robitaille, Marcel, Chen, Xuesong, Elgabra, Hazem, Wei, Lan, and Kim, Na Young

Subjects
Physics - Applied Physics, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We observe rich phenomena of two-level random telegraph noise (RTN) from a commercial bulk 28-nm p-MOSFET (PMOS) near threshold at 14 K, where a Coulomb blockade (CB) hump arises from a quantum dot (QD) formed in the channel. Minimum RTN is observed at the CB hump where the high-current RTN level dramatically switches to the low-current level. The gate-voltage dependence of the RTN amplitude and power spectral density match well with the transconductance from the DC transfer curve in the CB hump region. Our work unequivocally captures these QD transport signatures in both current and noise, revealing quantum confinement effects in commercial short-channel PMOS even at 14 K, over 100 times higher than the typical dilution refrigerator temperatures of QD experiments (<100 mK). We envision that our reported RTN characteristics rooted from the QD and a defect trap would be more prominent for smaller technology nodes, where the quantum effect should be carefully examined in cryogenic CMOS circuit designs., Comment: 5 pages, 3 figures

Published
2022
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7. MPPNet: Multi-Frame Feature Intertwining with Proxy Points for 3D Temporal Object Detection

Author

Chen, Xuesong, Shi, Shaoshuai, Zhu, Benjin, Cheung, Ka Chun, Xu, Hang, and Li, Hongsheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Accurate and reliable 3D detection is vital for many applications including autonomous driving vehicles and service robots. In this paper, we present a flexible and high-performance 3D detection framework, named MPPNet, for 3D temporal object detection with point cloud sequences. We propose a novel three-hierarchy framework with proxy points for multi-frame feature encoding and interactions to achieve better detection. The three hierarchies conduct per-frame feature encoding, short-clip feature fusion, and whole-sequence feature aggregation, respectively. To enable processing long-sequence point clouds with reasonable computational resources, intra-group feature mixing and inter-group feature attention are proposed to form the second and third feature encoding hierarchies, which are recurrently applied for aggregating multi-frame trajectory features. The proxy points not only act as consistent object representations for each frame, but also serve as the courier to facilitate feature interaction between frames. The experiments on large Waymo Open dataset show that our approach outperforms state-of-the-art methods with large margins when applied to both short (e.g., 4-frame) and long (e.g., 16-frame) point cloud sequences. Code is available at https://github.com/open-mmlab/OpenPCDet., Comment: Accepted by ECCV 2022

Published
2022

9. Web Search via an Efficient and Effective Brain-Machine Interface

Author

Chen, Xuesong, Ye, Ziyi, Xie, Xiaohui, Liu, Yiqun, Su, Weihang, Zhu, Shuqi, Zhang, Min, and Ma, Shaoping

Subjects
Computer Science - Information Retrieval
Abstract

While search technologies have evolved to be robust and ubiquitous, the fundamental interaction paradigm has remained relatively stable for decades. With the maturity of the Brain-Machine Interface, we build an efficient and effective communication system between human beings and search engines based on electroencephalogram(EEG) signals, called Brain-Machine Search Interface(BMSI) system. The BMSI system provides functions including query reformulation and search result interaction. In our system, users can perform search tasks without having to use the mouse and keyboard. Therefore, it is useful for application scenarios in which hand-based interactions are infeasible, e.g, for users with severe neuromuscular disorders. Besides, based on brain signals decoding, our system can provide abundant and valuable user-side context information(e.g., real-time satisfaction feedback, extensive context information, and a clearer description of information needs) to the search engine, which is hard to capture in the previous paradigm. In our implementation, the system can decode user satisfaction from brain signals in real-time during the interaction process and re-rank the search results list based on user satisfaction feedback. The demo video is available at http://www.thuir.cn/group/YQLiu/datasets/BMSISystem.mp4.

Published
2021

10. Why Don't You Click: Neural Correlates of Non-Click Behaviors in Web Search

Author

Ye, Ziyi, Xie, Xiaohui, Liu, Yiqun, Wang, Zhihong, Li, Xuancheng, Li, Jiaji, Chen, Xuesong, Zhang, Min, and Ma, Shaoping

Subjects
Computer Science - Information Retrieval, Computer Science - Information Theory
Abstract

Web search heavily relies on click-through behavior as an essential feedback signal for performance improvement and evaluation. Traditionally, click is usually treated as a positive implicit feedback signal of relevance or usefulness, while non-click (especially non-click after examination) is regarded as a signal of irrelevance or uselessness. However, there are many cases where users do not click on any search results but still satisfy their information need with the contents of the results shown on the Search Engine Result Page (SERP). This raises the problem of measuring result usefulness and modeling user satisfaction in "Zero-click" search scenarios. Previous works have solved this issue by (1) detecting user satisfaction for abandoned SERP with context information and (2) considering result-level click necessity with external assessors' annotations. However, few works have investigated the reason behind non-click behavior and estimated the usefulness of non-click results. A challenge for this research question is how to collect valuable feedback for non-click results. With neuroimaging technologies, we design a lab-based user study and reveal differences in brain signals while examining non-click search results with different usefulness levels. The findings in significant brain regions and electroencephalogram~(EEG) spectrum also suggest that the process of usefulness judgment might involve similar cognitive functions of relevance perception and satisfaction decoding. Inspired by these findings, we conduct supervised learning tasks to estimate the usefulness of non-click results with brain signals and conventional information (i.e., content and context factors). Results show that it is feasible to utilize brain signals to improve usefulness estimation performance and enhancing human-computer interactions in "Zero-click" search scenarios.

Published
2021

20. Towards a Better Understanding Human Reading Comprehension with Brain Signals

Author

Ye, Ziyi, Xie, Xiaohui, Liu, Yiqun, Wang, Zhihong, Chen, Xuesong, Zhang, Min, and Ma, Shaoping

Subjects
Computer Science - Information Retrieval, Computer Science - Artificial Intelligence, Computer Science - Information Theory
Abstract

Reading comprehension is a complex cognitive process involving many human brain activities. Plenty of works have studied the patterns and attention allocations of reading comprehension in information retrieval related scenarios. However, little is known about what happens in human brain during reading comprehension and how these cognitive activities can affect information retrieval process. Additionally, with the advances in brain imaging techniques such as electroencephalogram (EEG), it is possible to collect brain signals in almost real time and explore whether it can be utilized as feedback to facilitate information acquisition performance. In this paper, we carefully design a lab-based user study to investigate brain activities during reading comprehension. Our findings show that neural responses vary with different types of reading contents, i.e., contents that can satisfy users' information needs and contents that cannot. We suggest that various cognitive activities, e.g., cognitive loading, semantic-thematic understanding, and inferential processing, underpin these neural responses at the micro-time scale during reading comprehension. From these findings, we illustrate several insights for information retrieval tasks, such as ranking models construction and interface design. Besides, we suggest the possibility of detecting reading comprehension status for a proactive real-world system. To this end, we propose a Unified framework for EEG-based Reading Comprehension Modeling (UERCM). To verify its effectiveness, we conduct extensive experiments based on EEG features for two reading comprehension tasks: answer sentence classification and answer extraction. Results show that it is feasible to improve the performance of two tasks with brain signals., Comment: Accepted by The Web Conference 2022 (WWW'22) as a full paper

Published
2021
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25. Semantic Scene Completion via Integrating Instances and Scene in-the-Loop

Author

Cai, Yingjie, Chen, Xuesong, Zhang, Chao, Lin, Kwan-Yee, Wang, Xiaogang, and Li, Hongsheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Semantic Scene Completion aims at reconstructing a complete 3D scene with precise voxel-wise semantics from a single-view depth or RGBD image. It is a crucial but challenging problem for indoor scene understanding. In this work, we present a novel framework named Scene-Instance-Scene Network (\textit{SISNet}), which takes advantages of both instance and scene level semantic information. Our method is capable of inferring fine-grained shape details as well as nearby objects whose semantic categories are easily mixed-up. The key insight is that we decouple the instances from a coarsely completed semantic scene instead of a raw input image to guide the reconstruction of instances and the overall scene. SISNet conducts iterative scene-to-instance (SI) and instance-to-scene (IS) semantic completion. Specifically, the SI is able to encode objects' surrounding context for effectively decoupling instances from the scene and each instance could be voxelized into higher resolution to capture finer details. With IS, fine-grained instance information can be integrated back into the 3D scene and thus leads to more accurate semantic scene completion. Utilizing such an iterative mechanism, the scene and instance completion benefits each other to achieve higher completion accuracy. Extensively experiments show that our proposed method consistently outperforms state-of-the-art methods on both real NYU, NYUCAD and synthetic SUNCG-RGBD datasets. The code and the supplementary material will be available at \url{https://github.com/yjcaimeow/SISNet}., Comment: CVPR 2021

Published
2021

28. Two‐pore channels regulate Tat endolysosome escape and Tat‐mediated HIV‐1 LTR transactivation

Author

Khan, Nabab, Halcrow, Peter W, Lakpa, Koffi L, Afghah, Zahra, Miller, Nicole M, Dowdy, Steven F, Geiger, Jonathan D, and Chen, Xuesong

Subjects
Medical Microbiology, Biomedical and Clinical Sciences, Immunology, Neurosciences, Brain Disorders, Mental Health, Biotechnology, Genetics, HIV/AIDS, Underpinning research, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Aetiology, Infection, Calcium, Cell Line, Tumor, Gene Expression Regulation, Viral, Gene Products, tat, HIV Long Terminal Repeat, HIV-1, Humans, Immunoblotting, Lysosomes, RNA, Small Interfering, Virus Replication, HIV-1 LTR transactivation, HIV-1 Tat, Tat endolysosome escape, two-pore channels, Biochemistry and Cell Biology, Physiology, Medical Physiology, Biochemistry & Molecular Biology, Biochemistry and cell biology, Medical physiology
Abstract

HIV-1 Tat is essential for HIV-1 replication and appears to play an important role in the pathogenesis of HIV-associated neurological complications. Secreted from infected or transfected cells, Tat has the extraordinary ability to cross the plasma membrane. In the brain, Tat can be taken up by CNS cells via receptor-mediated endocytosis. Following endocytosis and its internalization into endolysosomes, Tat must be released in order for it to activate the HIV-1 LTR promoter and facilitate HIV-1 viral replication in the nucleus. However, the underlying mechanisms whereby Tat escapes endolysosomes remain unclear. Because Tat disrupts intracellular calcium homeostasis, we investigated the involvement of calcium in Tat endolysosome escape and subsequent LTR transactivation. We demonstrated that chelating endolysosome calcium with high-affinity rhodamine-dextran or chelating cytosolic calcium with BAPTA-AM attenuated Tat endolysosome escape and LTR transactivation. Significantly, we demonstrated that pharmacologically blocking and knocking down the endolysosome-resident two-pore channels (TPCs) attenuated Tat endolysosome escape and LTR transactivation. This calcium-mediated effect appears to be selective for TPCs because knocking down TRPML1 calcium channels was without effect. Our findings suggest that calcium released from TPCs is involved in Tat endolysosome escape and subsequent LTR transactivation. TPCs might represent a novel therapeutic target against HIV-1 infection and HIV-associated neurological complications.

Published
2020

29. MRI-identified multidimensional nodal features predict survival and concurrent chemotherapy benefit for stage II nasopharyngeal carcinoma

Author

Liu Yang, Zhang Jianghu, Wang Jingbo, Wu Runye, Huang Xiaodong, Wang Kai, Qu Yuan, Chen Xuesong, Li Yexiong, Zhang Ye, and Yi Junlin

Subjects
nasopharyngeal carcinoma, stage ii, concurrent chemotherapy, nomogram, nodal features, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Reliable predictors are urgently needed to identify stage II nasopharyngeal carcinoma (NPC) patients who could benefit from concurrent chemoradiotherapy (CCRT). We aimed to develop a nomogram integrating MRI-identified multidimensional features of lymph nodes to predict survival and assist the decision-making of CCRT for stage II NPC.

Published
2022
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50. Urinary PART1 and PLA2R1 Could Potentially Serve as Diagnostic Markers for Diabetic Kidney Disease Patients

Author

Ye,Qinglin, Xu,Guiling, Yuan,Hao, Mi,Junhao, Xie,Yuli, Li,Haoyu, Li,Zhejun, Huang,Guanwen, Chen,Xuesong, Li,Wei, Yang,Rirong, Ye,Qinglin, Xu,Guiling, Yuan,Hao, Mi,Junhao, Xie,Yuli, Li,Haoyu, Li,Zhejun, Huang,Guanwen, Chen,Xuesong, Li,Wei, and Yang,Rirong

Abstract

Qinglin Ye,1,&ast; Guiling Xu,1,&ast; Hao Yuan,2,3 Junhao Mi,2,3 Yuli Xie,2,3 Haoyu Li,1 Zhejun Li,1 Guanwen Huang,1 Xuesong Chen,1 Wei Li,1 Rirong Yang2,3 1Department of Nephrology, The Second Affiliated Hospital of Guangxi Medical University, Nanning, 530005, People’s Republic of China; 2Centre for Genomic and Personalized Medicine, Guangxi key Laboratory for Genomic and Personalized Medicine, Guangxi Collaborative Innovation Center for Genomic and Personalized Medicine, Guangxi Medical University, Nanning, 530021, People’s Republic of China; 3Department of Immunology, School of Basic Medical Sciences, Guangxi Medical University, Nanning, 530021, People’s Republic of China&ast;These authors contributed equally to this workCorrespondence: Rirong Yang, Centre for Genomic and Personalized Medicine, Guangxi key Laboratory for Genomic and Personalized Medicine, Guangxi Collaborative Innovation Center for Genomic and Personalized Medicine, Department of Immunology, School of Basic Medical Sciences, Guangxi Medical University, Nanning, Guangxi, 530021, People’s Republic of China, Fax +86 0771 5317061, Email yangrirong@sr.gxmu.edu.cn; 520yrr@163.com Wei Li, Department of Nephrology, The Second Affiliated Hospital of Guangxi Medical University, Nanning, 530005, People’s Republic of China, Email liwei030514@126.comBackground: Diabetic kidney disease (DKD) is a chronic renal disease which could eventually develop into renal failure. Though albuminuria and estimated glomerular filtration rate (eGFR) are helpful for the diagnosis of DKD, the lack of specific biomarkers reduces the efficiency of therapeutic interventions.Methods: Based on bulk-seq of 56 urine samples collected at different time points (including 11 acquired from DKD patients and 11 from healthy controls), in corporation of scRNA-seq data of urine samples and snRNA-seq data of renal punctures from DKD patients (retrieved from NCBI GEO Omnibus), urine-kidney specific genes were identified by

Published
2023

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