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1. Hybrid Beamforming with Widely-spaced-array for Multi-user Cross-Near-and-Far-Field Communications

Author

Shen, Heyin, Chen, Yuhang, Han, Chong, and Yuan, Jinhong

Subjects
Computer Science - Information Theory
Abstract

With multi-GHz bandwidth, Terahertz (THz) beamforming has drawn increasing attention in the sixth generation (6G) and beyond communications. Existing beamforming designs mainly focus on a compact antenna array where typical communication occurs in the far-field. However, in dense multi-user scenarios, only relying on far-field angle domain fails to distinguish users at similar angles. Therefore, a multi-user widely-spaced array (MU-WSA) is exploited in this paper, which enlarges the near-field region to introduce the additional distance domain, leading to a new paradigm of cross-near-and-far-field (CNFF) communication. Under this paradigm, the CNFF channel model is investigated, based on which the subarray spacing $d_s$ and the number of subarrays $K$ in MU-WSA are optimized to maximize the channel capacity. Then, in sub-connected systems, an alternating optimization (AO) beamforming algorithm is proposed to deal with the special block-diagonal format of the analog precoder. For fully-connected systems, a low-complexity steering-vector reconstruction (SVR)-based algorithm is proposed by constructing specialized steering vectors of MU-WSA. Numerical evaluations show that due to distance domain resolutions, the MU-WSA can improve the SE by over $60$% at a power of $20$dBm compared to the compact array. Additionally, the proposed AO algorithm in the SC system can achieve over 80% of the sum (SE) of the FC system while reducing the number of phase shifters by $K^2$, thereby lowering power consumption. The SVR algorithm in the FC system can achieve over 95% of the upper bound of SE but takes only 10% of the running time of the singular vector decomposition (SVD)-based algorithms.

Published
2024

2. Kinematics-based 3D Human-Object Interaction Reconstruction from Single View

Author

Chen, Yuhang and Wang, Chenxing

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Reconstructing 3D human-object interaction (HOI) from single-view RGB images is challenging due to the absence of depth information and potential occlusions. Existing methods simply predict the body poses merely rely on network training on some indoor datasets, which cannot guarantee the rationality of the results if some body parts are invisible due to occlusions that appear easily. Inspired by the end-effector localization task in robotics, we propose a kinematics-based method that can drive the joints of human body to the human-object contact regions accurately. After an improved forward kinematics algorithm is proposed, the Multi-Layer Perceptron is introduced into the solution of inverse kinematics process to determine the poses of joints, which achieves precise results than the commonly-used numerical methods in robotics. Besides, a Contact Region Recognition Network (CRRNet) is also proposed to robustly determine the contact regions using a single-view video. Experimental results demonstrate that our method outperforms the state-of-the-art on benchmark BEHAVE. Additionally, our approach shows good portability and can be seamlessly integrated into other methods for optimizations.

Published
2024

3. Fair Federated Learning under Domain Skew with Local Consistency and Domain Diversity

Author

Chen, Yuhang, Huang, Wenke, and Ye, Mang

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Federated learning (FL) has emerged as a new paradigm for privacy-preserving collaborative training. Under domain skew, the current FL approaches are biased and face two fairness problems. 1) Parameter Update Conflict: data disparity among clients leads to varying parameter importance and inconsistent update directions. These two disparities cause important parameters to potentially be overwhelmed by unimportant ones of dominant updates. It consequently results in significant performance decreases for lower-performing clients. 2) Model Aggregation Bias: existing FL approaches introduce unfair weight allocation and neglect domain diversity. It leads to biased model convergence objective and distinct performance among domains. We discover a pronounced directional update consistency in Federated Learning and propose a novel framework to tackle above issues. First, leveraging the discovered characteristic, we selectively discard unimportant parameter updates to prevent updates from clients with lower performance overwhelmed by unimportant parameters, resulting in fairer generalization performance. Second, we propose a fair aggregation objective to prevent global model bias towards some domains, ensuring that the global model continuously aligns with an unbiased model. The proposed method is generic and can be combined with other existing FL methods to enhance fairness. Comprehensive experiments on Digits and Office-Caltech demonstrate the high fairness and performance of our method., Comment: Accepted by CVPR2024

Published
2024

7. Single-cell genomics and regulatory networks for 388 human brains.

Author

Emani, Prashant, Liu, Jason, Clarke, Declan, Jensen, Matthew, Warrell, Jonathan, Gupta, Chirag, Meng, Ran, Lee, Che Yu, Xu, Siwei, Dursun, Cagatay, Lou, Shaoke, Chen, Yuhang, Chu, Zhiyuan, Galeev, Timur, Hwang, Ahyeon, Li, Yunyang, Ni, Pengyu, Zhou, Xiao, Bakken, Trygve, Bendl, Jaroslav, Bicks, Lucy, Chatterjee, Tanima, Cheng, Lijun, Cheng, Yuyan, Dai, Yi, Duan, Ziheng, Flaherty, Mary, Fullard, John, Gancz, Michael, Garrido-Martín, Diego, Gaynor-Gillett, Sophia, Grundman, Jennifer, Hawken, Natalie, Henry, Ella, Hoffman, Gabriel, Huang, Ao, Jiang, Yunzhe, Jin, Ting, Jorstad, Nikolas, Kawaguchi, Riki, Khullar, Saniya, Liu, Jianyin, Liu, Junhao, Liu, Shuang, Ma, Shaojie, Margolis, Michael, Mazariegos, Samantha, Moore, Jill, Moran, Jennifer, Nguyen, Eric, Phalke, Nishigandha, Pjanic, Milos, Pratt, Henry, Quintero, Diana, Rajagopalan, Ananya, Riesenmy, Tiernon, Shedd, Nicole, Shi, Manman, Spector, Megan, Terwilliger, Rosemarie, Travaglini, Kyle, Wamsley, Brie, Wang, Gaoyuan, Xia, Yan, Xiao, Shaohua, Yang, Andrew, Zheng, Suchen, Gandal, Michael, Lee, Donghoon, Lein, Ed, Roussos, Panos, Sestan, Nenad, Weng, Zhiping, White, Kevin, Won, Hyejung, Girgenti, Matthew, Zhang, Jing, Wang, Daifeng, Geschwind, Daniel, and Gerstein, Mark

Subjects
Humans, Aging, Brain, Cell Communication, Chromatin, Gene Regulatory Networks, Genomics, Mental Disorders, Prefrontal Cortex, Quantitative Trait Loci, Single-Cell Analysis
Abstract

Single-cell genomics is a powerful tool for studying heterogeneous tissues such as the brain. Yet little is understood about how genetic variants influence cell-level gene expression. Addressing this, we uniformly processed single-nuclei, multiomics datasets into a resource comprising >2.8 million nuclei from the prefrontal cortex across 388 individuals. For 28 cell types, we assessed population-level variation in expression and chromatin across gene families and drug targets. We identified >550,000 cell type-specific regulatory elements and >1.4 million single-cell expression quantitative trait loci, which we used to build cell-type regulatory and cell-to-cell communication networks. These networks manifest cellular changes in aging and neuropsychiatric disorders. We further constructed an integrative model accurately imputing single-cell expression and simulating perturbations; the model prioritized ~250 disease-risk genes and drug targets with associated cell types.

Published
2024

8. Cross-ancestry atlas of gene, isoform, and splicing regulation in the developing human brain

Author

Wen, Cindy, Margolis, Michael, Dai, Rujia, Zhang, Pan, Przytycki, Pawel F, Vo, Daniel D, Bhattacharya, Arjun, Matoba, Nana, Tang, Miao, Jiao, Chuan, Kim, Minsoo, Tsai, Ellen, Hoh, Celine, Aygün, Nil, Walker, Rebecca L, Chatzinakos, Christos, Clarke, Declan, Pratt, Henry, Peters, Mette A, Gerstein, Mark, Daskalakis, Nikolaos P, Weng, Zhiping, Jaffe, Andrew E, Kleinman, Joel E, Hyde, Thomas M, Weinberger, Daniel R, Bray, Nicholas J, Sestan, Nenad, Geschwind, Daniel H, Roeder, Kathryn, Gusev, Alexander, Pasaniuc, Bogdan, Stein, Jason L, Love, Michael I, Pollard, Katherine S, Liu, Chunyu, Gandal, Michael J, Akbarian, Schahram, Abyzov, Alexej, Ahituv, Nadav, Arasappan, Dhivya, Almagro Armenteros, Jose Juan, Beliveau, Brian J, Bendl, Jaroslav, Berretta, Sabina, Bharadwaj, Rahul A, Bicks, Lucy, Brennand, Kristen, Capauto, Davide, Champagne, Frances A, Chatterjee, Tanima, Chatzinakos, Chris, Chen, Yuhang, Chen, H Isaac, Cheng, Yuyan, Cheng, Lijun, Chess, Andrew, Chien, Jo-fan, Chu, Zhiyuan, Clement, Ashley, Collado-Torres, Leonardo, Cooper, Gregory M, Crawford, Gregory E, Davila-Velderrain, Jose, Deep-Soboslay, Amy, Deng, Chengyu, DiPietro, Christopher P, Dracheva, Stella, Drusinsky, Shiron, Duan, Ziheng, Duong, Duc, Dursun, Cagatay, Eagles, Nicholas J, Edelstein, Jonathan, Emani, Prashant S, Fullard, John F, Galani, Kiki, Galeev, Timur, Gaynor, Sophia, Girdhar, Kiran, Goes, Fernando S, Greenleaf, William, Grundman, Jennifer, Guo, Hanmin, Guo, Qiuyu, Gupta, Chirag, Hadas, Yoav, Hallmayer, Joachim, Han, Xikun, Haroutunian, Vahram, Hawken, Natalie, He, Chuan, Henry, Ella, Hicks, Stephanie C, Ho, Marcus, Ho, Li-Lun, Hoffman, Gabriel E, Huang, Yiling, Huuki-Myers, Louise A, and Hwang, Ahyeon

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Biological Psychology, Psychology, Mental Illness, Mental Health, Human Genome, Neurosciences, Brain Disorders, Mental health, Humans, Alternative Splicing, Atlases as Topic, Autism Spectrum Disorder, Brain, Gene Expression Regulation, Developmental, Gene Regulatory Networks, Genome-Wide Association Study, Protein Isoforms, Quantitative Trait Loci, Schizophrenia, Transcriptome, Mental Disorders, PsychENCODE Consortium†, PsychENCODE Consortium, General Science & Technology
Abstract

Neuropsychiatric genome-wide association studies (GWASs), including those for autism spectrum disorder and schizophrenia, show strong enrichment for regulatory elements in the developing brain. However, prioritizing risk genes and mechanisms is challenging without a unified regulatory atlas. Across 672 diverse developing human brains, we identified 15,752 genes harboring gene, isoform, and/or splicing quantitative trait loci, mapping 3739 to cellular contexts. Gene expression heritability drops during development, likely reflecting both increasing cellular heterogeneity and the intrinsic properties of neuronal maturation. Isoform-level regulation, particularly in the second trimester, mediated the largest proportion of GWAS heritability. Through colocalization, we prioritized mechanisms for about 60% of GWAS loci across five disorders, exceeding adult brain findings. Finally, we contextualized results within gene and isoform coexpression networks, revealing the comprehensive landscape of transcriptome regulation in development and disease.

Published
2024

9. Massively parallel characterization of regulatory elements in the developing human cortex

Author

Deng, Chengyu, Whalen, Sean, Steyert, Marilyn, Ziffra, Ryan, Przytycki, Pawel F, Inoue, Fumitaka, Pereira, Daniela A, Capauto, Davide, Norton, Scott, Vaccarino, Flora M, Pollen, Alex A, Nowakowski, Tomasz J, Ahituv, Nadav, Pollard, Katherine S, Akbarian, Schahram, Abyzov, Alexej, Arasappan, Dhivya, Almagro Armenteros, Jose Juan, Beliveau, Brian J, Bendl, Jaroslav, Berretta, Sabina, Bharadwaj, Rahul A, Bhattacharya, Arjun, Bicks, Lucy, Brennand, Kristen, Champagne, Frances A, Chatterjee, Tanima, Chatzinakos, Chris, Chen, Yuhang, Chen, H Isaac, Cheng, Yuyan, Cheng, Lijun, Chess, Andrew, Chien, Jo-fan, Chu, Zhiyuan, Clarke, Declan, Clement, Ashley, Collado-Torres, Leonardo, Cooper, Gregory M, Crawford, Gregory E, Dai, Rujia, Daskalakis, Nikolaos P, Davila-Velderrain, Jose, Deep-Soboslay, Amy, DiPietro, Christopher P, Dracheva, Stella, Drusinsky, Shiron, Duan, Ziheng, Duong, Duc, Dursun, Cagatay, Eagles, Nicholas J, Edelstein, Jonathan, Emani, Prashant S, Fullard, John F, Galani, Kiki, Galeev, Timur, Gandal, Michael J, Gaynor, Sophia, Gerstein, Mark, Geschwind, Daniel H, Girdhar, Kiran, Goes, Fernando S, Greenleaf, William, Grundman, Jennifer, Guo, Hanmin, Guo, Qiuyu, Gupta, Chirag, Hadas, Yoav, Hallmayer, Joachim, Han, Xikun, Haroutunian, Vahram, Hawken, Natalie, He, Chuan, Henry, Ella, Hicks, Stephanie C, Ho, Marcus, Ho, Li-Lun, Hoffman, Gabriel E, Huang, Yiling, Huuki-Myers, Louise A, Hwang, Ahyeon, Hyde, Thomas M, Iatrou, Artemis, Jajoo, Aarti, Jensen, Matthew, Jiang, Lihua, Jin, Peng, Jin, Ting, Jops, Connor, Jourdon, Alexandre, Kawaguchi, Riki, Kellis, Manolis, Khullar, Saniya, Kleinman, Joel E, Kleopoulos, Steven P, and Kozlenkov, Alex

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Stem Cell Research - Embryonic - Human, Stem Cell Research, Human Genome, Genetics, Neurosciences, Underpinning research, Aetiology, 1.1 Normal biological development and functioning, 2.1 Biological and endogenous factors, Neurological, Humans, Cerebral Cortex, Chromatin, Deep Learning, Enhancer Elements, Genetic, Gene Expression Regulation, Developmental, Neurogenesis, Neurons, Organoids, Regulatory Sequences, Nucleic Acid, Promoter Regions, Genetic, Regulatory Elements, Transcriptional, PsychENCODE Consortium‡, PsychENCODE Consortium, General Science & Technology
Abstract

Nucleotide changes in gene regulatory elements are important determinants of neuronal development and diseases. Using massively parallel reporter assays in primary human cells from mid-gestation cortex and cerebral organoids, we interrogated the cis-regulatory activity of 102,767 open chromatin regions, including thousands of sequences with cell type-specific accessibility and variants associated with brain gene regulation. In primary cells, we identified 46,802 active enhancer sequences and 164 variants that alter enhancer activity. Activity was comparable in organoids and primary cells, suggesting that organoids provide an adequate model for the developing cortex. Using deep learning we decoded the sequence basis and upstream regulators of enhancer activity. This work establishes a comprehensive catalog of functional gene regulatory elements and variants in human neuronal development.

Published
2024

10. Can Far-field Beam Training Be Deployed for Cross-field Beam Alignment in Terahertz UM-MIMO Communications?

Author

Chen, Yuhang, Han, Chong, and Björnson, Emil

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Ultra-massive multiple-input multiple-output (UM-MIMO) is the enabler of Terahertz (THz) communications in next-generation wireless networks. In THz UM-MIMO systems, a new paradigm of cross-field communications spanning from near-field to far-field is emerging, since the near-field range expands with higher frequencies and larger array apertures. Precise beam alignment in cross-field is critical but challenging. Specifically, unlike far-field beams that rely only on the angle domain, the incorporation of dual-domain (angle and distance) training significantly increases overhead. A natural question arises of whether far-field beam training can be deployed for cross-field beam alignment. In this paper, this question is answered, by demonstrating that the far-field training enables sufficient signal-to-noise ratio (SNR) in both far- and near-field scenarios, while exciting all channel dimensions. Based on that, we propose a subarray-coordinated hierarchical (SCH) training with greatly reduced overhead. To further obtain high-precision beam designs, we propose a two-phase angle and distance beam estimator (TPBE). Extensive simulations demonstrate the effectiveness of the proposed methods. Compared to near-field exhaustive search, the SCH possesses 0.2\% training overhead. The TPBE achieves 0.01~degrees and 0.02~m estimation root-mean-squared errors for angle and distance. Furthermore, with the estimated beam directions, a near-optimal SNR with 0.11~dB deviation is attained after beam alignment.

Published
2023

11. Orbifold Hirzebruch-Riemann-Roch

Author

Chen, Yuhang

Subjects
Mathematics - Algebraic Geometry
Abstract

We study the orbifold Hirzebruch-Riemann-Roch (HRR) theorem for quotient Deligne-Mumford stacks, explore its relation with the representation theory of finite groups, and derive a new orbifold HRR formula via an orbifold Mukai pairing., Comment: This paper is part of the author's PhD thesis. arXiv admin note: substantial text overlap with arXiv:2204.09824

Published
2023

13. Current situation and prospect of coal mine water treatment technology

Author

LI Fuqin, WANG Cong, ZHENG Jiongzhou, CHEN Yuhang, HE Xuwen, DAI Qibin, and TIAN Li

Subjects
mine water, water quality characteristics, suspended solids mine water, high salinity mine water, Environmental technology. Sanitary engineering, TD1-1066
Abstract

Coal mine water is an important unconventional water source, and the resource utilization of mine water is of great significance in alleviating water scarcity and environmental protection in mining areas. This paper analyzed the source and water quality characteristics of mine water, and summarized the main treatment technologies of different types of mine water such as suspended solids, high salinity, acidity and special pollutants, as well as the characteristics and existing problems of each treatment technology. The majority of mine water contained a significant amount of suspended solids, with considerable fluctuations in both water quality and quantity. Efforts should be focused on enhancing the presettling capabilities of both underground water storage facilities and surface regulating reservoirs, developing and improving underground treatment technology for mining wells, and combining automation and intelligence to achieve unmanned operation. With the continuous increase of highly salinity mine water, its treatment technology had become a research focus in the field of mine water treatment. It was necessary to strengthen pretreatment, develop efficient technologies to remove silicon and hardness, introduce energy recovery devices, combine new and renewable energy to develop green and energy-saving coupling desalination technology, optimize the zero discharge process as a whole, and reduce the treatment cost of concentrated salt wastewater. Acidity and special pollution were currently the difficulties in mine water treatment, distributed and efficient directional processing technology should be adopted to explore the coupling processes and natural restoration governance. Guided by national policies, mining water treatment technology will develop towards being more energy-saving, highly effective, intelligent, and environmentally friendly.

Published
2024
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14. Interpretable Online Log Analysis Using Large Language Models with Prompt Strategies

Author

Liu, Yilun, Tao, Shimin, Meng, Weibin, Wang, Jingyu, Ma, Wenbing, Zhao, Yanqing, Chen, Yuhang, Yang, Hao, Jiang, Yanfei, and Chen, Xun

Subjects
Computer Science - Software Engineering, Computer Science - Computation and Language
Abstract

Automated log analysis is crucial in modern software-intensive systems for facilitating program comprehension throughout software maintenance and engineering life cycles. Existing methods perform tasks such as log parsing and log anomaly detection by providing a single prediction value without interpretation. However, given the increasing volume of system events, the limited interpretability of analysis results hinders analysts' comprehension of program status and their ability to take appropriate actions. Moreover, these methods require substantial in-domain training data, and their performance declines sharply (by up to 62.5%) in online scenarios involving unseen logs from new domains, a common occurrence due to rapid software updates. In this paper, we propose LogPrompt, a novel interpretable log analysis approach for online scenarios. LogPrompt employs large language models (LLMs) to perform online log analysis tasks via a suite of advanced prompt strategies tailored for log tasks, which enhances LLMs' performance by up to 380.7% compared with simple prompts. Experiments on nine publicly available evaluation datasets across two tasks demonstrate that LogPrompt, despite requiring no in-domain training, outperforms existing approaches trained on thousands of logs by up to 55.9%. We also conduct a human evaluation of LogPrompt's interpretability, with six practitioners possessing over 10 years of experience, who highly rated the generated content in terms of usefulness and readability (averagely 4.42/5). LogPrompt also exhibits remarkable compatibility with open-source and smaller-scale LLMs, making it flexible for practical deployment. Code of LogPrompt is available at https://github.com/lunyiliu/LogPrompt., Comment: Accepted by ICPC 2024

Published
2023

15. Equivariant Moduli Theory on $ K3 $ Surfaces

Author

Chen, Yuhang

Subjects
Mathematics - Algebraic Geometry
Abstract

In this paper we study equivariant moduli spaces of sheaves on a $ K3 $ surface $ X $ under a symplectic action of a finite group. We prove that under some mild conditions, equivariant moduli spaces of sheaves on $ X $ are irreducible symplectic manifolds deformation equivalent to Hilbert schemes of points on $ X $ via a connection between Gieseker and Bridgeland moduli spaces, as well as the derived McKay correspondence., Comment: This paper is part of the author's PhD thesis [arXiv:2204.09824]

Published
2023

16. ImDiffusion: Imputed Diffusion Models for Multivariate Time Series Anomaly Detection

Author

Chen, Yuhang, Zhang, Chaoyun, Ma, Minghua, Liu, Yudong, Ding, Ruomeng, Li, Bowen, He, Shilin, Rajmohan, Saravan, Lin, Qingwei, and Zhang, Dongmei

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Anomaly detection in multivariate time series data is of paramount importance for ensuring the efficient operation of large-scale systems across diverse domains. However, accurately detecting anomalies in such data poses significant challenges. Existing approaches, including forecasting and reconstruction-based methods, struggle to address these challenges effectively. To overcome these limitations, we propose a novel anomaly detection framework named ImDiffusion, which combines time series imputation and diffusion models to achieve accurate and robust anomaly detection. The imputation-based approach employed by ImDiffusion leverages the information from neighboring values in the time series, enabling precise modeling of temporal and inter-correlated dependencies, reducing uncertainty in the data, thereby enhancing the robustness of the anomaly detection process. ImDiffusion further leverages diffusion models as time series imputers to accurately capturing complex dependencies. We leverage the step-by-step denoised outputs generated during the inference process to serve as valuable signals for anomaly prediction, resulting in improved accuracy and robustness of the detection process. We evaluate the performance of ImDiffusion via extensive experiments on benchmark datasets. The results demonstrate that our proposed framework significantly outperforms state-of-the-art approaches in terms of detection accuracy and timeliness. ImDiffusion is further integrated into the real production system in Microsoft and observe a remarkable 11.4% increase in detection F1 score compared to the legacy approach. To the best of our knowledge, ImDiffusion represents a pioneering approach that combines imputation-based techniques with time series anomaly detection, while introducing the novel use of diffusion models to the field., Comment: To appear in VLDB 2024.Code: https://github.com/17000cyh/IMDiffusion.git

Published
2023

18. Wise-IoU: Bounding Box Regression Loss with Dynamic Focusing Mechanism

Author

Tong, Zanjia, Chen, Yuhang, Xu, Zewei, and Yu, Rong

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The loss function for bounding box regression (BBR) is essential to object detection. Its good definition will bring significant performance improvement to the model. Most existing works assume that the examples in the training data are high-quality and focus on strengthening the fitting ability of BBR loss. If we blindly strengthen BBR on low-quality examples, it will jeopardize localization performance. Focal-EIoU v1 was proposed to solve this problem, but due to its static focusing mechanism (FM), the potential of non-monotonic FM was not fully exploited. Based on this idea, we propose an IoU-based loss with a dynamic non-monotonic FM named Wise-IoU (WIoU). The dynamic non-monotonic FM uses the outlier degree instead of IoU to evaluate the quality of anchor boxes and provides a wise gradient gain allocation strategy. This strategy reduces the competitiveness of high-quality anchor boxes while also reducing the harmful gradient generated by low-quality examples. This allows WIoU to focus on ordinary-quality anchor boxes and improve the detector's overall performance. When WIoU is applied to the state-of-the-art real-time detector YOLOv7, the AP-75 on the MS-COCO dataset is improved from 53.03% to 54.50%. Code is available at https://github.com/Instinct323/wiou.

Published
2023

19. Cross Far- and Near-field Wireless Communications in Terahertz Ultra-large Antenna Array Systems

Author

Han, Chong, Chen, Yuhang, Yan, Longfei, Chen, Zhi, and Dai, Linglong

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Terahertz (THz) band owning the abundant multi-ten-GHz bandwidth is capable to support Terabit-per-second wireless communications, which is a pillar technology for 6G and beyond systems. With sub-millimeter-long antennas, ultra-massive (UM) MIMO and intelligent surface (IS) systems with thousands of array elements are exploited to effectively combat the distance limitation and blockage problems, which compose a promising THz ultra-large antenna array (ULAA) system. As a combined effect of wavelength and array aperture, the resulting coverage of THz systems ranges from near-field to far-field, leading to a new paradigm of cross-field communications. Although channel models, communications theories, and networking strategies have been studied for far-field and near-field separately, the unified design of cross-field communications that achieve high spectral efficiency and low complexity is still missing. In this article, the challenges and features of THz ULAA cross-field communications are investigated. Furthermore, cross-field solutions in three perspectives are presented, including a hybrid spherical- and planar-wave channel model, cross-field channel estimation, and widely-spaced multi-subarray hybrid beamforming, where a subarray as a basic unit in THz ULAA systems is exploited. The approximation error of channel modeling accuracy, spectral efficiency, and estimation error of these designs are numerically evaluated. Finally, as a roadmap of THz ULAA cross-field communications, multiple open problems and potential research directions are elaborated.

Published
2023

21. Observation of intrinsic chiral bound states in the continuum

Author

Chen, Yang, Deng, Huachun, Sha, Xinbo, Chen, Weijin, Wang, Ruize, Chen, Yuhang, Wu, Dong, Chu, Jiaru, Kivshar, Yuri S., Xiao, Shumin, and Qiu, Cheng-Wei

Subjects
Physics - Optics
Abstract

Photons with spin angular momentum possess intrinsic chirality which underpins many phenomena including nonlinear optics1, quantum optics2, topological photonics3 and chiroptics4. Intrinsic chirality is weak in natural materials, and recent theoretical proposals5-7 aimed to enlarge circular dichroism by resonant metasurfaces supporting bound states in the continuum that enhance substantially chiral light-matter interaction. Those insightful works resort to three-dimensional sophisticated geometries, which are too challenging to be realized for optical frequencies8. Therefore, most of the experimental attempts9-11 showing strong circular dichroism rely on false/extrinsic chirality by employing either oblique incidence9, 10 or structural anisotropy11. Here, we report on the experimental realization of true/intrinsic chiral response with resonant metasurfaces where the engineered slant geometry breaks both in-plane and out-of-plane symmetries. Our result marks the first observation of intrinsic chiral bound states in the continuum with near-unity chiral dichroism of 0.93 and record-high quality factor exceeding 2663 for visible frequencies. Our chiral metasurfaces promise a plethora of applications in chiral light sources and detectors, chiral sensing, valleytronics and asymmetric photocatalysis.

Published
2022
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24. A Multi-task Framework for Infrared Small Target Detection and Segmentation

Author

Chen, Yuhang, Li, Liyuan, Liu, Xin, Su, Xiaofeng, and Chen, Fansheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Due to the complicated background and noise of infrared images, infrared small target detection is one of the most difficult problems in the field of computer vision. In most existing studies, semantic segmentation methods are typically used to achieve better results. The centroid of each target is calculated from the segmentation map as the detection result. In contrast, we propose a novel end-to-end framework for infrared small target detection and segmentation in this paper. First, with the use of UNet as the backbone to maintain resolution and semantic information, our model can achieve a higher detection accuracy than other state-of-the-art methods by attaching a simple anchor-free head. Then, a pyramid pool module is used to further extract features and improve the precision of target segmentation. Next, we use semantic segmentation tasks that pay more attention to pixel-level features to assist in the training process of object detection, which increases the average precision and allows the model to detect some targets that were previously not detectable. Furthermore, we develop a multi-task framework for infrared small target detection and segmentation. Our multi-task learning model reduces complexity by nearly half and speeds up inference by nearly twice compared to the composite single-task model, while maintaining accuracy. The code and models are publicly available at https://github.com/Chenastron/MTUNet.

Published
2022
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26. Hybrid Spherical- and Planar-Wave Channel Modeling and Estimation for Terahertz Integrated UM-MIMO and IRS Systems

Author

Chen, Yuhang, Li, Renwang, Han, Chong, Sun, Shu, and Tao, Meixia

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Integrated ultra-massive multiple-input multiple-output (UM-MIMO) and intelligent reflecting surface (IRS) systems are promising for 6G and beyond Terahertz (0.1-10 THz) communications, to effectively bypass the barriers of limited coverage and line-of-sight blockage. However, excessive dimensions of UM-MIMO and IRS enlarge the near-field region, while strong THz channel sparsity in far-field is detrimental to spatial multiplexing. Moreover, channel estimation (CE) requires recovering the large-scale channel from severely compressed observations due to limited RF-chains. To tackle these challenges, a hybrid spherical- and planar-wave channel model (HSPM) is developed for the cascaded channel of the integrated system. The spatial multiplexing gains under near-field and far-field regions are analyzed, which are found to be limited by the segmented channel with a lower rank. Furthermore, a compressive sensing-based CE framework is developed, including a sparse channel representation method, a separate-side estimation (SSE) and a dictionary-shrinkage estimation (DSE) algorithms. Numerical results verify the effectiveness of the HSPM, the capacity of which is only $5\times10^{-4}$ bits/s/Hz deviated from that obtained by the ground-truth spherical-wave-model, with 256 elements. While the SSE achieves improved accuracy for CE than benchmark algorithms, the DSE is more attractive in noisy environments, with 0.8 dB lower normalized-mean-square-error than SSE.

Published
2022

27. Orbifold Hirzebruch-Riemann-Roch for quotient Deligne-Mumford stacks and equivariant moduli theory on $ K3 $ surfaces

Author

Chen, Yuhang

Subjects
Mathematics - Algebraic Geometry
Abstract

We study the orbifold Hirzebruch-Riemann-Roch (HRR) theorem for quotient Deligne-Mumford stacks, explore its relation with the representation theory of finite groups, and derive a new orbifold HRR formula via an orbifold Mukai pairing. As a first application, we use this formula to compute the dimensions of $ G $-equivariant moduli spaces of stable sheaves on a $ K3 $ surface $ X $ under the action of a finite subgroup $ G $ of its symplectic automorphism group. We then apply the orbifold HRR formula to reproduce the number of fixed points on $ X $ when $ G $ is cyclic without using the Lefschetz fixed point formula. We prove that under some mild conditions, equivariant moduli spaces of stable sheaves on $ X $ are irreducible symplectic manifolds deformation equivalent to Hilbert schemes of points on $ X $ via a connection between Gieseker and Bridgeland moduli spaces, as well as the derived McKay correspondence., Comment: Removed an assumption in the main theorem, simplified the proof of Proposition 4.85, and modified some background material

Published
2022

28. PRINCE: A Pruned AMP Integrated Deep CNN Method for Efficient Channel Estimation of Millimeter-wave and Terahertz Ultra-Massive MIMO Systems

Author

Hu, Zhengdong, Chen, Yuhang, and Han, Chong

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Millimeter-wave (mmWave) and Terahertz (THz)-band communications exploit the abundant bandwidth to fulfill the increasing data rate demands of 6G wireless communications. To compensate for the high propagation loss with reduced hardware costs, ultra-massive multiple-input multiple-output (UM-MIMO) with a hybrid beamforming structure is a promising technology in the mmWave and THz bands. However, channel estimation (CE) is challenging for hybrid UM-MIMO systems, which requires recovering the high-dimensional channels from severely few channel observations. In this paper, a Pruned Approximate Message Passing (AMP) Integrated Deep Convolutional-neural-network (DCNN) CE (PRINCE) method is firstly proposed, which enhances the estimation accuracy of the AMP method by appending a DCNN network. Moreover, by truncating the insignificant feature maps in the convolutional layers of the DCNN network, a pruning method including training with regularization, pruning and refining procedures is developed to reduce the network scale. Simulation results show that the PRINCE achieves a good trade-off between the CE accuracy and significantly low complexity, with normalized-mean-square-error (NMSE) of $-10$ dB at signal-to-noise-ratio (SNR) as $10$ dB after eliminating $80\%$ feature maps.

Published
2022

29. Venus: An efficient virus infection detection and fusion site discovery method using single-cell and bulk RNA-seq data.

Author

Lee, Che, Chen, Yuhang, Duan, Ziheng, Xu, Min, Girgenti, Matthew, Xu, Ke, Gerstein, Mark, and Zhang, Jing

Subjects
Humans, HIV Infections, Liver Neoplasms, RNA-Seq, Sequence Analysis, RNA, Software, Viruses
Abstract

Early and accurate detection of viruses in clinical and environmental samples is essential for effective public healthcare, treatment, and therapeutics. While PCR detects potential pathogens with high sensitivity, it is difficult to scale and requires knowledge of the exact sequence of the pathogen. With the advent of next-gen single-cell sequencing, it is now possible to scrutinize viral transcriptomics at the finest possible resolution-cells. This newfound ability to investigate individual cells opens new avenues to understand viral pathophysiology with unprecedented resolution. To leverage this ability, we propose an efficient and accurate computational pipeline, named Venus, for virus detection and integration site discovery in both single-cell and bulk-tissue RNA-seq data. Specifically, Venus addresses two main questions: whether a tissue/cell type is infected by viruses or a virus of interest? And if infected, whether and where has the virus inserted itself into the human genome? Our analysis can be broken into two parts-validation and discovery. Firstly, for validation, we applied Venus on well-studied viral datasets, such as HBV- hepatocellular carcinoma and HIV-infection treated with antiretroviral therapy. Secondly, for discovery, we analyzed datasets such as HIV-infected neurological patients and deeply sequenced T-cells. We detected viral transcripts in the novel target of the brain and high-confidence integration sites in immune cells. In conclusion, here we describe Venus, a publicly available software which we believe will be a valuable virus investigation tool for the scientific community at large.

Published
2022

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