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1. 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

2. Bridging the Gap: GRB 230812B -- A Three-Second Supernova-Associated Burst Detected by the GRID Mission

Author

Wang, Chen-Yu, Yin, Yi-Han Iris, Zhang, Bin-Bin, Feng, Hua, Zeng, Ming, Xiong, Shao-Lin, Pan, Xiao-Fan, Yang, Jun, Zhang, Yan-Qiu, Li, Chen, Yan, Zhen-Yu, Wang, Chen-Wei, Zheng, Xu-Tao, Liu, Jia-Cong, Wang, Qi-Dong, Yang, Zi-Rui, Li, Long-Hao, Liu, Qi-Ze, Zhao, Zheng-Yang, Hu, Bo, Liu, Yi-Qi, Lu, Si-Yuan, Luo, Zi-You, Cang, Ji-Rong, Cao, De-Zhi, Han, Wen-Tao, Jia, Li-Ping, Pan, Xing-Yu, Tian, Yang, Xu, Ben-Da, Yang, Xiao, and Zeng, Zhi

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

GRB 230812B, detected by the Gamma-Ray Integrated Detectors (GRID) constellation mission, is an exceptionally bright gamma-ray burst (GRB) with a duration of only 3 seconds. Sitting near the traditional boundary ($\sim$ 2 s) between long and short GRBs, GRB 230812B is notably associated with a supernova (SN), indicating a massive star progenitor. This makes it a rare example of a short-duration GRB resulting from stellar collapse. Our analysis, using a time-evolving synchrotron model, suggests that the burst has an emission radius of approximately $10^{14.5}$~cm. We propose that the short duration of GRB 230812B is due to the combined effects of the central engine's activity time and the time required for the jet to break through the stellar envelope. Our findings provide another case that challenges the conventional view that short-duration GRBs originate exclusively from compact object mergers, demonstrating that a broader range of durations exists for GRBs arising from the collapse of massive stars., Comment: 10 pages, 3 tables, 11 figures

Published
2024

3. Enhancement of Over-the-Air Federated Learning by Using AI-based Fluid Antenna System

Author

Ahmadzadeh, Mohsen, Pakravan, Saeid, Hodtani, Ghosheh Abed, Zeng, Ming, and Chouinard, Jean-Yves

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

This letter investigates an over-the-air federated learning (OTA-FL) system that employs fluid antennas (FAs) at the access point (AP) to enhance learning performance by leveraging the additional degrees of freedom provided by antenna mobility. First, we analyze the convergence of the OTA-FL system and derive the optimality gap to illustrate the influence of FAs on learning performance. Then, we formulate a nonconvex optimization problem to minimize the optimality gap by jointly optimizing the positions of the FAs and the beamforming vector. To address the dynamic environment, we cast this optimization problem as a Markov decision process (MDP) and propose the recurrent deep deterministic policy gradient (RDPG) algorithm. Finally, extensive simulations show that the FA-assisted OTA-FL system outperforms systems with fixed-position antennas and that the RDPG algorithm surpasses the existing methods., Comment: 5 pages, 3 figures

Published
2024

4. Large Language Models in the Clinic: A Comprehensive Benchmark

Author

Liu, Fenglin, Li, Zheng, Zhou, Hongjian, Yin, Qingyu, Yang, Jingfeng, Tang, Xianfeng, Luo, Chen, Zeng, Ming, Jiang, Haoming, Gao, Yifan, Nigam, Priyanka, Nag, Sreyashi, Yin, Bing, Hua, Yining, Zhou, Xuan, Rohanian, Omid, Thakur, Anshul, Clifton, Lei, and Clifton, David A.

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

The adoption of large language models (LLMs) to assist clinicians has attracted remarkable attention. Existing works mainly adopt the close-ended question-answering (QA) task with answer options for evaluation. However, many clinical decisions involve answering open-ended questions without pre-set options. To better understand LLMs in the clinic, we construct a benchmark ClinicBench. We first collect eleven existing datasets covering diverse clinical language generation, understanding, and reasoning tasks. Furthermore, we construct six novel datasets and clinical tasks that are complex but common in real-world practice, e.g., open-ended decision-making, long document processing, and emerging drug analysis. We conduct an extensive evaluation of twenty-two LLMs under both zero-shot and few-shot settings. Finally, we invite medical experts to evaluate the clinical usefulness of LLMs. The benchmark data is available at https://github.com/AI-in-Health/ClinicBench., Comment: Accepted at EMNLP 2024 Main Conference

Published
2024

5. RHanDS: Refining Malformed Hands for Generated Images with Decoupled Structure and Style Guidance

Author

Wang, Chengrui, Liu, Pengfei, Zhou, Min, Zeng, Ming, Li, Xubin, Ge, Tiezheng, and zheng, Bo

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Although diffusion models can generate high-quality human images, their applications are limited by the instability in generating hands with correct structures. Some previous works mitigate the problem by considering hand structure yet struggle to maintain style consistency between refined malformed hands and other image regions. In this paper, we aim to solve the problem of inconsistency regarding hand structure and style. We propose a conditional diffusion-based framework RHanDS to refine the hand region with the help of decoupled structure and style guidance. Specifically, the structure guidance is the hand mesh reconstructed from the malformed hand, serving to correct the hand structure. The style guidance is a hand image, e.g., the malformed hand itself, and is employed to furnish the style reference for hand refining. In order to suppress the structure leakage when referencing hand style and effectively utilize hand data to improve the capability of the model, we build a multi-style hand dataset and introduce a twostage training strategy. In the first stage, we use paired hand images for training to generate hands with the same style as the reference. In the second stage, various hand images generated based on the human mesh are used for training to enable the model to gain control over the hand structure. We evaluate our method and counterparts on the test dataset of the proposed multi-style hand dataset. The experimental results show that RHanDS can effectively refine hands structure- and style- correctly compared with previous methods. The codes and datasets will be available soon.

Published
2024

6. Auto-Encoder Optimized PAM IM/DD Transceivers for Amplified Fiber Links

Author

Omidi, Amir, Banawan, Mai, Weckenmann, Erwan, Paquin, Benoit, Geravand, Alireza, Zheng, Zibo, Shi, Wei, Zeng, Ming, and Rusch, Leslie A.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

We examine pulse amplitude modulation (PAM) for intensity modulation and direct detection systems. Using a straight-forward, mixed noise model, we optimize the constellations with an autoencoder-based neural network (NN), an improve required signal-to-noise ratio of 4 dB for amplified spontaneous emission (ASE)-limited PAM4 and PAM8, without increasing system complexity. Performance can also be improved in O-band wavelength division multiplexing system with semiconductor optical amplifier amplification and chromatic dispersion. We show via simulation that for such a system operating at 53 Gbaud, we can extend the reach of PAM4 by 10-25 km with an optimized constellation and a NN decoder. We present an experimental validation of 4 dB improvement of an ASE-limited PAM4 at 60 Gbaud using an optimized constellation and a NN decoder., Comment: 9 pages and 13 figures

Published
2024

7. MeV Astrophysical Spectroscopic Surveyor (MASS): A Compton Telescope Mission Concept

Author

Zhu, Jiahuan, Zheng, Xutao, Feng, Hua, Zeng, Ming, Huang, Chien-You, Hsiang, Jr-Yue, Chang, Hsiang-Kuang, Li, Hong, Chang, Hao, Pan, Xiaofan, Ma, Ge, Wu, Qiong, Li, Yulan, Bai, Xuening, Ge, Mingyu, Ji, Long, Li, Jian, Shen, Yangping, Wang, Wei, Wang, Xilu, Zhang, Binbin, and Zhang, Jin

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We propose a future mission concept, the MeV Astrophysical Spectroscopic Surveyor (MASS), which is a large area Compton telescope using 3D position sensitive cadmium zinc telluride (CZT) detectors optimized for emission line detection. The payload consists of two layers of CZT detectors in a misaligned chessboard layout, with a total geometric area of 4096 cm$^2$ for on-axis observations. The detectors can be operated at room-temperature with an energy resolution of 0.6\% at 0.662 MeV. The in-orbit background is estimated with a mass model. At energies around 1 MeV, a line sensitivity of about $10^{-5}$ photons cm$^{-2}$ s$^{-1}$ can be obtained with a 1 Ms observation. The main science objectives of MASS include nucleosynthesis in astrophysics and high energy astrophysics related to compact objects and transient sources. The payload CZT detectors weigh roughly 40 kg, suggesting that it can be integrated into a micro- or mini-satellite. We have constructed a pathfinder, named as MASS-Cube, to have a direct test of the technique with 4 detector units in space in the near future., Comment: accepted for publication in Experimental Astronomy

Published
2023

8. Noise discrimination method based on charge distribution of CMOS detectors for soft X-ray

Author

Fang, Xinchao, Cang, Jirong, Wu, Qiong, Feng, Hua, and Zeng, Ming

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors
Abstract

Complementary metal-oxide semiconductor (CMOS) sensors have been widely used as soft X-ray detectors in several fields owing to their recent developments and unique advantages. The parameters of CMOS detectors have been extensively studied and evaluated. However, the key parameter signal-to-noise ratio in certain fields has not been sufficiently studied. In this study, we analysed the charge distribution of the CMOS detector GSENSE2020BSI and proposed a two-dimensional segmentation method to discriminate signals according to the charge distribution. The effect of the two-dimensional segmentation method on the GSENSE2020BSI dectector was qualitatively evaluated. The optimal feature parameters used in the two-dimensional segmentation method was studied for G2020BSI. However, the two-dimensional segmentation method is insensitive to feature parameters., Comment: 19 pages, 13 figures, submitted to NIM-A

Published
2023

9. Research on the X-Ray Polarization Deconstruction Method Based on Hexagonal Convolutional Neural Network

Author

Li, Ya-Nan, Zhu, Jia-Huan, Gao, Huai-Zhong, Li, Hong, Cang, Ji-Rong, Zeng, Zhi, Feng, Hua, and Zeng, Ming

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Track reconstruction algorithms are critical for polarization measurements. In addition to traditional moment-based track reconstruction approaches, convolutional neural networks (CNN) are a promising alternative. However, hexagonal grid track images in gas pixel detectors (GPD) for better anisotropy do not match the classical rectangle-based CNN, and converting the track images from hexagonal to square results in loss of information. We developed a new hexagonal CNN algorithm for track reconstruction and polarization estimation in X-ray polarimeters, which was used to extract emission angles and absorption points from photoelectron track images and predict the uncertainty of the predicted emission angles. The simulated data of PolarLight test were used to train and test the hexagonal CNN models. For individual energies, the hexagonal CNN algorithm produced 15-30% improvements in modulation factor compared to moment analysis method for 100% polarized data, and its performance was comparable to rectangle-based CNN algorithm newly developed by IXPE team, but at a much less computational cost., Comment: 21 pages, 12 figures, submitted to NST

Published
2023

10. Resource Allocation for RIS-Empowered Wireless Communications: Low-Complexity and Robust Designs

Author

Zeng, Ming, Hao, Wanming, Peng, Zhangjie, Chu, Zheng, Li, Xingwang, You, Changsheng, and Pan, Cunhua

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

This article delves into advancements in resource allocation techniques tailored for systems utilizing reconfigurable intelligent surfaces (RIS), with a primary focus on achieving low-complexity and resilient solutions. The investigation of low-complexity approaches for RIS holds significant relevance, primarily owing to the intricate characteristics inherent in RIS-based systems and the need of deploying large-scale RIS arrays. Concurrently, the exploration of robust solutions aims to address the issue of hardware impairments occurring at both the transceivers and RIS components in practical RIS-assisted systems. In the realm of both low-complexity and robust resource allocation, this article not only elucidates the fundamental techniques underpinning these methodologies but also offers comprehensive numerical results for illustrative purposes. The necessity of adopting resource allocation strategies that are both low in complexity and resilient is thoroughly established. Ultimately, this article provides prospective research avenues in the domain of low-complexity and robust resource allocation techniques tailored for RIS-assisted systems., Comment: submitted to IEEE WCM

Published
2023

11. Physical Layer Security for NOMA Systems: Requirements, Issues, and Recommendations

Author

Pakravan, Saeid, Chouinard, Jean-Yves, Li, Xingwang, Zeng, Ming, Hao, Wanming, Pham, Quoc-Viet, and Dobre, Octavia A.

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Non-orthogonal multiple access (NOMA) has been viewed as a potential candidate for the upcoming generation of wireless communication systems. Comparing to traditional orthogonal multiple access (OMA), multiplexing users in the same time-frequency resource block can increase the number of served users and improve the efficiency of the systems in terms of spectral efficiency. Nevertheless, from a security view-point, when multiple users are utilizing the same time-frequency resource, there may be concerns regarding keeping information confidential. In this context, physical layer security (PLS) has been introduced as a supplement of protection to conventional encryption techniques by making use of the random nature of wireless transmission media for ensuring communication secrecy. The recent years have seen significant interests in PLS being applied to NOMA networks. Numerous scenarios have been investigated to assess the security of NOMA systems, including when active and passive eavesdroppers are present, as well as when these systems are combined with relay and reconfigurable intelligent surfaces (RIS). Additionally, the security of the ambient backscatter (AmB)-NOMA systems are other issues that have lately drawn a lot of attention. In this paper, a thorough analysis of the PLS-assisted NOMA systems research state-of-the-art is presented. In this regard, we begin by outlining the foundations of NOMA and PLS, respectively. Following that, we discuss the PLS performances for NOMA systems in four categories depending on the type of the eavesdropper, the existence of relay, RIS, and AmB systems in different conditions. Finally, a thorough explanation of the most recent PLS-assisted NOMA systems is given., Comment: 17 pages, 4 figures

Published
2023
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12. Robust Ranking Explanations

Author

Chen, Chao, Guo, Chenghua, Ma, Guixiang, Zeng, Ming, Zhang, Xi, and Xie, Sihong

Subjects
Computer Science - Machine Learning, Computer Science - Cryptography and Security
Abstract

Robust explanations of machine learning models are critical to establish human trust in the models. Due to limited cognition capability, most humans can only interpret the top few salient features. It is critical to make top salient features robust to adversarial attacks, especially those against the more vulnerable gradient-based explanations. Existing defense measures robustness using $\ell_p$-norms, which have weaker protection power. We define explanation thickness for measuring salient features ranking stability, and derive tractable surrogate bounds of the thickness to design the \textit{R2ET} algorithm to efficiently maximize the thickness and anchor top salient features. Theoretically, we prove a connection between R2ET and adversarial training. Experiments with a wide spectrum of network architectures and data modalities, including brain networks, demonstrate that R2ET attains higher explanation robustness under stealthy attacks while retaining accuracy., Comment: Accepted to IMLH (Interpretable ML in Healthcare) workshop at ICML 2023. arXiv admin note: substantial text overlap with arXiv:2212.14106

Published
2023

18. EMEF: Ensemble Multi-Exposure Image Fusion

Author

Liu, Renshuai, Li, Chengyang, Cao, Haitao, Zheng, Yinglin, Zeng, Ming, and Cheng, Xuan

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

Although remarkable progress has been made in recent years, current multi-exposure image fusion (MEF) research is still bounded by the lack of real ground truth, objective evaluation function, and robust fusion strategy. In this paper, we study the MEF problem from a new perspective. We don't utilize any synthesized ground truth, design any loss function, or develop any fusion strategy. Our proposed method EMEF takes advantage of the wisdom of multiple imperfect MEF contributors including both conventional and deep learning-based methods. Specifically, EMEF consists of two main stages: pre-train an imitator network and tune the imitator in the runtime. In the first stage, we make a unified network imitate different MEF targets in a style modulation way. In the second stage, we tune the imitator network by optimizing the style code, in order to find an optimal fusion result for each input pair. In the experiment, we construct EMEF from four state-of-the-art MEF methods and then make comparisons with the individuals and several other competitive methods on the latest released MEF benchmark dataset. The promising experimental results demonstrate that our ensemble framework can "get the best of all worlds". The code is available at https://github.com/medalwill/EMEF., Comment: Preprint, Accepted by AAAI 2023

Published
2023

19. X-ray Polarimetry of the accreting pulsar 1A~0535+262 in the supercritical state with PolarLight

Author

Long, Xiangyun, Feng, Hua, Li, Hong, Kong, Ling-Da, Heyl, Jeremy, Ji, Long, Tao, Lian, Muleri, Fabio, Wu, Qiong, Zhu, Jiahuan, Huang, Jiahui, Minuti, Massimo, Jiang, Weichun, Citraro, Saverio, Nasimi, Hikmat, Yu, Jiandong, Jin, Ge, Zeng, Ming, An, Peng, Baldini, Luca, Bellazzini, Ronaldo, Brez, Alessandro, Latronico, Luca, Sgrò, Carmelo, Spandre, Gloria, Pinchera, Michele, Soffitta, Paolo, and Costa, Enrico

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The X-ray pulsar 1A 0535+262 exhibited a giant outburst in 2020, offering us a unique opportunity for X-ray polarimetry of an accreting pulsar in the supercritical state. Measurement with PolarLight yielded a non-detection in 3-8 keV; the 99% upper limit of the polarization fraction (PF) is found to be 0.34 averaged over spin phases, or 0.51 based on the rotating vector model. No useful constraint can be placed with phase resolved polarimetry. These upper limits are lower than a previous theoretical prediction of 0.6-0.8, but consistent with those found in other accreting pulsars, like Her X-1, Cen X-3, 4U 1626-67, and GRO J1008-57, which were in the subcritical state, or at least not confidently in the supercritical state, during the polarization measurements. Our results suggest that the relatively low PF seen in accreting pulsars cannot be attributed to the source not being in the supercritical state, but could be a general feature., Comment: accepted for publication in ApJ

Published
2023
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20. High quality beam produced by tightly focused laser driven wakefield accelerators

Author

Wang, Jia, Zeng, Ming, Li, Dazhang, Wang, Xiaoning, and Gao, Jie

Subjects
Physics - Accelerator Physics, Physics - Plasma Physics
Abstract

We propose to use tightly focused lasers to generate high quality electron beams in laser wakefield accelerators. In this scheme, the expansion of the laser beam after the focal position enlarges the size of wakefield bubble, which reduces the effective phase velocity of the wake and triggers injection of plasma electrons. This scheme injects a relatively long beam with high charge. The energy spread of the injected beam can be minimized if an optimal acceleration distance is chosen so that the beam chirp is suppressed. Particle-in-cell simulations indicate that electron beams with the charge in the order of nanocoulomb, the energy spread of $\sim 1\%$, and the normalized emittance of $\rm \sim 0.1\ mm\cdot mrad$ can be generated in uniform plasma using $\sim 100\ \rm TW$ laser pulses. An empirical formula is also given for predicting the beam charge. This injection scheme, with a very simple setup, paves the way towards practical high-quality laser wakefield accelerators for table-top electron and radiation sources., Comment: 7 pages, 9 figures

Published
2023
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21. MusicFace: Music-driven Expressive Singing Face Synthesis

Author

Liu, Pengfei, Deng, Wenjin, Li, Hengda, Wang, Jintai, Zheng, Yinglin, Ding, Yiwei, Guo, Xiaohu, and Zeng, Ming

Subjects
Computer Science - Graphics, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Sound, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

It is still an interesting and challenging problem to synthesize a vivid and realistic singing face driven by music signal. In this paper, we present a method for this task with natural motions of the lip, facial expression, head pose, and eye states. Due to the coupling of the mixed information of human voice and background music in common signals of music audio, we design a decouple-and-fuse strategy to tackle the challenge. We first decompose the input music audio into human voice stream and background music stream. Due to the implicit and complicated correlation between the two-stream input signals and the dynamics of the facial expressions, head motions and eye states, we model their relationship with an attention scheme, where the effects of the two streams are fused seamlessly. Furthermore, to improve the expressiveness of the generated results, we propose to decompose head movements generation into speed generation and direction generation, and decompose eye states generation into the short-time eye blinking generation and the long-time eye closing generation to model them separately. We also build a novel SingingFace Dataset to support the training and evaluation of this task, and to facilitate future works on this topic. Extensive experiments and user study show that our proposed method is capable of synthesizing vivid singing face, which is better than state-of-the-art methods qualitatively and quantitatively., Comment: Accepted to CVMJ

Published
2023

22. Insight-HXMT and GECAM-C observations of the brightest-of-all-time GRB 221009A

Author

An, Zheng-Hua, Antier, S., Bi, Xing-Zi, Bu, Qing-Cui, Cai, Ce, Cao, Xue-Lei, Camisasca, Anna-Elisa, Chang, Zhi, Chen, Gang, Chen, Li, Chen, Tian-Xiang, Chen, Wen, Chen, Yi-Bao, Chen, Yong, Chen, Yu-Peng, Coughlin, Michael W., Cui, Wei-Wei, Dai, Zi-Gao, Hussenot-Desenonges, T., Du, Yan-Qi, Du, Yuan-Yuan, Du, Yun-Fei, Fan, Cheng-Cheng, Frontera, Filippo, Gao, He, Gao, Min, Ge, Ming-Yu, Gong, Ke, Gu, Yu-Dong, Guan, Ju, Guo, Dong-Ya, Guo, Zhi-Wei, Guidorzi, Cristiano, Han, Da-Wei, He, Jian-Jian, He, Jun-Wang, Hou, Dong-Jie, Huang, Yue, Huo, Jia, Ji, Zhen, Jia, Shu-Mei, Jiang, Wei-Chun, Kann, David Alexander, Klotz, A., Kong, Ling-Da, Lan, Lin, Li, An, Li, Bing, Li, Chao-Yang, Li, Cheng-Kui, Li, Gang, Li, Mao-Shun, Li, Ti-Pei, Li, Wei, Li, Xiao-Bo, Li, Xin-Qiao, Li, Xu-Fang, Li, Yan-Guo, Li, Zheng-Wei, Liang, Jing, Liang, Xiao-Hua, Liao, Jin-Yuan, Lin, Lin, Liu, Cong-Zhan, Liu, He-Xin, Liu, Hong-Wei, Liu, Jia-Cong, Liu, Xiao-Jing, Liu, Ya-Qing, Liu, Yu-Rong, Lu, Fang-Jun, Lu, Hong, Lu, Xue-Feng, Luo, Qi, Luo, Tao, Ma, Bin-Yuan, Ma, Fu-Li, Ma, Rui-Can, Ma, Xiang, Maccary, Romain, Mao, Ji-Rong, Meng, Bin, Nie, Jian-Yin, Orlandini, Mauro, Ou, Ge, Peng, Jing-Qiang, Peng, Wen-Xi, Qiao, Rui, Qu, Jin-Lu, Ren, Xiao-Qin, Shi, Jing-Yan, Shi, Qi, Song, Li-Ming, Song, Xin-Ying, Su, Ju, Sun, Gong-Xing, Sun, Liang, Sun, Xi-Lei, Tan, Wen-Jun, Tan, Ying, Tao, Lian, Tuo, You-Li, Turpin, Damien, Wang, Jin-Zhou, Wang, Chen, Wang, Chen-Wei, Wang, Hong-Jun, Wang, Hui, Wang, Jin, Wang, Ling-Jun, Wang, Peng-Ju, Wang, Ping, Wang, Wen-Shuai, Wang, Xiang-Yu, Wang, Xi-Lu, Wang, Yu-Sa, Wang, Yue, Wen, Xiang-Yang, Wu, Bo-Bing, Wu, Bai-Yang, Wu, Hong, Xiao, Sheng-Hui, Xiao, Shuo, Xiao, Yun-Xiang, Xie, Sheng-Lun, Xiong, Shao-Lin, Xiong, Sen-Lin, Xu, Dong, Xu, He, Xu, Yan-Jun, Xu, Yan-Bing, Xu, Ying-Chen, Xu, Yu-Peng, Xue, Wang-Chen, Yang, Sheng, Yang, Yan-Ji, Yang, Zi-Xu, Ye, Wen-Tao, Yi, Qi-Bin, Yi, Shu-Xu, Yin, Qian-Qing, You, Yuan, Yu, Yun-Wei, Yu, Wei, Yu, Wen-Hui, Zeng, Ming, Zhang, Bing, Zhang, Bin-Bin, Zhang, Da-Li, Zhang, Fan, Zhang, Hong-Mei, Zhang, Juan, Zhang, Liang, Zhang, Peng, Zhang, Shu, Zhang, Shuang-Nan, Zhang, Wan-Chang, Zhang, Xiao-Feng, Zhang, Xiao-Lu, Zhang, Yan-Qiu, Zhang, Yan-Ting, Zhang, Yi-Fei, Zhang, Yuan-Hang, Zhang, Zhen, Zhao, Guo-Ying, Zhao, Hai-Sheng, Zhao, Hong-Yu, Zhao, Qing-Xia, Zhao, Shu-Jie, Zhao, Xiao-Yun, Zhao, Xiao-Fan, Zhao, Yi, Zheng, Chao, Zheng, Shi-Jie, Zhou, Deng-Ke, Zhou, Xing, and Zhu, Xiao-Cheng

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

GRB 221009A is the brightest gamma-ray burst ever detected since the discovery of this kind of energetic explosions. However, an accurate measurement of the prompt emission properties of this burst is very challenging due to its exceptional brightness. With joint observations of \textit{Insight}-HXMT and GECAM-C, we made an unprecedentedly accurate measurement of the emission during the first $\sim$1800 s of GRB 221009A, including its precursor, main emission (ME, which dominates the burst in flux), flaring emission and early afterglow, in the hard X-ray to soft gamma-ray band from $\sim$ 10 keV to $\sim$ 6 MeV. Based on the GECAM-C unsaturated data of the ME, we measure a record-breaking isotropic equivalent energy ($E_{\rm iso}$) of $\bf \sim 1.5 \times 10^{55}$ erg, which is about eight times the total rest-mass energy of the Sun. The early afterglow data require a significant jet break between 650 s and 1100 s, most likely at $\sim950$ s from the afterglow starting time $T_{AG}$, which corresponds to a jet opening angle of $\sim {0.7^\circ} \ (\eta_\gamma n)^{1/8}$, where $n$ is the ambient medium density in units of $\rm cm^{-3}$ and $\eta_\gamma$ is the ratio between $\gamma$-ray energy and afterglow kinetic energy. The beaming-corrected total $\gamma$-ray energy $E_{\gamma}$ is $\sim 1.15 \times10^{51} \ (\eta_\gamma n)^{1/4}$ erg, which is typical for long GRBs. These results suggest that this GRB may have a special central engine, which could launch and collimate a very narrowly beamed jet with an ordinary energy budget, leading to exceptionally luminous gamma-ray radiation per unit solid angle. Alternatively, more GRBs might have such a narrow and bright beam, which are missed by an unfavorable viewing angle or have been detected without distance measurement., Comment: Submitted to National Science Review. This paper is under press embargo, contact the corresponding author for details

Published
2023

23. A miRNA-disease association prediction model based on tree-path global feature extraction and fully connected artificial neural network with multi-head self-attention mechanism

Author

Hou Biyu, Li Mengshan, Hou Yuxin, Zeng Ming, Wang Nan, and Guan Lixin

Subjects
Association tree, Multi-head self-attention mechanism, miRNA-disease association, Deep learning, Cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

Abstract Background MicroRNAs (miRNAs) emerge in various organisms, ranging from viruses to humans, and play crucial regulatory roles within cells, participating in a variety of biological processes. In numerous prediction methods for miRNA-disease associations, the issue of over-dependence on both similarity measurement data and the association matrix still hasn’t been improved. In this paper, a miRNA-Disease association prediction model (called TP-MDA) based on tree path global feature extraction and fully connected artificial neural network (FANN) with multi-head self-attention mechanism is proposed. The TP-MDA model utilizes an association tree structure to represent the data relationships, multi-head self-attention mechanism for extracting feature vectors, and fully connected artificial neural network with 5-fold cross-validation for model training. Results The experimental results indicate that the TP-MDA model outperforms the other comparative models, AUC is 0.9714. In the case studies of miRNAs associated with colorectal cancer and lung cancer, among the top 15 miRNAs predicted by the model, 12 in colorectal cancer and 15 in lung cancer were validated respectively, the accuracy is as high as 0.9227. Conclusions The model proposed in this paper can accurately predict the miRNA-disease association, and can serve as a valuable reference for data mining and association prediction in the fields of life sciences, biology, and disease genetics, among others. Graphical Abstract

Published
2024
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24. Colossal reversible barocaloric effects in a plastic crystal mediated by lattice vibrations and ion diffusion

Author

Zeng, Ming, Escorihuela-Sayalero, Carlos, Ikeshoji, Tamio, Takagi, Shigeyuki, Kim, Sangryun, Orimo, Shin-ichi, Barrio, María, Tamarit, Josep-Lluís, Lloveras, Pol, Cazorla, Claudio, and Sau, Kartik

Subjects
Condensed Matter - Materials Science
Abstract

Solid-state methods for cooling and heating promise a more sustainable alternative to current compression cycles of greenhouse gases and inefficient fuel-burning heaters. Barocaloric effects (BCE) driven by hydrostatic pressure ($p$) are especially encouraging in terms of large adiabatic temperature changes ($|\Delta T| \sim 10$ K) and colossal isothermal entropy changes ($|\Delta S| \sim 100$ JK$^{-1}$kg$^{-1}$). However, BCE typically require large pressure shifts due to irreversibility issues, and sizeable $|\Delta T|$ and $|\Delta S|$ seldom are realized in a same material. Here, we demonstrate the existence of colossal and reversible BCE in LiCB$_{11}$H$_{12}$, a well-known solid electrolyte, near its order-disorder phase transition at $\approx 380$ K. Specifically, for $\Delta p \approx 0.23$ $(0.10)$ GPa we measured $|\Delta S_{\rm rev}| = 280$ $(200)$ JK$^{-1}$kg$^{-1}$ and $|\Delta T_{\rm rev}| = 32$ $(10)$ K, which individually rival with state-of-the-art barocaloric shifts obtained under similar pressure conditions. Furthermore, over a wide temperature range, pressure shifts of the order of $0.1$ GPa yield huge reversible barocaloric strengths of $\approx 2$ JK$^{-1}$kg$^{-1}$MPa$^{-1}$. Molecular dynamics simulations were carried out to quantify the role of lattice vibrations, molecular reorientations and ion diffusion on the disclosed colossal BCE. Interestingly, lattice vibrations were found to contribute the most to $|\Delta S|$ while the diffusion of lithium ions, despite adding up only slightly to the accompanying entropy change, was crucial in enabling the molecular order-disorder phase transition. Our work expands the knowledge on plastic crystals and should motivate the investigation of BCE in a variety of solid electrolytes displaying ion diffusion and concomitant molecular orientational disorder., Comment: 13 pages, 7 figures

Published
2023

25. GRB 220408B: A Three-Episode Burst from a Precessing Jet

Author

Zhang, Zijian, Yin, Yihan, Wang, Chenyu, Wang, Xiangyu Ivy, Yang, Jun, Meng, Yan-Zhi, Liu, Zi-Ke, Chen, Guo-Yin, Fu, Xiaoping, Gao, Huaizhong, Li, Sihao, Liu, Yihui, Long, Xiangyun, Ma, Yong-Chang, Pan, Xiaofan, Sun, Yuanze, Wu, Wei, Yang, Zirui, Ye, Zhizhen, Yu, Xiaoyu, Zhao, Shuheng, Zheng, Xutao, Zhou, Tao, Tang, Qing-Wen, Yan, Qiurong, Zhou, Rong, Wang, Zhonghai, Feng, Hua, Zeng, Ming, and Zhang, Bin-Bin

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Jet precession has previously been proposed to explain the apparently repeating features in the light curves of a few gamma-ray bursts (GRBs). In this {\it Letter}, we further apply the precession model to a bright GRB 220408B by examining both its temporal and spectral consistency with the predictions of the model. As one of the recently confirmed GRBs observed by our GRID CubeSat mission, GRB 220408B is noteworthy as it exhibits three apparently similar emission episodes. Furthermore, the similarities are reinforced by their strong temporal correlations and similar features in terms of spectral evolution and spectral lags. Our analysis demonstrates that these features can be well explained by the modulated emission of a Fast-Rise-Exponential-Decay (FRED) shape light curve intrinsically produced by a precessing jet with a precession period of $18.4 \pm 0.2$ seconds, a nutation period of $11.1 \pm 0.2$ seconds and viewed off-axis. This study provides a straightforward explanation for the complex yet similar multi-episode GRB light curves., Comment: 11 pages, 3 tables, 8 figures

Published
2023

26. An optimized online filter stack spectrometer

Author

Wen, Jia-xing, Ma, Ge, Yu, Ming-hai, Wu, Yu-chi, Yan, Yong-hong, Wang, Shao-yi, Gao, Huai-zhong, Wang, Lu-shan, Zhou, Yu-gang, Li, Qiang, Yang, Yue, Tan, Fang, Zhang, Xiao-hui, Zhang, Jie, Mo, Wen-bo, Su, Jing-qin, Zhou, Wei-min, Gu, Yu-qiu, Zhao, Zong-qing, and Zeng, Ming

Subjects
Physics - Instrumentation and Detectors
Abstract

The spectrum of laser-plasma-generated X-rays is very important as it can characterize electron dynamics and also be useful for applications, and nowadays with the forthcoming high-repetition-rate laser-plasma experiments, there is a raising demand for online diagnosis for the X-ray spectrum. In this paper, scintillators and silicon PIN diodes are used to build a wideband online filter stack spectrometer. The genetic algorithm is used to optimize the arrangements of the X-ray sensors and filters by minimizing the condition number of the response matrix, thus the unfolding error can be significantly decreased according to the numerical experiments. The detector responses are quantitatively calibrated by irradiating the scintillator and PIN diode using different nuclides and comparing the measured gamma-ray peaks. Finally, a 15-channel spectrometer prototype has been implemented. The X-ray detector, front-end electronics, and back-end electronics are integrated into the prototype, and the prototype can determine the spectrum with 1 kHz repetition rates.

Published
2023

27. Flow cytometry with anti-diffraction light sheet (ADLS) by spatial light modulation

Author

Gong, Yanyan, Zeng, Ming, Zhu, Yueqiang, Li, Shangyu, Zhao, Wei, Zhang, Ce, Zhao, Tianyun, Wang, Kaige, Yang, Jiangcun, and Bai, Jintao

Subjects
Physics - Optics, Quantitative Biology - Quantitative Methods
Abstract

Flow cytometry is a widespread and powerful technique, whose resolution is determined by its capacity to accurately distinguish fluorescently positive populations from negative ones. However, most informative results are discarded while performing the measurements of conventional flow cytometry, e.g., the cell size, shape, morphology, and distribution or location of labeled exosomes within the unpurified biological samples. We, herein, propose a novel approach using an anti-diffraction light sheet with anisotroic feature to excite fluorescent tags. Constituted by an anti-diffraction Bessel-Gaussian beam array, the light sheet is 12 $\mu$m wide, 12 $\mu$m high, with a thickness of $~ 0.8 \mu$m. The intensity profile of the excited fluorescent signal can, therefore, reflect the size and allow samples in the range from O(100 nm) to 10 $\mu$m (e.g., blood cells) to be transported via hydrodynamic focusing in a microfluidic chip. The sampling rate is 500 kHz provides a capability of high throughput without sacrificing the spatial resolution. Consequently, the proposed anti-diffraction light-sheet flow cytometry (ADLSFC) can obtain more informative results than the conventional methodologies, and is able to provide multiple characteristics (e.g., the size and distribution of fluorescent signal) helping to distinguish the target samples from the complex backgrounds.

Published
2023

28. Transition routes of electrokinetic flow in a divergent microchannel with bending walls

Author

Shi, Yanxia, Zeng, Ming, Bai, Haoxin, Meng, Shuangshuang, Zhang, Chen, Feng, Xiaoqiang, Zhang, Ce, Wang, Kaige, and Zhao, Wei

Subjects
Physics - Fluid Dynamics
Abstract

Electrokinetic flow can be generated as a highly coupled phenomenon among velocity field, electric conductivity field and electric field. It can exhibit different responses to AC electric fields in different frequency regimes, according to different instability/receptivity mechanisms. In this investigation, by both flow visualization and single-point laser-induced fluorescence (LIF) method, the response of AC electrokinetic flow and the transition routes towards chaos and turbulence have been experimentally investigated. It is found, when the AC frequency $f_f<30$ Hz, the interface responds at both the neutral frequency of the basic flow and the AC frequency. However, when $f_f>=30$ Hz, the interface responds only at the neutral frequency of the basic flow. Both periodic doubling and subcritical bifurcations have been observed in the transition of AC electrokinetic flow. We hope the current investigation can promote our current understanding on the ultrafast transition process of electrokinetic flow from laminar state to turbulence.

Published
2023

29. Quad-cascade picture of turbulence

Author

Zhao, Wei, Shi, Yanxia, Zhu, Yueqiang, Zeng, Ming, Jing, Guangyin, Nan, Keyi, Chen, Yu, Zhang, Chen, Zhao, Tianyun, Wang, Kaige, and Bai, Jintao

Subjects
Physics - Fluid Dynamics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

Although its ubiquitous emergence in nature and variety of systems, turbulence possesses spatio-temporal chaotic, intermittent fluctuations, and makes it impossible to be precisely predicted. Persistent attempts for almost a century have been devoted to capture the invariant laws and hidden deeply universality out of the vast disorder and chaotic nature of turbulence. The celebrated Kolmogorov -5/3 law is robust, but not comprehensive to describe the diverse turbulences, especially in the turbulence driven by external volume forces, e.g. thermal convection, electrokinetic turbulence and etc. Here, we reveal that the fluxes of kinetic energy and scalar variance must be highly coupled to establish a universal conservation law and consequently we successfully unify a much diversity of scaling laws. As an example, in a microfluidic electrokinetic turbulence, additional scaling of -5/3, -9/5 and -7/3 are experimentally found in the power spectra of concentration. With this proposed model, a full quad-cascade picture is eventually complete to unify the various scaling laws for the most complicated physical problem of turbulence.

Published
2023

30. Provable Robust Saliency-based Explanations

Author

Chen, Chao, Guo, Chenghua, Ma, Guixiang, Zeng, Ming, Zhang, Xi, and Xie, Sihong

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

Robust explanations of machine learning models are critical to establishing human trust in the models. The top-$k$ intersection is widely used to evaluate the robustness of explanations. However, most existing attacking and defense strategies are based on $\ell_p$ norms, thus creating a mismatch between the evaluation and optimization objectives. To this end, we define explanation thickness for measuring top-$k$ salient features ranking stability, and design the \textit{R2ET} algorithm based on a novel tractable surrogate to maximize the thickness and stabilize the top salient features efficiently. Theoretically, we prove a connection between R2ET and adversarial training; using a novel multi-objective optimization formulation and a generalization error bound, we further prove that the surrogate objective can improve both the numerical and statistical stability of the explanations. Experiments with a wide spectrum of network architectures and data modalities demonstrate that R2ET attains higher explanation robustness under stealthy attacks while retaining model accuracy.

Published
2022

31. GECAM Localization of High Energy Transients and the Systematic Error

Author

Zhao, Yi, Xue, Wang-Chen, Xiong, Shao-Lin, Wang, Yuan-Hao, Liu, Jia-Cong, Liuo, Qi, Zhang, Yan-Qiu, Sun, Jian-Chao, Zhao, Xiao-Yun, Cai, Ce, Xiao, Shuo, Huang, Yue, Li, Xiao-Bo, Zhang, Zhen, Liao, Jin-Yuan, Yang, Sheng, Qiao, Rui, Guo, Dong-Ya, Zheng, Chao, Yi, Qi-Bin, Xie, Sheng-Lun, Guo, Zhi-Wei, Li, Chao-Yang, Wang, Chen-Wei, Tan, Wen-Jun, Wang, Yue, Peng, Wen-Xi, Zheng, Shi-Jie, He, Jian-Jian, Wang, Ping, Wang, Jin, Ma, Xiang, Song, Xin-Ying, Zhang, Hong-Mei, Li, Bing, Zhang, Peng, Wu, Hong, Du, Yan-Qi, Liang, Jing, Zhao, Guo-Ying, Li, Xin-Qiao, Wen, Xiang-Yang, An, Zheng-Hua, Sun, Xi-Lei, Xu, Yan-Bing, Zhang, Fan, Zhang, Da-Li, Gong, Ke, Liu, Ya-Qing, Liang, Xiao-Hua, Liu, Xiao-Jing, Gao, Min, Wang, Jin-Zhou, Song, Li-Ming, Chen, Gang, Zhang, Ke-Ke, Han, Xing-Bo, Wu, Hai-Yan, Hu, Tai, Geng, Hao, Lu, Fang-Jun, Zhang, Shu, Zhang, Shuang-Nan, Lu, Gao-Peng, Zeng, Ming, and Yu, Heng

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Gravitational wave high-energy Electromagnetic Counterpart All-sky Monitor (GECAM) is a pair of microsatellites (i.e. GECAM-A and GECAM-B) dedicated to monitoring gamma-ray transients including gravitational waves high-energy electromagnetic counterparts, Gamma-ray Bursts, Soft Gamma-ray Repeaters, Solar Flares and Terrestrial Gamma-ray Flashes. Since launch in December 2020, GECAM-B has detected hundreds of astronomical and terrestrial events. For these bursts, localization is the key for burst identification and classification as well as follow-up observations in multi-wavelength. Here, we propose a Bayesian localization method with Poisson data with Gaussian background profile likelihood to localize GECAM bursts based on the burst counts distribution in detectors with different orientations. We demonstrate that this method can work well for all kinds of bursts, especially for extremely short ones. In addition, we propose a new method to estimate the systematic error of localization based on a confidence level test, which can overcome some problems of the existing method in literature. We validate this method by Monte Carlo simulations, and then apply it to a burst sample with accurate location and find that the mean value of the systematic error of GECAM-B localization is $\sim 2.5^{\circ}$. By considering this systematic error, we can obtain a reliable localization probability map for GECAM bursts. Our methods can be applied to other gamma-ray monitors., Comment: The paper has been accepted by Astrophysical Journal Supplement Series

Published
2022
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32. PointCMC: Cross-Modal Multi-Scale Correspondences Learning for Point Cloud Understanding

Author

Zhou, Honggu, Peng, Xiaogang, Mao, Jiawei, Wu, Zizhao, and Zeng, Ming

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Some self-supervised cross-modal learning approaches have recently demonstrated the potential of image signals for enhancing point cloud representation. However, it remains a question on how to directly model cross-modal local and global correspondences in a self-supervised fashion. To solve it, we proposed PointCMC, a novel cross-modal method to model multi-scale correspondences across modalities for self-supervised point cloud representation learning. In particular, PointCMC is composed of: (1) a local-to-local (L2L) module that learns local correspondences through optimized cross-modal local geometric features, (2) a local-to-global (L2G) module that aims to learn the correspondences between local and global features across modalities via local-global discrimination, and (3) a global-to-global (G2G) module, which leverages auxiliary global contrastive loss between the point cloud and image to learn high-level semantic correspondences. Extensive experiment results show that our approach outperforms existing state-of-the-art methods in various downstream tasks such as 3D object classification and segmentation. Code will be made publicly available upon acceptance., Comment: In order to revise the paper

Published
2022

33. A feasibility study of multi-electrode high-purity germanium detector for Ge-76 neutrinoless double beta decay searching

Author

Yang, Jingzhe, Tian, Yang, Dai, Wenhan, Yang, Mingxin, Jiang, Lin, Wen, Jinjun, Xue, Tao, Zeng, Ming, Zeng, Zhi, and Li, Yulan

Subjects
Physics - Instrumentation and Detectors
Abstract

Experiments to search for neutrinoless double-beta (0{\nu}\b{eta}\b{eta}) decay of 76Ge using a high-purity germanium (HPGe) detector rely heavily on background suppression technologies to enhance their sensitivities. In this work, we proposed a pulse-shape analysis method based on a neural network (NN) and a light gradient boosting machine (lightGBM; LGB) to discriminate single-electron (background) and double-electrons (0{\nu}\b{eta}\b{eta} signal) events in a multi-electrode HPGe detector. In this paper, we describe a multi-electrode HPGe detector system, a data-processing system, and pulse-shape simulation procedures. We built a fully connected (FC) neural network and an LGB model to classify the single- and double-electron events. The FC network is trained with simulated single- and double-electron-induced pulses and tested in an independent dataset generated by the pulse-shape simulation. The discrimination efficiency of the FC neural network in the test set for the 0{\nu}\b{eta}\b{eta} double-electron events signal was 77.4%, the precision was 57.7%, and the training time was 430 min. The discrimination efficiency of LGB model was 73.1%, the precision was 64.0%, and the training time was 1.5 min. This study demonstrated that it is feasible to realize single- and double-electron discrimination on multi-electrode HPGe detectors using an FC neural network and LGB model. These results can be used as a reference for future 76Ge 0{\nu}\b{eta}\b{eta} experiments., Comment: 16 pages,12 figures

Published
2022
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34. Robust Security Energy Efficiency Optimization for RIS-Aided Cell-Free Networks with Multiple Eavesdroppers

Author

Hao, Wanming, Li, Junjie, Sun, Gangcan, Huang, Chongwen, Zeng, Ming, Dobre, Octavia A., and Yuen, Chau

Subjects
Computer Science - Information Theory
Abstract

In this paper, we investigate the energy efficiency (EE) problem under reconfigurable intelligent surface (RIS)-aided secure cell-free networks, where multiple legitimate users and eavesdroppers (Eves) exist. We formulate a max-min secure EE optimization problem by jointly designing the distributed active beamforming and artificial noise at base stations as well as the passive beamforming at RISs under practical constraints. To deal with it, we first divide the original optimization problem into two sub-ones, and then propose an iterative optimization algorithm to solve each sub-problem based on the fractional programming, constrained convex-convex procedure (CCCP) and semi-definite programming (SDP) techniques. After that, these two sub-problems are alternatively solved until convergence, and the final solutions are obtained. Next, we extend to the imperfect channel state information of the Eves' links, and investigate the robust SEE beamforming optimization problem by bringing the outage probability constraints. Based on this, we first transform the uncertain outage probability constraints into the certain ones by the bernstein-type inequality and sphere boundary techniques, and then propose an alternatively iterative algorithm to obtain the solutions of the original problem based on the S-procedure, successive convex approximation, CCCP and SDP techniques. Finally, the simulation results are conducted to show the effectiveness of the proposed schemes.

Published
2022

35. Modeling of three-dimensional betatron oscillation and radiation reaction in plasma accelerators

Author

Liu, Yulong and Zeng, Ming

Subjects
Physics - Accelerator Physics, Physics - Plasma Physics
Abstract

Betatron oscillation is a commonly known phenomenon in laser or beam driven plasma wakefield accelerators. In the conventional model, the plasma wake provides a linear focusing force to a relativistic electron, and the electron oscillates in one transverse direction with the betatron frequency proportional to $1/\sqrt{\gamma}$, where $\gamma$ is the Lorentz factor of the electron. In this work, we extend this model to three-dimensional by considering the oscillation in two transverse and one longitudinal directions. The long-term equations, with motion in the betatron time scale averaged out, are obtained and compared with the original equations by numerical methods. In addition to the longitudinal and transverse damping due to radiation reaction which has been found before, we show phenomena including the longitudinal phase drift, betatron phase shift and betatron polarization change based on our long-term equations. This work can be highly valuable for future plasma based high-energy accelerators and colliders., Comment: 9 pages, 4 figures

Published
2022
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37. MaskCLIP: Masked Self-Distillation Advances Contrastive Language-Image Pretraining

Author

Dong, Xiaoyi, Bao, Jianmin, Zheng, Yinglin, Zhang, Ting, Chen, Dongdong, Yang, Hao, Zeng, Ming, Zhang, Weiming, Yuan, Lu, Chen, Dong, Wen, Fang, and Yu, Nenghai

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents a simple yet effective framework MaskCLIP, which incorporates a newly proposed masked self-distillation into contrastive language-image pretraining. The core idea of masked self-distillation is to distill representation from a full image to the representation predicted from a masked image. Such incorporation enjoys two vital benefits. First, masked self-distillation targets local patch representation learning, which is complementary to vision-language contrastive focusing on text-related representation. Second, masked self-distillation is also consistent with vision-language contrastive from the perspective of training objective as both utilize the visual encoder for feature aligning, and thus is able to learn local semantics getting indirect supervision from the language. We provide specially designed experiments with a comprehensive analysis to validate the two benefits. Symmetrically, we also introduce the local semantic supervision into the text branch, which further improves the pretraining performance. With extensive experiments, we show that MaskCLIP, when applied to various challenging downstream tasks, achieves superior results in linear probing, finetuning, and zero-shot performance with the guidance of the language encoder. Code will be release at \url{https://github.com/LightDXY/MaskCLIP}., Comment: CVPR 2023, code is available at https://github.com/LightDXY/MaskCLIP

Published
2022

38. I^2R-Net: Intra- and Inter-Human Relation Network for Multi-Person Pose Estimation

Author

Ding, Yiwei, Deng, Wenjin, Zheng, Yinglin, Liu, Pengfei, Wang, Meihong, Cheng, Xuan, Bao, Jianmin, Chen, Dong, and Zeng, Ming

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

In this paper, we present the Intra- and Inter-Human Relation Networks (I^2R-Net) for Multi-Person Pose Estimation. It involves two basic modules. First, the Intra-Human Relation Module operates on a single person and aims to capture Intra-Human dependencies. Second, the Inter-Human Relation Module considers the relation between multiple instances and focuses on capturing Inter-Human interactions. The Inter-Human Relation Module can be designed very lightweight by reducing the resolution of feature map, yet learn useful relation information to significantly boost the performance of the Intra-Human Relation Module. Even without bells and whistles, our method can compete or outperform current competition winners. We conduct extensive experiments on COCO, CrowdPose, and OCHuman datasets. The results demonstrate that the proposed model surpasses all the state-of-the-art methods. Concretely, the proposed method achieves 77.4% AP on CrowPose dataset and 67.8% AP on OCHuman dataset respectively, outperforming existing methods by a large margin. Additionally, the ablation study and visualization analysis also prove the effectiveness of our model., Comment: Accepected by IJCAI 2022

Published
2022

39. GnRH antagonist impairs the process of embryo implantation by inhibiting motility of endometrial stromal cells through reducing c-kit expression

Author

Jun Tan, Lu Fan, Xin Li, Lei-Zhen Xia, Ding-Fei Xu, Zhi-Qin Zhang, Chang-Hua Wang, Qiong-Fang Wu, Yan Zhao, and Zeng-Ming Li

Subjects
GnRH-ant, C-kit, endometrial receptivity, motility, IVF-ET, Gynecology and obstetrics, RG1-991, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

Background It has been recognized that the gonadotropin-releasing hormone antagonist (GnRH-ant) protocol has a detrimental effect on clinical outcomes compared to the GnRH agonist (GnRH-a) protocol during in vitro fertilization-fresh embryo transfer (IVF-ET) cycles. However, the related mechanisms were unclear.Methods A total of 18,561 patients, who underwent fresh IVF-ET cycles in the Center for Assisted Reproduction of Jiangxi Maternal and Child Health Hospital from January 2014 to September 2021, were retrospectively analyzed. The propensity score matching (PSM) technique was used to control for confounding factors between the GnRH-ant and GnRH-a groups. Human endometrial stromal cells (hESCs) were collected for primary culture and treated with relevant receptor antagonists and activators. RT-PCR, Western Blot, immunofluorescence staining, cell migration and adhesion assays, and animal experiments were employed to elucidate the molecular mechanism by which GnRH antagonist affects the migration and adhesion ability of hESCs.Results There was no statistical difference between the two groups in terms of baseline characteristics after matching basal status by propensity score matching. The result showed that the endometrial thickness (10.4 ± 2.35 vs. 11.03 ± 2.61 mm, p

Published
2024
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40. Injection induced by coaxial laser interference in laser wakefield accelerators

Author

Wang, Jia, Zeng, Ming, Li, Dazhang, Wang, Xiaoning, Lu, Wei, and Gao, Jie

Subjects
Physics - Plasma Physics, Physics - Accelerator Physics
Abstract

A new injection scheme using the interference of two coaxial laser pulses is proposed for generating high quality beams in laser wakefield accelerators. In this scheme, a relatively loosely focused laser pulse drives the plasma wakefield, and a tightly focused laser pulse with similar intensity triggers interference ring pattern which creates onion-like multi sheaths in the plasma wakefield. Due to the wavefront curvature change after the focal position of the tightly focused laser, the innermost sheath of the wakefield expands, which slows down the effective phase velocity of the wakefield and triggers injection of plasma electrons. Particle-in-cell simulations show that high quality electron beams with low energy spread (a few per mill), high charge (hundred picocoulomb) and small emittance (sub millimeter milliradian) at the same time can be generated using moderate laser parameters for properly chosen phase differences between the two lasers., Comment: 5 pages, 4 figures

Published
2022
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41. In-orbit Radiation Damage Characterization of SiPMs in the GRID-02 CubeSat Detector

Author

Zheng, Xutao, Gao, Huaizhong, Wen, Jiaxing, Zeng, Ming, Pan, Xiaofan, Xu, Dacheng, Liu, Yihui, Zhang, Yuchong, Peng, Haowei, Jiang, Yuchen, Long, Xiangyun, Lu, Di'an, Yang, Dongxin, Feng, Hua, Zeng, Zhi, Cang, Jirong, Tian, Yang, and Collaboration, GRID

Subjects
Physics - Instrumentation and Detectors, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Recently, silicon photomultipliers (SiPMs) have been used in several space-borne missions, owing to their solid state, compact size, low operating voltage, and insensitivity to magnetic fields. However, operating SiPMs in space results in radiation damage and degraded performance. In-orbit quantitative studies on these effects are limited. In this study, we present in-orbit SiPM characterization results obtained by the second detector of the Gamma-Ray Integrated Detectors (GRID-02), which was launched on 6 November 2020. An increase in dark current of $\sim$100 $\mu$A/year per SiPM chip (model MicroFJ-60035-TSV) at 28.5 V and 5 $^{\circ}$C was observed. Consequently, the overall noise level (sigma) of the GRID-02 detector increased by $\sim$7.5 keV/year. The estimate of this increase is $\sim$40 $\mu$A/year per SiPM chip at -20 $^{\circ}$C, highlighting the positive effect of using a cooling system., Comment: final manuscript, 20 pages, 8 figures, published on NIM-A

Published
2022
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45. Expert consensus on the technical specifications of the in vitro skin penetration test of cosmetic product by Franz diffusion cell

Author

Liang, Bingwen, Zhou, Liling, Wu, Chuanbin, Fang, Liang, Wang, Lisheng, Peng, Lihua, Shu, Peng, Tang, Lifeng, Bei, Yu, Cui, Xiaodong, Chen, Xiaojia, Gao, Yuan, Han, Chong, Jia, Yan, Lin, Huaqing, Li, Yifang, Liu, Ying, Li, Yiguang, Li, Zhiwei, Liu, Zixiu, Ren, Shaohua, Shi, Jun, Sun, Wanyang, Tian, Lijuan, Wang, Qun, Wang, Yuan, Xu, Yuehong, Zeng, Ming, Zhu, Quangang, Zhang, Shu, Zhang, Yifan, and Xiang, Qi

Published
2024
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47. The Optimal Beam-loading in Two-bunch Nonlinear Plasma Wakefield Accelerators

Author

Wang, Xiaoning, Gao, Jie, Su, Qianqian, Wang, Jia, Li, Dazhang, Zeng, Ming, Lu, Wei, Mori, Warren B., Joshi, Chan, and An, Weiming

Subjects
Physics - Plasma Physics, Physics - Accelerator Physics
Abstract

Due to the highly nonlinear nature of the beam-loading, it is at present not possible to analytically determine the beam parameters needed in a two-bunch plasma wakefield accelerator for maintaining a low energy spread. Therefore in this paper, by using the Broyden-Fletcher-Goldfarb-Shanno algorithm for the parameter scanning with the code QuickPIC and the polynomial regression together with k-fold cross-validation method, we obtain two fitting formulas for calculating the parameters of tri-Gaussian electron beams when minimizing the energy spread based on the beam-loading effect in a nonlinear plasma wakefield accelerator. One formula allows the optimization of the normalized charge per unit length of a trailing beam to achieve the minimal energy spread, i.e. the optimal beam-loading. The other one directly gives the transformer ratio when the trailing beam achieves the optimal beam-loading. A simple scaling law for charges of drive beams and trailing beams is obtained from the fitting formula, which indicates that the optimal beam-loading is always achieved for a given charge ratio of the two beams when the length and separation of two beams and the plasma density are fixed. The formulas can also help obtain the optimal plasma densities for the maximum accelerated charge and the maximum acceleration efficiency under the optimal beam-loading respectively. These two fitting formulas will significantly enhance the efficiency for designing and optimizing a two-bunch plasma wakefield acceleration stage.

Published
2022
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48. Securing Reconfigurable Intelligent Surface-Aided Cell-Free Networks

Author

Hao, Wanming, Li, Junjie, Sun, Gangcan, Zeng, Ming, and Dobre, Octavia A.

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

In this paper, we investigate the physical layer security in the reconfigurable intelligent surface (RIS)-aided cell-free networks. A maximum weighted sum secrecy rate problem is formulated by jointly optimizing the active beamforming (BF) at the base stations and passive BF at the RISs. To handle this non-trivial problem, we adopt the alternating optimization to decouple the original problem into two sub-ones, which are solved using the semidefinite relaxation and continuous convex approximation theory. To decrease the complexity for obtaining overall channel state information (CSI), we extend the proposed framework to the case that only requires part of the RIS' CSI. This is achieved via deliberately discarding the RIS that has a small contribution to the user's secrecy rate. Based on this, we formulate a mixed integer non-linear programming problem, and the linear conic relaxation is used to obtained the solutions. Finally, the simulation results show that the proposed schemes can obtain a higher secrecy rate than the existing ones.

Published
2022

49. Ultra Wide Band THz IRS Communications: Applications, Challenges, Key Techniques, and Research Opportunities

Author

Hao, Wanming, Zhou, Fuhui, Zeng, Ming, Dobre, Octavia A., and Al-Dhahir, Naofal

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

Terahertz (THz) communication is a promising technology for future wireless networks due to its ultra-wide bandwidth. However, THz signals suffer from severe attenuation and poor diffraction capability, making it vulnerable to blocking obstacles. To compensate for these two shortcomings and improve the system performance, an intelligent reflecting surface (IRS) can be exploited to change the propagation direction and enhance the signal strength. In this article, we investigate this promising ultra wide band (UWB) THz IRS communication paradigm. We start by motivating our research and describing several potential application scenarios. Then, we identify major challenges faced by UWB THz IRS communications. To overcome these challenges, several effective key techniques are developed, i.e., the time delayer-based sparse radio frequency antenna structure, delay hybrid precoding and IRS deployment. Simulation results are also presented to compare the system performance for these proposed techniques, thus demonstrating their effectiveness. Finally, we highlight several open issues and research opportunities for UWB THz IRS communications.

Published
2022

50. General Facial Representation Learning in a Visual-Linguistic Manner

Author

Zheng, Yinglin, Yang, Hao, Zhang, Ting, Bao, Jianmin, Chen, Dongdong, Huang, Yangyu, Yuan, Lu, Chen, Dong, Zeng, Ming, and Wen, Fang

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language
Abstract

How to learn a universal facial representation that boosts all face analysis tasks? This paper takes one step toward this goal. In this paper, we study the transfer performance of pre-trained models on face analysis tasks and introduce a framework, called FaRL, for general Facial Representation Learning in a visual-linguistic manner. On one hand, the framework involves a contrastive loss to learn high-level semantic meaning from image-text pairs. On the other hand, we propose exploring low-level information simultaneously to further enhance the face representation, by adding a masked image modeling. We perform pre-training on LAION-FACE, a dataset containing large amount of face image-text pairs, and evaluate the representation capability on multiple downstream tasks. We show that FaRL achieves better transfer performance compared with previous pre-trained models. We also verify its superiority in the low-data regime. More importantly, our model surpasses the state-of-the-art methods on face analysis tasks including face parsing and face alignment., Comment: CVPR2022 Oral; 16 pages, 6 figures, 14 tables

Published
2021

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