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928 results on '"Jiang, Xinyi"'

1. Using magnetic dynamics to measure the spin gap in a candidate Kitaev material

Author

Jiang, Xinyi, Qiu, Qingzheng, Peng, Cheng, Jang, Hoyoung, Chen, Wenjie, Jin, Xianghong, Yue, Li, Lee, Byungjune, Park, Sang-Youn, Kim, Minseok, Kim, Hyeong-Do, Cai, Xinqiang, Li, Qizhi, Dong, Tao, Wang, Nanlin, Turner, Joshua J., Li, Yuan, Wang, Yao, and Peng, Yingying

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Materials potentially hosting Kitaev spin-liquid states are considered crucial for realizing topological quantum computing. However, the intricate nature of spin interactions within these materials complicates the precise measurement of low-energy spin excitations indicative of fractionalized excitations. Using Na$_{2}$Co$_2$TeO$_{6}$ as an example, we study these low-energy spin excitations using the time-resolved resonant elastic x-ray scattering (tr-REXS). Our observations unveil remarkably slow spin dynamics at the magnetic peak, whose recovery timescale is several nanoseconds. This timescale aligns with the extrapolated spin gap of $\sim$ 1 $\mu$eV, obtained by density matrix renormalization group (DMRG) simulations in the thermodynamic limit. The consistency demonstrates the efficacy of tr-REXS in discerning low-energy spin gaps inaccessible to conventional spectroscopic techniques., Comment: 9 pages, 6 figures

Published
2024

2. Helicopter reconnaissance indicators sensitivity analysis based on machine learning

Author

JIANG Xinyi, LOU Benchao, ZENG Weiping

Subjects
helicopter, sensitivity analysis, machine learning, Military Science
Abstract

In order to meet the requirements of sensitivity analysis in the design of helicopter reconnaissance indicators, based on the logistic regression method in machine learning, the reconnaissance capability index system of helicopter system contribution evaluation is established. Firstly, the basic steps of sensitivity analysis of helicopter reconnaissance indicators based on machine learning are introduced. Secondly, sensitivity analysis of helicopter reconnaissance mission effectiveness is achieved through task planning, constructing indicator systems, collecting relevant data, evaluating effectiveness, and using machine learning algorithms for modeling and training. This study can provide reference for the sensitivity analysis of helicopter task efficiency and provide more scientific and reasonable support for the development and application of helicopters in the system.

Published
2024
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11. Integrating genetic regulation and single-cell expression with GWAS prioritizes causal genes and cell types for glaucoma

Author

Hamel, Andrew R., Yan, Wenjun, Rouhana, John M., Monovarfeshani, Aboozar, Jiang, Xinyi, Mehta, Puja A., Advani, Jayshree, Luo, Yuyang, Liang, Qingnan, Rajasundaram, Skanda, Shrivastava, Arushi, Duchinski, Katherine, Mantena, Sreekar, Wang, Jiali, van Zyl, Tavé, Pasquale, Louis R., Swaroop, Anand, Gharahkhani, Puya, Khawaja, Anthony P., MacGregor, Stuart, Chen, Rui, Vitart, Veronique, Sanes, Joshua R., Wiggs, Janey L., and Segrè, Ayellet V.

Published
2024
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13. Absence of localized $5d^1$ electrons in KTaO$_3$ interface superconductors

Author

Cai, Xinqiang, Kim, Jungho, Martinelli, Leonardo, Florio, Piero, Corti, Matteo, Qiao, Weiliang, Sun, Yanqiu, Niu, Jiasen, Faure, Quentin, Sahle, Christoph, Qiu, Qingzheng, Xiao, Qian, Zheng, Xiquan, Li, Qizhi, Zou, Changwei, Jiang, Xinyi, Ghiringhelli, Giacomo, Han, Wei, Xie, Yanwu, Lu, Yi, Sala, Marco Moretti, and Peng, Yingying

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Recently, an exciting discovery of orientation-dependent superconductivity was made in two-dimensional electron gas (2DEG) at the interfaces of LaAlO$_3$/KTaO$_3$ (LAO/KTO) or EuO/KTaO$_3$ (EuO/KTO). The superconducting transition temperature can reach a $T_c$ of up to $\sim$ 2.2 K, which is significantly higher than its 3$d$ counterpart LaAlO$_3$/SrTiO$_3$ (LAO/STO) with a $T_c$ of $\sim$ 0.2 K. However, the underlying origin remains to be understood. To uncover the nature of electrons in KTO-based interfaces, we employ x-ray absorption spectroscopy (XAS) and resonant inelastic x-ray spectroscopy (RIXS) to study LAO/KTO and EuO/KTO with different orientations. We reveal the absence of $dd$ orbital excitations in all the measured samples. Our RIXS results are well reproduced by calculations that considered itinerant $5d$ electrons hybridized with O $2p$ electrons. This suggests that there is a lack of localized Ta $5d^1$ electrons in KTO interface superconductors, which is consistent with the absence of magnetic hysteresis observed in magneto-resistance (MR) measurements. These findings offer new insights into our understanding of superconductivity in Ta $5d$ interface superconductors and their potential applications., Comment: 8 pages, 6 figures

Published
2023
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19. The role of serum magnesium in the prediction of acute kidney injury after total aortic arch replacement: A prospective observational study

Author

Jiang Xinyi, Li Ziyun, Pan Chixing, Fang Heng, Xu Wang, Chen Zeling, Zhu Junjiang, He Linling, Fang Miaoxian, and Chen Chunbo

Subjects
acute kidney injury, serum magnesium, cardiovascular surgical intensive care unit, total aortic arch replacement, acute aortic dissection, Biochemistry, QD415-436
Abstract

Background: Considerable morbidity and death are associated with acute kidney damage (AKI) following total aortic arch replacement (TAAR). The relationship between AKI following TAAR and serum magnesium levels remains unknown. The intention of this research was to access the predictive value of serum magnesium levels on admission to the Cardiovascular Surgical Intensive Care Unit (CSICU) for AKI in patients receiving TAAR. Methods: From May 2018 to January 2020, a prospective, observational study was performed in the Guangdong Provincial People's Hospital CSICU. Patients accepting TAAR admitted to the CSICU were studied. The Kidney Disease: Improving Global Outcomes (KDIGO) definition of serum creatinine was used to define AKI, and KDIGO stages two or three were used to characterize severe AKI. Multivariable logistic regression and area under the curve receiver-operator characteristic curve (AUC-ROC) analysis were conducted to assess the predictive capability of the serum magnesium for AKI detection. Finally, the prediction model for AKI was established and internally validated. Results: Of the 396 enrolled patients, AKI occurred in 315 (79.5%) patients, including 154 (38.8%) patients with severe AKI. Serum magnesium levels were independently related to the postoperative AKI and severe AKI (both, P < 0.001), and AUC-ROCs for predicting AKI and severe AKI were 0.707 and 0.695, respectively. Across increasing quartiles of serum magnesium, the multivariable-adjusted odds ratios (95% confidence intervals) of postoperative AKI were 1.00 (reference), 1.04 (0.50-2.82), 1.20 (0.56-2.56), and 6.19 (2.02-23.91) (P for Trend < 0.001). When serum magnesium was included to a baseline model with established risk factors, AUC-ROC (0.833 vs 0.808, P = 0.050), reclassification (P < 0.001), and discrimination (P = 0.002) were further improved. Conclusions: Serum magnesium levels on admission are an independent predictor of AKI. In TAAR patients, elevated serum magnesium levels were linked to an increased risk of AKI. In addition, the established risk factor model for AKI can be considerably improved by the addition of serum magnesium in TAAR patients hospitalized in the CSICU.

Published
2024
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20. Physical Layer Security Techniques for Future Wireless Networks

Author

Shi, Weiping, Jiang, Xinyi, Hu, Jinsong, Teng, Yin, Wang, Yang, He, Hangjia, Dong, Rongen, Shu, Feng, and Wang, Jiangzhou

Subjects
Computer Science - Cryptography and Security, Computer Science - Networking and Internet Architecture
Abstract

The broadcast nature of wireless communication systems makes wireless transmission extremely susceptible to eavesdropping and even malicious interference. Physical layer security technology can effectively protect the private information sent by the transmitter from being listened to by illegal eavesdroppers, thus ensuring the privacy and security of communication between the transmitter and legitimate users. The development of mobile communication presents new challenges to physical layer security research. This paper provides a comprehensive survey of the physical layer security research on various promising mobile technologies, including directional modulation (DM), spatial modulation (SM), covert communication, intelligent reflecting surface (IRS)-aided communication, and so on. Finally, future trends and the unresolved technical challenges are summarized in physical layer security for mobile communications., Comment: 11pages,9 figures

Published
2021

22. Estimation of Covariance Matrix of Interference for Secure Spatial Modulation against a Malicious Full-duplex Attacker

Author

Yang, Lili, Jiang, Xinyi, Shu, Feng, Zhang, Weibin, and Wang, Jiangzhou

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

In a secure spatial modulation with a malicious full-duplex attacker, how to obtain the interference space or channel state information (CSI) is very important for Bob to cancel or reduce the interference from Mallory. In this paper, different from existing work with a perfect CSI, the covariance matrix of malicious interference (CMMI) from Mallory is estimated and is used to construct the null-space of interference (NSI). Finally, the receive beamformer at Bob is designed to remove the malicious interference using the NSI. To improve the estimation accuracy, a rank detector relying on Akaike information criterion (AIC) is derived. To achieve a high-precision CMMI estimation, two methods are proposed as follows: principal component analysis-eigenvalue decomposition (PCA-EVD), and joint diagonalization (JD). The proposed PCA-EVD is a rank deduction method whereas the JD method is a joint optimization method with improved performance in low signal to interference plus noise ratio (SINR) region at the expense of increased complexities. Simulation results show that the proposed PCA-EVD performs much better than the existing method like sample estimated covariance matrix (SCM) and EVD in terms of normalized mean square error (NMSE) and secrecy rate (SR). Additionally, the proposed JD method has an excellent NMSE performance better than PCA-EVD in the low SINR region (SINR < 0dB) while in the high SINR region PCA-EVD performs better than JD., Comment: 5 pages, 4 figures

Published
2021

31. Beamforming and Transmit Power Design for Intelligent Reconfigurable Surface-aided Secure Spatial Modulation

Author

Shu, Feng, Jiang, Xinyi, Cai, Wenlong, Shi, Weiping, Huang, Mengxing, Wang, Jiangzhou, and You, Xiaohu

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

Intelligent reflecting surface (IRS) is a promising solution to build a programmable wireless environment for future communication systems, in which the reflector elements steer the incident signal in fully customizable ways by passive beamforming. In this paper, an IRS-aided secure spatial modulation (SM) is proposed, where the IRS perform passive beamforming and information transfer simultaneously by adjusting the on-off states of the reflecting elements. We formulate an optimization problem to maximize the average secrecy rate (SR) by jointly optimizing the passive beamforming at IRS and the transmit power at transmitter under the consideration that the direct pathes channels from transmitter to receivers are obstructed by obstacles. As the expression of SR is complex, we derive a newly fitting expression (NASR) for the expression of traditional approximate SR (TASR), which has simpler closed-form and more convenient for subsequent optimization. Based on the above two fitting expressions, three beamforming methods, called maximizing NASR via successive convex approximation (Max-NASR-SCA), maximizing NASR via dual ascent (Max-NASR-DA) and maximizing TASR via semi-definite relaxation (Max-TASR-SDR) are proposed to improve the SR performance. Additionally, two transmit power design (TPD) methods are proposed based on the above two approximate SR expressions, called Max-NASR-TPD and Max-TASR-TPD. Simulation results show that the proposed Max-NASR-DA and Max-NASR-SCA IRS beamformers harvest substantial SR performance gains over Max-TASR-SDR. For TPD, the proposed Max-NASR-TPD performs better than Max-TASR-TPD. Particularly, the Max-NASR-TPD has a closed-form solution.

Published
2021
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33. Fast Ambiguous DOA Elimination Method of DOA Measurement for Hybrid Massive MIMO Receiver

Author

Chen, Nuo, Jiang, Xinyi, Shi, Baihua, Teng, Yin, Lu, Jinhui, Shu, Feng, Zou, Jun, Li, Jun, and Wang, Jiangzhou

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

DOA estimation for massive multiple-input multiple-output (MIMO) system can provide ultra-high-resolution angle estimation. However, due to the high computational complexity and cost of all digital MIMO systems, a hybrid analog digital (HAD) structure MIMO was proposed. In this paper, a fast ambiguous phase elimination method is proposed to solve the problem of direction-finding ambiguity caused by the HAD MIMO. Only two-data-blocks are used to realize DOA estimation. Simulation results show that the proposed method can greatly reduce the estimation delay with a slight performance loss.

Published
2021

34. Spatial Modulation: an Attractive Secure Solution to Future Wireless Network

Author

Shu, Feng, Liu, Lin, Yang, LiLi, Jiang, Xinyi, Xia, Guiyang, Wu, Yuanyuan, Wang, Xianpeng, Jin, Shi, Wang, Jiangzhou, and You, Xiaohu

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

As a green and secure wireless transmission method, secure spatial modulation (SM) is becoming a hot research area. Its basic idea is to exploit both the index of activated transmit antenna and amplitude phase modulation signal to carry messages, improve security, and save energy. In this paper, we review its crucial challenges: transmit antenna selection (TAS), artificial noise (AN) projection, power allocation (PA) and joint detection at the desired receiver. As the size of signal constellation tends to medium-scale or large-scale, the complexity of traditional maximum likelihood detector becomes prohibitive. To reduce this complexity, a low-complexity maximum likelihood (ML) detector is proposed. To further enhance the secrecy rate (SR) performance, a deep-neural-network (DNN) PA strategy is proposed. Simulation results show that the proposed low-complexity ML detector, with a lower-complexity, has the same bit error rate performance as the joint ML method while the proposed DNN method strikes a good balance between complexity and SR performance., Comment: arXiv admin note: text overlap with arXiv:1907.02215

Published
2021

35. Virufy: A Multi-Branch Deep Learning Network for Automated Detection of COVID-19

Author

Fakhry, Ahmed, Jiang, Xinyi, Xiao, Jaclyn, Chaudhari, Gunvant, Han, Asriel, and Khanzada, Amil

Subjects
Computer Science - Sound, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Fast and affordable solutions for COVID-19 testing are necessary to contain the spread of the global pandemic and help relieve the burden on medical facilities. Currently, limited testing locations and expensive equipment pose difficulties for individuals trying to be tested, especially in low-resource settings. Researchers have successfully presented models for detecting COVID-19 infection status using audio samples recorded in clinical settings [5, 15], suggesting that audio-based Artificial Intelligence models can be used to identify COVID-19. Such models have the potential to be deployed on smartphones for fast, widespread, and low-resource testing. However, while previous studies have trained models on cleaned audio samples collected mainly from clinical settings, audio samples collected from average smartphones may yield suboptimal quality data that is different from the clean data that models were trained on. This discrepancy may add a bias that affects COVID-19 status predictions. To tackle this issue, we propose a multi-branch deep learning network that is trained and tested on crowdsourced data where most of the data has not been manually processed and cleaned. Furthermore, the model achieves state-of-art results for the COUGHVID dataset [16]. After breaking down results for each category, we have shown an AUC of 0.99 for audio samples with COVID-19 positive labels.

Published
2021

40. Reported Xylazine Use Among Adults Aged [greater than or equal to] 18 Years Evaluated for Substance Use Treatment--United States, July 2022-September 2023

Author

Jiang, Xinyi, Connolly, Sarah, Strahan, Andrea E., Blanco, Liz Rivera, Mikosz, Christina A., Guy, Gery P., Jr., and Dowell, Deborah

Subjects
Drugs -- Overdose, Medical research, Medicine, Experimental, Adults, Substance abuse -- Care and treatment, Health
Abstract

Introduction Xylazine, a nonopioid sedative, has been increasingly detected in illegally manufactured fentanyl (IMF) products* and in U.S. overdose deaths (1). Most detected xylazine-involved overdose deaths also involve IMF (2); [...]

Published
2024

42. Virufy: Global Applicability of Crowdsourced and Clinical Datasets for AI Detection of COVID-19 from Cough

Author

Chaudhari, Gunvant, Jiang, Xinyi, Fakhry, Ahmed, Han, Asriel, Xiao, Jaclyn, Shen, Sabrina, and Khanzada, Amil

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

Rapid and affordable methods of testing for COVID-19 infections are essential to reduce infection rates and prevent medical facilities from becoming overwhelmed. Current approaches of detecting COVID-19 require in-person testing with expensive kits that are not always easily accessible. This study demonstrates that crowdsourced cough audio samples recorded and acquired on smartphones from around the world can be used to develop an AI-based method that accurately predicts COVID-19 infection with an ROC-AUC of 77.1% (75.2%-78.3%). Furthermore, we show that our method is able to generalize to crowdsourced audio samples from Latin America and clinical samples from South Asia, without further training using the specific samples from those regions. As more crowdsourced data is collected, further development can be implemented using various respiratory audio samples to create a cough analysis-based machine learning (ML) solution for COVID-19 detection that can likely generalize globally to all demographic groups in both clinical and non-clinical settings.

Published
2020

43. Efficient Receive Beamformers for Secure Spatial Modulation against a Malicious Full-duplex Attacker with Eavesdropping Ability

Author

Jiang, Xinyi, Liu, Xiaoyu, Chen, Riqing, Wang, Yuntian, Shu, Feng, and Wang, Jiangzhou

Subjects
Computer Science - Information Theory
Abstract

In this paper, we consider a new secure spatial modulation scenario with a full-duplex (FD) malicious attacker Mallory owning eavesdropping capacity, where Mallory works on FD model and transmits a malicious jamming such as artificial noise (AN) to interfere with Bob. To suppress the malicious jamming on Bob from Mallory, a conventional maximum receive power (Max-RP) at Bob is presented firstly. Subsequently, to exploit the colored property of noise plus interference at Bob, a whitening-filter-based Max-RP (Max-WFRP) is proposed with an obvious performance enhancement over Max-RP. To completely remove the malicious jamming from Mallory, a Max-RP with a constraint of forcing the malicious jamming from Mallory to zero at Bob is proposed. To further improve secrecy rate (SR) by removing the ZF contraint (ZFC), the maximum signal-to-jamming-plus-noise ratio (Max-SJNR) is proposed. Our proposed methods have closed-form expressions. From simulation results, the four receive beamforming methods have an increasing order in performance: Max-RP, Max-RP with ZFC and Max-SJNR$\approx$Max-WFRP. Additionally, the latter two harvest a substantial performance gains over Max-RP and Max-RP with ZFC in the low and medium signal-to-noise ratio regions.

Published
2020

44. Precoding and Transmit Antenna Subarray Selection for Secure Hybrid Spatial Modulation

Author

Shu, Feng, Liu, Xiaoyu, Jiang, Xinyi, Xu, Ling, Xia, Guiyang, and Wang, Jiangzhou

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Spatial modulation (SM) is a particularly important form of multiple-input-multiple-output (MIMO). Unlike traditional MIMO, it uses both modulation symbols and antenna indices to carry information. In this paper, to avoid the high cost and circuit complexity of fully-digital SM, we mainly consider the hybrid SM system with a hybrid precoding transmitter architecture, combining a digital precoder and an analog precoder. Here, the partially-connected structure is adopted with each radio frequency chain (RF) being connected to a transmit antenna subarray (TAS). In such a system, we made an investigation of secure hybrid precoding and transmit antenna subarray selection (TASS) methods. Two hybrid precoding methods, called maximizing the approximate secrecy rate (SR) via gradient ascent (Max-ASR-GA) and maximizing the approximate SR via alternating direction method of multipliers (Max-ASR-ADMM), are proposed to improve the SR performance. As for TASS, a high-performance method of maximizing the approximate SR (Max-ASR) TASS method is first presented. To reduce its high complexity, two low-complexity TASS methods, namely maximizing the eigenvalue (Max-EV) and maximizing the product of signal-to-interference-plus-noise ratio and artificial noise-to-signal-plus-noise ratio (Max-P-SINR-ANSNR), are proposed. Simulation results will demonstrate that the proposed Max-ASR-GA and Max-ASR-ADMM hybrid precoders harvest substantial SR performance gains over existing method. For TASS, the proposed three methods Max-ASR, Max-EV, and Max-P-SINR-ANSNR perform better than existing leakage method. Particularly, the proposed Max-EV and Max-P-SINR-ANSNR is low-complexity at the expense of a little performance loss compared with Max-ASR., Comment: 13 pages, 8 figures

Published
2020

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