Search

Your search keyword '"Tang, Aimin"' showing total 440 results
Start Over Author "Tang, Aimin"
440 results on '"Tang, Aimin"'

1. Channel Modeling Framework for Both Communications and Bistatic Sensing Under 3GPP Standard

Author

Luo, Chenhao, Tang, Aimin, Gao, Fei, Liu, Jianguo, and Wang, Xudong

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Integrated sensing and communications (ISAC) is considered a promising technology in the B5G/6G networks. The channel model is essential for an ISAC system to evaluate the communication and sensing performance. Most existing channel modeling studies focus on the monostatic ISAC channel. In this paper, the channel modeling framework for bistatic ISAC is considered. The proposed channel modeling framework extends the current 3GPP channel modeling framework and ensures the compatibility with the communication channel model. To support the bistatic sensing function, several key features for sensing are added. First, more clusters with weaker power are generated and retained to characterize the potential sensing targets. Second, the target model can be either deterministic or statistical, based on different sensing scenarios. Furthermore, for the statistical case, different reflection models are employed in the generation of rays, taking into account spatial coherence. The effectiveness of the proposed bistatic ISAC channel model framework is validated by both ray tracing simulations and experiment studies. The compatibility with the 3GPP communication channel model and how to use this framework for sensing evaluation are also demonstrated., Comment: Accepted by IEEE JOURNALS OF SELECTED AREAS IN SENSORS. Part of this work was presented at VTC-Spring 2024

Published
2024

2. Interference Management for Full-Duplex ISAC in B5G/6G Networks: Architectures, Challenges, and Solutions

Author

Tang, Aimin, Wang, Xudong, and Zhang, J. Andrew

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Integrated sensing and communications (ISAC) has been visioned as a key technique for B5G/6G networks. To support monostatic sensing, a full-duplex radio is indispensable to extract echo signals from targets. Such a radio can also greatly improve network capacity via full-duplex communications. However, full-duplex radios in existing ISAC designs are mainly focused on wireless sensing, while the ability of full-duplex communications is usually ignored. In this article, we provide an overview of full-duplex ISAC (FD-ISAC), where a full-duplex radio is used for both wireless sensing and full-duplex communications in B5G/6G networks, with a focus on the fundamental interference management problem in such networks. First, different ISAC architectures are introduced, considering different full-duplex communication modes and wireless sensing modes. Next, the challenging issues of link-level interference and network-level interference are analyzed, illustrating a critical demand on interference management for FD-ISAC. Potential solutions to interference management are then reviewed from the perspective of radio architecture design, beamforming, mode selection, and resource allocation. The corresponding open problems are also highlighted., Comment: Accepted by IEEE Communications Magazine

Published
2024
Full Text
View/download PDF

3. Effects of Online Learning on Student Moral Development: A Meta-Analysis Based on 42 Experimental and Quasi-Experimental Studies

Author

Wang, Hao and Tang, Aimin

Abstract

The widespread practices of online learning have sparked increasing interest in its educational efficacy. The effects of online learning on learners' moral development remain contentious in existing research. The purpose of this meta-analysis was to ascertain how online leaning impact students' moral development. It included 42 experimental and quasi-experimental studies with an aggregate sample of 5303 learners after the processes of literature screening, data extraction, and risk of bias assessment. Analytical results revealed that online learning had positive effects on student moral understanding and reasoning, but no significant impact on student moral emotions and behavior. Subgroup analyses by student type, course type, online learning pattern, and involvement of interactive activity showed that there were disparities in the effect size between all subgroups and that only the moderating effect of student type on student moral reasoning was statistically significant.

Published
2023

4. Achieving Scalable Capacity in Wireless Mesh Networks

Author

Lei, Lei, Tang, Aimin, and Wang, Xudong

Subjects
Computer Science - Information Theory
Abstract

Wireless mesh networks play a critical role in enabling key networking scenarios in beyond-5G (B5G) and 6G networks, including integrated access and backhaul (IAB), multi-hop sidelinks, and V2X. However, it still poses a challenge to deliver scalable per-node throughput via mesh networking, which significantly limits the potential of large-scale deployment of wireless mesh networks. Existing research has achieved $O(1)$ per-node throughput in a dense network, but how to achieve scalability remains an unresolved issue for an extended wireless network where the network size increases with a constant node density. This issue prevents a wireless mesh network from large-scale deployment. To this end, this paper aims to develop a theoretical approach to achieving scalable per-node throughput in wireless mesh networks. First, the key factors that limit the per-node throughput of wireless mesh networks are analyzed, through which two major ones are identified, i.e., link sharing and interference. Next, a multi-tier hierarchical architecture is proposed to overcome the link-sharing issue. The inter-tier interference under this architecture is then mitigated by utilizing orthogonal frequency allocation between adjacent tiers, while the intra-tier interference is reduced by considering two specific transmission schemes, one is MIMO spatial multiplexing with time-division, the other is MIMO beamforming. Theoretical analysis shows that the multi-tier mesh networking architecture can achieve a per-node throughput of $\Theta(1)$ in both schemes, as long as certain conditions on network parameters including bandwidth, antenna numbers, and node numbers of each tier are satisfied. A case study on a realistic deployment of 10,000 nodes is then carried out, which demonstrates that a scalable throughput of $\Theta(1)$ is achievable with a reasonable assumption on bandwidth and antenna numbers., Comment: ~12pages, 4 figures, submitted to IEEE TIT, part of this work has been published in IEEE MASS 2022

Published
2023

18. Profiling of hMPV F-specific antibodies isolated from human memory B cells

Author

Xiao, Xiao, Fridman, Arthur, Zhang, Lu, Pristatsky, Pavlo, Durr, Eberhard, Minnier, Michael, Tang, Aimin, Cox, Kara S., Wen, Zhiyun, Moore, Renee, Tian, Dongrui, Galli, Jennifer D., Cosmi, Scott, Eddins, Michael J., Sullivan, Nicole L., Yan, Xiaodong, Bett, Andrew J., Su, Hua-Poo, Vora, Kalpit A., Chen, Zhifeng, and Zhang, Lan

Published
2022
Full Text
View/download PDF

35. Identification and Quantification of a Pneumococcal Cell Wall Polysaccharide by Antibody-Enhanced Chromatography Assay.

Author

Deng, James Z., Chen, Zhifeng, Small, James, Yuan, Yue, Cox, Kara, Tang, Aimin, Roman, Jeanette, Guan, Liming, Feller, Katrina, Ansbro, Frances, and Vora, Kalpit

Subjects
POLYSACCHARIDES, PNEUMOCOCCAL vaccines, CHROMATOGRAPHIC analysis, MONOCLONAL antibodies, IMMUNE response
Abstract

Multivalent pneumococcal vaccines have been developed successfully to combat invasive pneumococcal diseases (IPD) and reduce the associated healthcare burden. These vaccines employ pneumococcal capsular polysaccharides (PnPs), either conjugated or unconjugated, as antigens to provide serotype-specific protection. Pneumococcal capsular polysaccharides used for vaccine often contain residual levels of cell wall polysaccharides (C-Ps), which can generate a non-serotype specific immune response and complicate the desired serotype-specific immunity. Therefore, the C-P level in a pneumococcal vaccine needs to be controlled in the vaccine process and the anti C-P responses need to be dialed out in clinical assays. Currently, two types of cell-wall polysaccharide structures have been identified: a mono-phosphocholine substituted cell-wall polysaccharide C-Ps1 and a di-phosphocholine substituted C-Ps2 structure. In our effort to develop a next-generation novel pneumococcal conjugate vaccine (PCV), we have generated a monoclonal antibody (mAb) specific to cell-wall polysaccharide C-Ps2 structure. An antibody-enhanced HPLC assay (AE-HPLC) has been established for serotype-specific quantification of pneumococcal polysaccharides in our lab. With the new anti C-Ps2 mAb, we herein extend the AE-HPLC assay to the quantification and identification of C-Ps2 species in pneumococcal polysaccharides used for vaccines. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

43. Ti3C2Tx/AgNPs/Ti3C2Tx coated nylon/spandex fabric sensors for human detection with a wide range of application scenarios.

Author

Tang, Aimin, He, Jingqiang, Li, Ang, Wang, Weijie, Jiang, Shan, and Guo, Ronghui

Abstract

With the development of the Internet of Things (IoT), multifunctional integrated wearable smart devices are developing rapidly, but the preparation of fabric-based smart wearables integrated with motion detection, electromagnetic interference (EMI) shielding, electrothermal property, photothermal property and hydrophobicity is still a challenge. Here, nylon and spandex blended knitted fabric (NS) was selected as a flexible substrate, which was surface modified with Ti3C2Tx under ultrasound, followed by microwave-assisted reduction of Ag+ for the deposition of AgNPs, and then finally drop-coated with Ti3C2Tx again to construct a “Ti3C2Tx-AgNPs” bilayer conductive network. The composite fabrics obtained have excellent strain sensing property (GFmax = 9 and strain range = 0–180%), pressure sensing property (GFmax = 0.28KPa−1, pressure range = 0–330KPa), EMI shielding property (SET = 62.6dB), electrothermal property (48.7 °C under infrared light with a light intensity of 100 mW/cm2), photothermal property (61.1 °C under low-voltage drive at 2.5 V) and hydrophobicity (CA = 135°). [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

47. A potent broadly neutralizing human RSV antibody targets conserved site IV of the fusion glycoprotein

Author

Tang, Aimin, Chen, Zhifeng, Cox, Kara S., Su, Hua-Poo, Callahan, Cheryl, Fridman, Arthur, Zhang, Lan, Patel, Sangita B., Cejas, Pedro J., Swoyer, Ryan, Touch, Sinoeun, Citron, Michael P., Govindarajan, Dhanasekaran, Luo, Bin, Eddins, Michael, Reid, John C., Soisson, Stephen M., Galli, Jennifer, Wang, Dai, Wen, Zhiyun, Heidecker, Gwendolyn J., Casimiro, Danilo R., DiStefano, Daniel J., and Vora, Kalpit A.

Published
2019
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results