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186 results on '"Zheng, Tuo"'

1. Med-MoE: Mixture of Domain-Specific Experts for Lightweight Medical Vision-Language Models

Author

Jiang, Songtao, Zheng, Tuo, Zhang, Yan, Jin, Yeying, Yuan, Li, and Liu, Zuozhu

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

Recent advancements in general-purpose or domain-specific multimodal large language models (LLMs) have witnessed remarkable progress for medical decision-making. However, they are designated for specific classification or generative tasks, and require model training or finetuning on large-scale datasets with sizeable parameters and tremendous computing, hindering their clinical utility across diverse resource-constrained scenarios in practice. In this paper, we propose a novel and lightweight framework Med-MoE (Mixture-of-Experts) that tackles both discriminative and generative multimodal medical tasks. The learning of Med-MoE consists of three steps: multimodal medical alignment, instruction tuning and routing, and domain-specific MoE tuning. After aligning multimodal medical images with LLM tokens, we then enable the model for different multimodal medical tasks with instruction tuning, together with a trainable router tailored for expert selection across input modalities. Finally, the model is tuned by integrating the router with multiple domain-specific experts, which are selectively activated and further empowered by meta expert. Comprehensive experiments on both open- and close-end medical question answering (Med-VQA) and image classification tasks across datasets such as VQA-RAD, SLAKE and Path-VQA demonstrate that our model can achieve performance superior to or on par with state-of-the-art baselines, while only requiring approximately 30\%-50\% of activated model parameters. Extensive analysis and ablations corroborate the effectiveness and practical utility of our method.

Published
2024

15. Thermoelectric performance of Bi2Sn2Te6 monolayer with ultralow lattice thermal conductivity induced by hybrid bonding properties: A theoretical prediction.

Author

Tang, ShuWei, Wang, Hao, Wan, Da, Li, XiaoDong, Guo, WanRong, Zheng, Tuo, Qi, XiuLing, and Bai, ShuLin

Abstract

The crystal structure, mechanical stability, phonon dispersion, electronic transport properties and thermoelectric (TE) performance of the Bi2Sn2Te6 monolayer are assessed with the first-principles calculations and the Boltzmann transport theory. The Bi2Sn2Te6 monolayer is an indirect semiconductor with a band gap of 0.91 eV using the Heyd-Scuseria-Ernzerhof (HSE06) functional in consideration of the spin-orbit coupling (SOC) effect. The Bi2Sn2Te6 monolayer is high thermodynamically and mechanically stable by the assessments of elastic modulus, phonon dispersion curves, and ab initio molecular dynamics (AIMD) simulations. The hybrid bonding characteristics are discovered in Bi2Sn2Te6 monolayer, which is advantageous for phonon scattering. The antibonding interactions near the Fermi level weaken the chemical bonding and reduce the phonon vibrational frequency. Due to the short phonon relaxation time, strong anharmonic scattering, large Grüneisen parameter, and small phonon group velocity, an ultralow lattice thermal conductivity (0.27 W/(m·K)@300K) is achieved for the Bi2Sn2Te6 monolayer. The optimal dimensionless figure of merit (ZT) values for the n-type and p-type Bi2Sn2Te6 monolayers are 2.68 and 1.63 at 700 K, respectively, associated with a high TE conversion efficiency of 20.01% at the same temperature. Therefore, the Bi2Sn2Te6 monolayer emerges as a promising candidate for TE material with high conversion efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Thermoelectric performance of Bi2Sn2Te6monolayer with ultralow lattice thermal conductivity induced by hybrid bonding properties: A theoretical prediction

Author

Tang, ShuWei, Wang, Hao, Wan, Da, Li, XiaoDong, Guo, WanRong, Zheng, Tuo, Qi, XiuLing, and Bai, ShuLin

Abstract

The crystal structure, mechanical stability, phonon dispersion, electronic transport properties and thermoelectric (TE) performance of the Bi2Sn2Te6monolayer are assessed with the first-principles calculations and the Boltzmann transport theory. The Bi2Sn2Te6monolayer is an indirect semiconductor with a band gap of 0.91 eV using the Heyd-Scuseria-Ernzerhof (HSE06) functional in consideration of the spin-orbit coupling (SOC) effect. The Bi2Sn2Te6monolayer is high thermodynamically and mechanically stable by the assessments of elastic modulus, phonon dispersion curves, and ab initio molecular dynamics (AIMD) simulations. The hybrid bonding characteristics are discovered in Bi2Sn2Te6monolayer, which is advantageous for phonon scattering. The antibonding interactions near the Fermi level weaken the chemical bonding and reduce the phonon vibrational frequency. Due to the short phonon relaxation time, strong anharmonic scattering, large Grüneisen parameter, and small phonon group velocity, an ultralow lattice thermal conductivity (0.27 W/(m·K)@300K) is achieved for the Bi2Sn2Te6monolayer. The optimal dimensionless figure of merit (ZT) values for the n-type and p-type Bi2Sn2Te6monolayers are 2.68 and 1.63 at 700 K, respectively, associated with a high TE conversion efficiency of 20.01% at the same temperature. Therefore, the Bi2Sn2Te6monolayer emerges as a promising candidate for TE material with high conversion efficiency.

Published
2024
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21. MoE-TinyMed: Mixture of Experts for Tiny Medical Large Vision-Language Models

Author

Jiang, Songtao, Zheng, Tuo, Zhang, Yan, Jin, Yeying, Liu, Zuozhu, Jiang, Songtao, Zheng, Tuo, Zhang, Yan, Jin, Yeying, and Liu, Zuozhu

Abstract

Mixture of Expert Tuning (MoE-Tuning) has effectively enhanced the performance of general MLLMs with fewer parameters, yet its application in resource-limited medical settings has not been fully explored. To address this gap, we developed MoE-TinyMed, a model tailored for medical applications that significantly lowers parameter demands. In evaluations on the VQA-RAD, SLAKE, and Path-VQA datasets, MoE-TinyMed outperformed LLaVA-Med in all Med-VQA closed settings with just 3.6B parameters. Additionally, a streamlined version with 2B parameters surpassed LLaVA-Med's performance in PathVQA, showcasing its effectiveness in resource-limited healthcare settings.

Published
2024

23. Shallow crustal structure detection of the upper crust at Anqiu-Juxian Fault in the Tanlu fault zone.

Author

Huang, Qilong, Fan, Xiaoping, Fu, Wei, Zhang, Peng, Zheng, Tuo, Liu, Yunze, Zhang, Tiantian, Ren, Shiyu, Wang, Qinghui, Liu, Zhiwen, Qian, Ting, Sun, Yifei, Huang, Zhouchuan, and Zhang, Yunpeng

Subjects
GROUP velocity dispersion, SEISMIC reflection method, SEISMIC refraction method, GREEN'S functions, FRICTION velocity, GEOLOGICAL modeling, FAULT zones
Abstract

This article discusses a study conducted on the Anqiu-Juxian Fault in the Tanlu fault zone in eastern China. The researchers used data from 100 seismic stations to analyze the shallow crustal structure of the fault. They found that the development of certain faults in the Tan-Lu Fault Zone correlated with anomalies in shear-wave velocity at depths greater than 0.8 km. The study also revealed complex velocity structures in the Suqian area, indicating differential subsidence caused by faults. Additionally, the researchers observed a small pull-apart basin near Sankeshu that has entered the extinction stage. This study provides valuable insights into the crustal structure and seismic hazards of the Anqiu-Juxian Fault.The text discusses a study that used ambient noise tomography to analyze the shallow crustal velocity structures in the Suqian area. The study employed various techniques to extract and analyze Rayleigh wave group velocity dispersion curves and invert them to obtain a shear-wave velocity structure. The results revealed significant lateral heterogeneity in the velocity structure, indicating variations in the medium structure at different depths. The study also identified several faults within the study area based on the distribution of velocity anomalies, which correlated well with previous research on fault distribution characteristics. The findings were validated by comparing them with results from previous seismic exploration studies.This article presents a study on the fault zone in the Suqian area of China. The study utilized seismic exploration techniques to investigate the velocity structure and characteristics of the fault zone. [Extracted from the article]

Published
2024
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31. Possible layered lithospheric anisotropy around Longmenshan Faults by teleseismic S wave splitting and receiver functions.

Author

Wang, An-Jian, Gao, Yuan, Sun, Ya, and Zheng, Tuo

Subjects
SEISMIC anisotropy, SHEAR waves, ANISOTROPY, FAULT zones, EARTHQUAKES, LITHOSPHERE
Abstract

This study conducts an in-depth analysis of seismic anisotropy around the Longmenshan Faults. Utilizing a dataset of about 7710 earthquake catalogs from July 2007 to March 2023, we applied S wave splitting and receiver function methods to examine Pms and XKS waveforms collected from 12 fixed broadband stations across Gansu and Sichuan provinces. Our analysis revealed significant variations in seismic anisotropy between the crust and lithosphere, marked by distinct fast wave directions and delay times. These characteristics point to the possibility for layered anisotropy within the region. A two-layer anisotropy inversion analysis at key stations further delineated the differential anisotropic behaviors between the crust and the upper mantle, underscoring the impact of local geological structures and mantle dynamics. Crucially, our study posits the existence of layered anisotropy around the Longmenshan Fault Zone, a finding that significantly advances our comprehension of the region's seismic anisotropy and adds a vital dimension to our understanding of its subsurface structural intricacies and tectonic evolution. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Anchoring and catalytic insights into bilayer C4N3 material for lithium–selenium batteries: a first-principles study.

Author

Yang, Zehui, Liu, Wentao, Bai, Shulin, Ai, Peng, Wang, Hao, Zheng, Tuo, Li, Qingshun, and Tang, Shuwei

Abstract

In the present work, a theoretical design for the viability of bilayer C4N3 (bi-C4N3) as a promising host material for Li–Se battery was conducted utilizing first-principles calculations. The AA- and AB-stacking configurations of bilayer C4N3 can effectively inhibit the shuttling of high-order polyselenides through the synergistic effect of physical confinement and strong Li–N bonds. Compared to conventional electrolytes, the AA- and AB-stacking bilayer C4N3 demonstrate enhanced adsorption capabilities for the polyselenides. The anchored structures of Se8 or Li2Sen (n = 1, 2, 4, 6, 8) molecules within the bilayer C4N3 exhibit high electrical conductivities, which are beneficial for enhancing the electrochemical performance. The catalytic effects of AA- and AB-stacking bilayer C4N3 were investigated by the reduction of Se8 and the energy barrier associated with the decomposition of Li2Se. The AA- and AB-stacking bilayer C4N3 can significantly decrease the activation barrier and promote the decomposition of Li2Se. The mean square displacement (MSD) curves reveal the pronounceably sluggish Li-ions diffusions in polyselenides within the AA- and AB-stacking bilayer C4N3, which in turn demonstrates the notable prospects in mitigating the shuttle effect. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Research and application of domestic micro star sensor

Author

Zheng Tuo and Wang Guanya

Subjects
star sensor, localization, miniaturization, Electronics, TK7800-8360
Abstract

Star sensor is an important part of the attitude control of spacecraft. Based on the homemade anti-radiation CMOS APS chip and SoPC control chip, the optical and electrical system of a miniature star sensor is designed, and finally the miniaturization and localization of star sensor are realized. In order to develop a homemade miniaturized star sensor as the breakthrough point, the key technical issues of its parameter design, system construction and performance are studied. The developed star sensor eventually meets the expected design, and can complete the basic functions.

Published
2018
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41. Energy Efficient Node Deployment Optimization for CTS Based on Cooperative Beamforming in Single-Hop Wireless Sensor Networks

Author

Gan Xiong, Zheng Tuo, Xi Chenbo, and Yang Guangyou

Subjects
021110 strategic, defence & security studies, Node deployment, Computer science, Node (networking), ComputerSystemsOrganization_COMPUTER-COMMUNICATIONNETWORKS, 0211 other engineering and technologies, 02 engineering and technology, Dissipation, Transmission (telecommunications), Control and Systems Engineering, Modulation, Signal Processing, Computer Science::Networking and Internet Architecture, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Cooperative beamforming, 020201 artificial intelligence & image processing, Wireless sensor network, Software, Hardware_LOGICDESIGN, Efficient energy use
Abstract

Node deployment has an influence on energy dissipation of cooperative transmission scheme (CTS) in wireless sensor networks. In order to reduce the energy dissipation in single-hop wireless sensor networks, the problem of node deployment for cooperative beamforming (CBF) based CTS is studied in this paper. First, the energy dissipation for CTS based on CBF is studied, then the node’s position and the modulation size is optimized through two-step optimization to minimize energy dissipation. Numerical results show that the optimized node deployment and CBF scheme can greatly reduce the energy dissipation.

Published
2020
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49. Research on Adaptive Front-lighting System Algorithm Based on Machine Vision

Author

Zheng Tuo

Subjects
Machine vision, Computer science, Line (geometry), Steering wheel, Radius, State (computer science), Turning radius, computer.software_genre, computer, Algorithm, Image (mathematics), Simulation software
Abstract

At present, the mainstream AFS in the market derives turning radius based on steering wheel angle or front wheel angle, which is simple and effective, but is susceptible to the vehicle's state and has certain hysteresis. In view of this problem, this paper studies how to adjust the headlight deflection angle based on machine vision technology. It proposes to calculate the curve radius from the road image by machine vision, extract several coordinate points of the lane line, fit the circular curve using the least square method to seek the equivalent radius of the curve. Then, the calculated curve radius is compared with the radius on the electronic map via real vehicle test to prove feasibility of the algorithm. Finally, using LabVIEW as the platform, virtual adaptive front-lighting simulation software is designed.

Published
2020
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