Your search keyword '"Suo A"' showing total 53,387 results

1. Discovery of an Ultra-Stable Antiferromagnetic Two-Dimensional CrF3 Phase with Anisotropic Quasi-1D Mechanical, Electronic, and Thermal Properties

Author

Chen, Xin, Zhou, Fengyi, Suo, Yan, Shao, Cheng, Cheng, Xu, Wang, Duo, and Sanyal, Biplab

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We report the discovery of an ultra-stable antiferromagnetic two-dimensional (2D) CrF3 phase that is energetically more favorable than the traditionally assumed hexagonal structure. Using first-principles calculations and evolutionary structure searches, we identify a new low-energy rectangular configuration of CrF3 with remarkable anisotropic properties. Mechanically, this phase exhibits zero in-plane Poisson's ratio, a rare negative out-of-plane Poisson's ratio, and quasi-one-dimensional (quasi-1D) behavior characterized by minimal coupling between orthogonal directions. Electronically, CrF3 shows quasi-1D transport with two independent conduction bands near the Fermi level, tunable via uniaxial strain. The calculated bandgap is 3.05 eV, which can be modulated under strain, enabling control over its electronic properties. The material also displays out-of-plane antiferromagnetic ordering with a magnetic anisotropy energy of 0.098 meV per Cr atom and an estimated Neel temperature of 20 K. Additionally, we investigate the thermal conductivity of monolayer rectangular CrF3 (r-CrF3), revealing significant anisotropy in heat transport. The thermal conductivity along the y-axis is approximately 60.5 W/mK at 300 K, much higher than along the x-axis at 13.2 W/mK. The thermal anisotropic factor is 4.58, surpassing that of other 2D materials like black phosphorene, WTe2, and arsenene, highlighting r-CrF3's potential for advanced directional heat management. Consequently, the rectangular CrF3 phase is a promising candidate for applications in spintronics, strain-engineered nanoelectronics, mechanical metamaterials, and thermal management technologies.

Published

2024

2. Comparison of Relative Magnetic Helicity Flux Calculation Results Based on the Line-of-Sight Magnetograms of ASO-S/FMG and SDO/HMI

Author

Yang, Shangbin, Liu, Suo, Su, Jiangtao, and Deng, Yuanyong

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Magnetic helicity is a key geometrical parameter to describe the structure and evolution of solar coronal magnetic fields. The accumulation of magnetic helicity is correlated with the non-potential magnetic field energy, which is released in the solar eruptions. Moreover, the relative magnetic helicity fluxes can be estimated only relying on the line-of-sight magnetic field (e.g., Demoulin and Berger Sol. Phys. 215, 203, 2003). The payload Full-disk MagnetoGraph (FMG) on the Advanced Space-based Solar Observatory (ASO-S) currently has been supplying the continuous evolution of line-of-sight magnetograms for the solar active regions, which can be used to estimate the magnetic helicity flux. In this study, we useeight hours line-of-sight magnetograms of NOAA 13273, when at which the Sun-Earth direction speed of the satellite is zero to avoid the oscillation of the magnetic field caused by the Doppler effect on polarization measurements. We obtain the helicity flux by applying Fast Fourier Transforms (FFT) and local correlation tracking (LCT) methods to obtain the horizontal vector potential field and the motions of the ine-sf-sight polarities. We also compare the helicity flux derived using data from the Heliosesmic and Magnetic Imager (HMI) on board the Solar Dynamics Observatory (SDO) and the same method. It is found that the flux has the same sign and the correlation between measurements is 0.98. The difference of the absolute magnetic helicity normalized to themagnetic flux is less than 4%. This comparison demonstrates the reliability of ASO-S/FMG data and that it can be reliably used in future studies, Comment: accepted by Solar Physics

Published

2024

3. Activation Sparsity Opportunities for Compressing General Large Language Models

Author

Dhar, Nobel, Deng, Bobin, Islam, Md Romyull, Nasif, Kazi Fahim Ahmad, Zhao, Liang, and Suo, Kun

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence

Abstract

Deploying local AI models, such as Large Language Models (LLMs), to edge devices can substantially enhance devices' independent capabilities, alleviate the server's burden, and lower the response time. Owing to these tremendous potentials, many big tech companies have released several lightweight Small Language Models (SLMs) to bridge this gap. However, we still have huge motivations to deploy more powerful (LLMs) AI models on edge devices and enhance their smartness level. Unlike the conventional approaches for AI model compression, we investigate activation sparsity. The activation sparsity method is orthogonal and combinable with existing techniques to maximize compression rate while maintaining great accuracy. LLMs' Feed-Forward Network (FFN) components, which typically comprise a large proportion of parameters (around 3/2), ensure that our FFN optimizations would have a better chance of achieving effective compression. Moreover, our findings are beneficial to general LLMs and are not restricted to ReLU-based models. This work systematically investigates the tradeoff between enforcing activation sparsity and perplexity (accuracy) on state-of-the-art LLMs. Our empirical analysis demonstrates that we can obtain around 50% of main memory and computing reductions for critical FFN components with negligible accuracy degradation. This extra 50% sparsity does not naturally exist in the current LLMs, which require tuning LLMs' activation outputs by injecting zero-enforcing thresholds. To obtain the benefits of activation sparsity, we provide a guideline for the system architect for LLM prediction and prefetching. The success prediction allows the system to prefetch the necessary weights while omitting the inactive ones and their successors, therefore lowering cache and memory pollution and reducing LLM execution time on resource-constrained edge devices., Comment: Conference submission for IPCCC 2024

Published

2024

4. Pruning All-Rounder: Rethinking and Improving Inference Efficiency for Large Vision Language Models

Author

Suo, Wei, Ma, Ji, Sun, Mengyang, Wu, Lin Yuanbo, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Although Large Vision-Language Models (LVLMs) have achieved impressive results, their high computational cost poses a significant barrier to wider application. To enhance inference efficiency, most existing approaches depend on parameter-dependent or token-dependent strategies to reduce computational demands. However, these methods typically require complex training processes and struggle to consistently select the most relevant tokens. In this paper, we systematically analyze the above challenges and provide a series of valuable insights for inference acceleration. Based on these findings, we propose a novel framework, the Pruning All-Rounder (PAR). Different from previous works, PAR develops a meta-router to adaptively organize pruning flows across both tokens and layers. With a self-supervised learning manner, our method achieves a superior balance between performance and efficiency. Notably, PAR is highly flexible, offering multiple pruning versions to address a range of pruning scenarios. The code for this work will be made publicly available.

Published

2024

5. Opinion Dynamic Under Malicious Agent Influence in Multi-Agent Systems: From the Perspective of Opinion Evolution Cost

Author

Suo, Yuhan, Chai, Runqi, Chai, Senchun, Farhan, Ishrak MD, Zhao, Xudong, and Xia, Yuanqing

Subjects

Computer Science - Multiagent Systems, Computer Science - Social and Information Networks, Mathematics - Optimization and Control

Abstract

In human social systems, debates are often seen as a means to resolve differences of opinion. However, in reality, debates frequently incur significant communication costs, especially when dealing with stubborn opponents. Inspired by this phenomenon, this paper examines the impact of malicious agents on the evolution of normal agents' opinions from the perspective of opinion evolution cost, and proposes corresponding solutions for the scenario in which malicious agents hold different opinions in multi-agent systems(MASs). First, this paper analyzes the negative impact of malicious agents on the opinion evolution process, reveals the additional evolution cost it brings, and provides a theoretical basis for the subsequent solutions. Secondly, based on the characteristics of opinion evolution, the malicious agent isolation algorithm based on opinion evolution direction vector is proposed, which does not strongly restrict the proportion of malicious agents. Additionally, an evolution rate adjustment mechanism is introduced, allowing the system to flexibly regulate the evolution process in complex situations, effectively achieving the trade-off between opinion evolution rate and cost. Extensive numerical simulations demonstrate that the algorithm can effectively eliminate the negative influence of malicious agents and achieve a balance between opinion evolution costs and convergence speed., Comment: 20 pages, 12 figures, 2 tables. This work has been submitted to the IEEE for possible publication

Published

2024

6. Physics Informed Neural Networks (PINNs) as intelligent computing technique for solving partial differential equations: Limitation and Future prospects

Author

Zhang, Weiwei, Suo, Wei, Song, Jiahao, and Cao, Wenbo

Subjects

Physics - Computational Physics

Abstract

In recent years, Physics-Informed Neural Networks (PINNs) have become a representative method for solving partial differential equations (PDEs) with neural networks. PINNs provide a novel approach to solving PDEs through optimization algorithms, offering a unified framework for solving both forward and inverse problems. However, some limitations in terms of solution accuracy and generality have also been revealed. This paper systematically summarizes the limitations of PINNs and identifies three root causes for their failure in solving PDEs: (1) Poor multiscale approximation ability and ill-conditioning caused by PDE losses; (2) Insufficient exploration of convergence and error analysis, resulting in weak mathematical rigor; (3) Inadequate integration of physical information, causing mismatch between residuals and iteration errors. By focusing on addressing these limitations in PINNs, we outline the future directions and prospects for the intelligent computing of PDEs: (1) Analysis of ill-conditioning in PINNs and mitigation strategies; (2) Improvements to PINNs by enforcing temporal causality; (3) Empowering PINNs with classical numerical methods., Comment: 30 pages, 9 figures, 3 tables

Published

2024

7. Effects of Muscle Synergy during Overhead Work with a Passive Shoulder Exoskeleton: A Case Study

Author

Tian, Jin, Wei, Baichun, Yang, Chifu, Luo, Suo, Feng, Jiadong, Li, Ping, Chen, Changbing, Liu, Yingjie, Zhu, Haiqi, and Yi, Chunzhi

Subjects

Physics - Medical Physics, Computer Science - Robotics

Abstract

Objective: Shoulder exoskeletons can effectively assist with overhead work. However, their impacts on muscle synergy remain unclear. The objective is to systematically investigate the effects of the shoulder exoskeleton on muscle synergies during overhead work.Methods: Eight male participants were recruited to perform a screwing task both with (Intervention) and without (Normal) the exoskeleton. Eight muscles were monitored and muscle synergies were extracted using non-negative matrix factorization and electromyographic topographic maps. Results: The number of synergies extracted was the same (n = 2) in both conditions. Specifically, the first synergies in both conditions were identical, with the highest weight of AD and MD; while the second synergies were different between conditions, with highest weight of PM and MD, respectively. As for the first synergy in the Intervention condition, the activation profile significantly decreased, and the average recruitment level and activation duration were significantly lower (p<0.05). The regression analysis for the muscle synergies across conditions shows the changes of muscle synergies did not influence the sparseness of muscle synergies (p=0.7341). In the topographic maps, the mean value exhibited a significant decrease (p<0.001) and the entropy significantly increased (p<0.01). Conclusion: The exoskeleton does not alter the number of synergies and existing major synergies but may induce new synergies. It can also significantly decrease neural activation and may influence the heterogeneity of the distribution of monitored muscle activations. Significance: This study provides insights into the potential mechanisms of exoskeleton-assisted overhead work and guidance on improving the performance of exoskeletons.

Published

2024

8. Vortex information in multiphoton scalar pair production

Author

Fan, Hong-Hao, Zhang, Cui-Wen, Tang, Suo, and Xie, Bai-Song

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

Vortex information of scalar pair production in circularly polarized field is investigated in the multiphoton regime. We find that vortex orientation is related to the intrinsic orbital angular momentum of created particles associating with the helicity of absorbed photons, while the magnitude of the orbital angular momentum, i.e., the topology charge is determined by the number of absorbed photons. Moreover, the properties of particle creation and vortices formation can be understood by analyzing the pair production process in quasiparticle representation. This study provides new insights into the angular momentum transfer from field to particle in the scalar pair production process. It is expected that there are similar findings about vortex features for different spin alignment in electron-positron pair production in strong fields via the topology charge as a new freedom., Comment: 7 pages, 4 figures

Published

2024

9. Pressure-Induced Superconductivity in Pr4Ni3O10 Single Crystals

Author

Pei, Cuiying, Zhang, Mingxin, Peng, Di, Huangfu, Shangxiong, Zhu, Shihao, Wang, Qi, Wu, Juefei, Xing, Zhenfang, Zhang, Lili, Chen, Yulin, Zhao, Jinkui, Yang, Wenge, Suo, Hongli, Guo, Hanjie, Zeng, Qiaoshi, and Qi, Yanpeng

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons

Abstract

The recent discovery of superconductivity in pressurized Ruddlesden-Popper (RP) of nickelates has potential similarities with cuprate superconductors, which may provide unique perspectives on the mechanisms of high-temperature superconductivity. Up to now, most of high-pressure experiments concentrated on the lanthanum-related RP phase. Therefore, the discovery of new superconducting nickelate compounds is highly desired to explore the generality of pressure-induced superconductivity in RP nickelates. Here, we grow high-quality Pr4Ni3O10 single crystal with an optical floating zone furnace under high oxygen pressure and conduct high-pressure transport measurements with various pressure transmitting mediums. The density wave in Pr4Ni3O10 single crystal was suppressed by pressure, accompanying the arising of superconducting state beyond 10 GPa. The maximum and unsaturated Tc of 39 K is obtained within our research pressure. Although zero resistivity was not achieved in our experiments, the pressure and temperature-dependent diamagnetism along with the systematic evolution of resistivity with applied magnetic field, corroborate the superconductivity in Pr4Ni3O10 single crystals. Our findings provide a new platform for the investigation of the relationship among structural evolution, magnetism, correlation, and superconductivity in Ruddlesden-Popper nickelates., Comment: 15 pages,5 figures

Published

2024

10. Spider 2.0: Evaluating Language Models on Real-World Enterprise Text-to-SQL Workflows

Author

Lei, Fangyu, Chen, Jixuan, Ye, Yuxiao, Cao, Ruisheng, Shin, Dongchan, Su, Hongjin, Suo, Zhaoqing, Gao, Hongcheng, Hu, Wenjing, Yin, Pengcheng, Zhong, Victor, Xiong, Caiming, Sun, Ruoxi, Liu, Qian, Wang, Sida, and Yu, Tao

Subjects

Computer Science - Computation and Language, Computer Science - Artificial Intelligence, Computer Science - Databases

Abstract

Real-world enterprise text-to-SQL workflows often involve complex cloud or local data across various database systems, multiple SQL queries in various dialects, and diverse operations from data transformation to analytics. We introduce Spider 2.0, an evaluation framework comprising 632 real-world text-to-SQL workflow problems derived from enterprise-level database use cases. The databases in Spider 2.0 are sourced from real data applications, often containing over 1,000 columns and stored in local or cloud database systems such as BigQuery and Snowflake. We show that solving problems in Spider 2.0 frequently requires understanding and searching through database metadata, dialect documentation, and even project-level codebases. This challenge calls for models to interact with complex SQL workflow environments, process extremely long contexts, perform intricate reasoning, and generate multiple SQL queries with diverse operations, often exceeding 100 lines, which goes far beyond traditional text-to-SQL challenges. Our evaluations indicate that based on o1-preview, our code agent framework successfully solves only 17.0% of the tasks, compared with 91.2% on Spider 1.0 and 73.0% on BIRD. Our results on Spider 2.0 show that while language models have demonstrated remarkable performance in code generation -- especially in prior text-to-SQL benchmarks -- they require significant improvement in order to achieve adequate performance for real-world enterprise usage. Progress on Spider 2.0 represents crucial steps towards developing intelligent, autonomous, code agents for real-world enterprise settings. Our code, baseline models, and data are available at https://spider2-sql.github.io.

Published

2024

11. On the Drag Coefficient Universality of a Rough Grain in Creeping Flow

Author

Suo, Si, Wei, Deheng, Zhao, Budi, Zhai, Chongpu, and Gan, Yixiang

Subjects

Physics - Fluid Dynamics, Physics - Geophysics

Abstract

Controversy exists regarding whether grain morphology reduces or enhances the drag of a single grain in creeping flows; further complication occurs when orientation dependence for aspherical grains comes into play. To quantify influences of shape irregularity and orientation, this study numerically investigates the drag in creeping flows for fractally rough grains depicted by Spherical Harmonics. As the grain surface becomes more angular with increasing relative roughness and fractal dimension, a stronger drag reduction is observed; this observed morphology-dependent reduction indicates Stokes formula is insufficient. The rotational dependence helps to explain the paradox wherein drag enhancement is always encountered insettling-grain experiments popular in geophysics. For the drag of a given rough grain at various orientations, extracted distributions of the overall drag, and its two components, i.e., skin friction and pressure drag, universally adhere to the Weibull patterns. Moreover, we identify a universal power law between drag coefficients and a newly proposed area-related number, sufficiently taking into consideration both grain roughness by surface area and orientational dependence by projected area perpendicular to the flow direction. This law is primarily controlled by relative roughness, with less sensitivity to fractal dimension. The determined expression enables precise estimation of fluid-particle interactions in upscaling simulations.

Published

2024

12. Accelerating Fock build via hybrid analytical-numerical integration

Author

Zhang, Yong, Lei, Rongding, Suo, Bingbing, and Liu, Wenjian

Subjects

Physics - Chemical Physics

Abstract

A very robust and efficient hybrid analytic-numerical Fock build, aMECP+aCOSx, has been developed for accelerating HF/DFT calculations. The essential idea is to extract those portions of the Fock matrix that can readily be evaluated analytically, so as to minimize numerical noises arising from the semi-numerical and numerical integrations. As a result, the combination of aMECP with a medium grid and aCOSx with a coarse grid is already sufficient to achieve an accuracy of less than 1{\mu}Eh/atom in total energies. The acceleration of aMECP+aCOSx over the analytic Fock build is already seen in calculations of small molecular systems and is more enhanced in calculations of large molecules with extended basis sets., Comment: 34 pages, 6 figures

Published

2024

13. Provable Length Generalization in Sequence Prediction via Spectral Filtering

Author

Marsden, Annie, Dogariu, Evan, Agarwal, Naman, Chen, Xinyi, Suo, Daniel, and Hazan, Elad

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

We consider the problem of length generalization in sequence prediction. We define a new metric of performance in this setting -- the Asymmetric-Regret -- which measures regret against a benchmark predictor with longer context length than available to the learner. We continue by studying this concept through the lens of the spectral filtering algorithm. We present a gradient-based learning algorithm that provably achieves length generalization for linear dynamical systems. We conclude with proof-of-concept experiments which are consistent with our theory., Comment: 34 pages, 9 figures

Published

2024

14. The association between dietary patterns before pregnancy and gestational diabetes mellitus: A matched case-control study in China

Author

Li, Xinxin, Kang, Ting, Cui, Zhenwei, Bo, Yacong, Liu, Yanhua, Ullah, Amin, Suo, Xiangying, Chen, Huanan, and Lyu, Quanjun

Published

2024

15. PINN-MG: A Multigrid-Inspired Hybrid Framework Combining Iterative Method and Physics-Informed Neural Networks

Author

Dong, Daiwei, Suo, Wei, Kou, Jiaqing, and Zhang, Weiwei

Subjects

Physics - Computational Physics

Abstract

Iterative methods are widely used for solving partial differential equations (PDEs). However, the difficulty in eliminating global low-frequency errors significantly limits their convergence speed. In recent years, neural networks have emerged as a novel approach for solving PDEs, with studies revealing that they exhibit faster convergence for low-frequency components. Building on this complementary frequency convergence characteristics of iterative methods and neural networks, we draw inspiration from multigrid methods and propose a hybrid solving framework that combining iterative methods and neural network-based solvers, termed PINN-MG (PMG). In this framework, the iterative method is responsible for eliminating local high-frequency oscillation errors, while Physics-Informed Neural Networks (PINNs) are employed to correct global low-frequency errors. Throughout the solving process, high- and low-frequency components alternately dominate the error, with each being addressed by the iterative method and PINNs respectively, thereby accelerating the convergence. We tested the proposed PMG framework on the linear Poisson equation and the nonlinear Helmholtz equation, and the results demonstrated significant acceleration of the PMG when built on Gauss-Seidel, pseudo-time, and GMRES methods. Furthermore, detailed analysis of the convergence process further validates the rationality of the framework. We proposed that the PMG framework is a hybrid solving approach that does not rely on training data, achieving an organic integration of neural network methods with iterative methods., Comment: 29 pages, 22figures

Published

2024

16. FutureFill: Fast Generation from Convolutional Sequence Models

Author

Agarwal, Naman, Chen, Xinyi, Dogariu, Evan, Feinberg, Vlad, Suo, Daniel, Bartlett, Peter, and Hazan, Elad

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Computation and Language

Abstract

We address the challenge of efficient auto-regressive generation in sequence prediction models by introducing FutureFill - a method for fast generation that applies to any sequence prediction algorithm based on convolutional operators. Our approach reduces the generation time requirement from quadratic to quasilinear relative to the context length. Additionally, FutureFill requires a prefill cache sized only by the number of tokens generated, which is smaller than the cache requirements for standard convolutional and attention-based models. We validate our theoretical findings with experimental evidence demonstrating correctness and efficiency gains in a synthetic generation task.

Published

2024

17. High and Low Resolution Tradeoffs in Roadside Multimodal Sensing

Author

Ding, Shaozu, Tang, Yihong, De Vincenzi, Marco, and Suo, Dajiang

Subjects

Computer Science - Robotics

Abstract

Designing roadside sensing for intelligent transportation applications requires balancing cost and performance,especially when choosing between high and low-resolution sensors. The tradeoff is challenging due to sensor heterogeneity,where different sensors produce unique data modalities due to varying physical principles. High-resolution LiDAR offers detailed point cloud, while 4D millimeter-wave radar, despite providing sparser data, delivers velocity information useful for distinguishing objects based on movement patterns. To assess whether reductions in spatial resolution can be compensated by the informational richness of sensors, particularly in recognizing both vehicles and vulnerable road users (VRUs), we propose Residual Fusion Net (ResFusionNet) to fuse multimodal data for 3D object detection. This enables a quantifiable tradeoff between spatial resolution and information richness across different modalities. Furthermore, we introduce a sensor placement algorithm utilizing probabilistic modeling to manage uncertainties in sensor visibility influenced by environmental or human-related factors. Through simulation-assisted ex-ante evaluation on a real-world testbed, our findings show marked marginal gains in detecting VRUs--an average of 16.7% for pedestrians and 11% for cyclists--when merging velocity-encoded radar with LiDAR, compared to LiDAR only configurations. Additionally, experimental results from 300 runs reveal a maximum loss of 11.5% and a average of 5.25% in sensor coverage due to uncertainty factors. These findings underscore the potential of using low spatial resolution but information-rich sensors to enhance detection capabilities for vulnerable road users while highlighting the necessity of thoroughly evaluating sensor modality heterogeneity, traffic participant diversity, and operational uncertainties when making sensor tradeoffs in practical applications., Comment: 7 pages, 8 figures

Published

2024

18. Diverse Expected Improvement (DEI): Diverse Bayesian Optimization of Expensive Computer Simulators

Author

Miller, John Joshua, Mak, Simon, Sun, Benny, Narayanan, Sai Ranjeet, Yang, Suo, Sun, Zongxuan, Kim, Kenneth S., and Kweon, Chol-Bum Mike

Subjects

Statistics - Applications, Computer Science - Machine Learning, Statistics - Machine Learning

Abstract

The optimization of expensive black-box simulators arises in a myriad of modern scientific and engineering applications. Bayesian optimization provides an appealing solution, by leveraging a fitted surrogate model to guide the selection of subsequent simulator evaluations. In practice, however, the objective is often not to obtain a single good solution, but rather a ''basket'' of good solutions from which users can choose for downstream decision-making. This need arises in our motivating application for real-time control of internal combustion engines for flight propulsion, where a diverse set of control strategies is essential for stable flight control. There has been little work on this front for Bayesian optimization. We thus propose a new Diverse Expected Improvement (DEI) method that searches for diverse ''$\epsilon$-optimal'' solutions: locally-optimal solutions within a tolerance level $\epsilon > 0$ from a global optimum. We show that DEI yields a closed-form acquisition function under a Gaussian process surrogate model, which facilitates efficient sequential queries via automatic differentiation. This closed form further reveals a novel exploration-exploitation-diversity trade-off, which incorporates the desired diversity property within the well-known exploration-exploitation trade-off. We demonstrate the improvement of DEI over existing methods in a suite of numerical experiments, then explore the DEI in two applications on rover trajectory optimization and engine control for flight propulsion.

Published

2024

19. Observation of Transient Trion Induced by Ultrafast Charge Transfer in Graphene/MoS2 Heterostructure

Author

Wang, Chen, Chen, Yu, Ma, Qiushi, Suo, Peng, Sun, Kaiwen, Cheng, Yifan, Lin, Xian, Liu, Weimin, and Ma, Guohong

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Physics - Optics

Abstract

Van der Waals (Vdw) heterostructures constructed from TMDCs provide an ideal platform for exploring various quasiparticle behaviors, with trion-composed of neutral exciton and charged carrier-being a notable example. There are typically three methods to generate trion: electrical doping, chemical doping, and direct optical doping. The first two methods generate static trion, while the last gives rise to transient trion. Here, we present an indirect optical doping approach to generate transient trion via ultrafast charge transfer (CT) and achieve control over the trion-to-exciton ratio by adjusting CT in Gr/MoS2 heterostructure. Furthermore, we demonstrated that dynamics of the transient trion generated with this method, which shows slightly longer lifetime than that of exciton accounted for the Coulomb interactions between trion and charged defect. This study provides fresh perspectives on the construction of new quasiparticles, dynamical characterization and the control of the many-body interaction in two-dimensional structure., Comment: 16 pages, 4 figures

Published

2024

20. Theoretical study on the core-excited states of the allyl using CVS-icMRCISD method

Author

Song, Qi, Wu, Junfeng, Zou, Wenli, Lei, Yibo, and Suo, Bingbing

Subjects

Physics - Chemical Physics, Physics - Computational Physics

Abstract

The allyl radical (C3H5) is a well-characterized hydrocarbon radical, renowned for its pivotal role as an intermediate species in high-energy environments. Its core excited states can elucidate intricate details pertaining to its electronic and structural properties. The core excited states of allyl were studied experimentally using X-ray absorption spectroscopy (XAS), and the primary characteristic peaks were assigned using the MCSCF approach, but not entirely. In this work, the recently developed CVS-icMRCISD scheme was used to simulate the excitation and ionization processes of C's K-shell electrons within allyl radicals, cations, and anions, respectively. Our results indicate that the XAS spectrum obtained not merely captured the distinctive peaks associated with allyl radicals, but also encompassed the characteristic peaks pertaining to allyl cations. Meanwhile, unlike manually adjusting the state weights of different electronic states to align with experimental spectral data, we adopt the CVS-icMRCISD scheme, which uses state averaging and produces unbiased results, making it suitable for studying multiple states simultaneously and easy to converge. More importantly, when accounting for the dynamic electron correlation, our results align seamlessly with the experimental XAS. This congruence underscores the potential of our CVS-icMRCISD as a robust tool for theoretical investigations pertaining to the excitation of inner shell electrons in small molecules.

Published

2024

21. Spin resolved momentum spectra for vacuum pair production via a generalized two level model

Author

Amat, Orkash, Fan, Hong-Hao, Tang, Suo, Huang, Yong-Feng, and Xie, Bai-Song

Subjects

High Energy Physics - Phenomenology, Quantum Physics

Abstract

We have formulated a generalized two level model for studying the pair production in multidimensional time-dependent electric fields. It can provide momentum spectra with fully spin resolved components for all possible combined spin states of the particle and anti-particle simultaneously. Moreover, we have also investigated the validity of the two level model for fermions (scalar particles) by comparing the results with those by equal-time Dirac-Heisenberg-Wigner (Feshbach-Villars-Heisenberg-Wigner) formalism in different regimes of pair creation, i.e., multiphoton and tunneling dominated mechanisms. It is found that the results are consistent with each other, indicating the good approximation of the two level model. In particular, in terms of the two level model, we found that the contribution of the particle momentum spectra is the greatest when the spin states of the particle and anti-particle are parallel with $S=1$. It is believed that by this two level model one can extend researches on pair production for more different background fields, such as a slowly varying spatial-temporal one. Many other interesting phenomena may also be revealed, including the spin-resolved vortex structure that is contained in the phase feature of the distribution function of the created pairs., Comment: 35 pages, 8 figures

Published

2024

22. Superband: an Electronic-band and Fermi surface structure database of superconductors

Author

Zhang, Tengdong, Suo, Chenyu, Wu, Yanling, Xu, Xiaodan, Liu, Yong, Yao, Dao-Xin, and Li, Jun

Subjects

Condensed Matter - Superconductivity

Abstract

In comparison to simpler data such as chemical formulas and lattice structures, electronic band structure data provide a more fundamental and intuitive insight into superconducting phenomena. In this work, we generate superconductor's lattice structure files optimized for density functional theory (DFT) calculations. Through DFT, we obtain electronic band superconductors, including band structures, density of states (DOS), and Fermi surface data. Additionally, we outline efficient methodologies for acquiring structure data, establish high-throughput DFT computational protocols, and introduce tools for extracting this data from large-scale DFT calculations. As an example, we have curated a dataset containing information on 2474 superconductors along with their experimentally determined superconducting transition temperatures, which is well-suited for machine learning applications. This work also provides guidelines for accessing and utilizing this dataset. Furthermore, we present a neural network model designed for training with this data. All the aforementioned data and code are publicly available at http://www.superband.work.

Published

2024

23. SDSPT2s: SDSPT2 with Selection

Author

Lei, Yibo, Guo, Yang, Suo, Bingbing, and Liu, Wenjian

Subjects

Physics - Chemical Physics

Abstract

As an approximation to SDSCI [static-dynamic-static (SDS) configuration interaction (CI), a minimal MRCI; Theor. Chem. Acc. 133, 1481 (2014)], SDSPT2 [Mol. Phys. 115, 2696 (2017)] is a CI-like multireference (MR) second-order perturbation theory (PT2) that treats single and multiple roots on an equal footing. This feature permits the use of configuration selection over a large complete active space (CAS) $P$ to end up with a much reduced reference space $\tilde{P}$, which is connected only with a portion ($\tilde{Q}_1$) of the full first-order interacting space $Q$ connected to $P$. The effective interacting $\tilde{Q}$ space can further be truncated by an integral-based cutoff threshold. With marginal loss of accuracy, the selection-truncation procedure, along with an efficient evaluation and storage of internal contraction coefficients, renders SDSPT2s (SDSPT2 with selection) applicable to systems that cannot be handled by the parent CAS-based SDSPT2, as demonstrated by several challenging showcases., Comment: 52 pages, 7 figures

Published

2024

24. ARAP: Demystifying Anti Runtime Analysis Code in Android Apps

Author

Suo, Dewen, Xue, Lei, Tan, Runze, Huang, Weihao, and Sun, Guozi

Subjects

Computer Science - Cryptography and Security, Computer Science - Software Engineering

Abstract

With the continuous growth in the usage of Android apps, ensuring their security has become critically important. An increasing number of malicious apps adopt anti-analysis techniques to evade security measures. Although some research has started to consider anti-runtime analysis (ARA), it is unfortunate that they have not systematically examined ARA techniques. Furthermore, the rapid evolution of ARA technology exacerbates the issue, leading to increasingly inaccurate analysis results. To effectively analyze Android apps, understanding their adopted ARA techniques is necessary. However, no systematic investigation has been conducted thus far. In this paper, we conduct the first systematic study of the ARA implementations in a wide range of 117,171 Android apps (including both malicious and benign ones) collected between 2016 and 2023. Additionally, we propose a specific investigation tool named ARAP to assist this study by leveraging both static and dynamic analysis. According to the evaluation results, ARAP not only effectively identifies the ARA implementations in Android apps but also reveals many important findings. For instance, almost all apps have implemented at least one category of ARA technology (99.6% for benign apps and 97.0% for malicious apps).

Published

2024

25. Application of partial wave analysis in multiphoton pair production

Author

Fan, Hong-Hao, Hu, Li-Na, Tang, Suo, Li, Zi-Liang, and Xie, Bai-Song

Subjects

High Energy Physics - Phenomenology

Abstract

Electron-positron pair production is investigated in the multiphoton regime under polarized fields. Partial wave analysis can be applied to reveal the momentum spectral structure and identify the positions of valleys/peaks of the multiphoton rings by combining with $CP$ conservation. Moreover, considering the spin states of created pairs in partial wave analysis, the particle orbital angular momentum associated with the valleys/peaks can also be identified from multiphoton rings. It is found that the results for angular distribution by this approximate analytical treatment and by the Dirac-Heisenberg-Wigner formalism are consistent with each other. The present results are helpful for understanding the angular momentum information in momentum spectra, and they also have an implication for revealing the vortex structure near the valleys., Comment: 17 pages, 4 figures, 2 tables

Published

2024

26. Finite beaming effect on QED cascades

Author

Tang, Suo

Subjects

High Energy Physics - Phenomenology

Abstract

The quantum electrodynamic (QED) theory predicts the photon emission and pair creation involved in QED cascades occur mainly in a forward cone with finite angular spread $\Delta\theta \sim 1/\gamma_{i}$ along the momenta of incoming particles. This finite beaming effect has been assumed to be negligible because of the particles' ultra-relativistic Lorentz factor $\gamma_{i}\gg1$ in laser-driven QED cascades. We develop an energy- and angularly resolved particle-tracking code, resolving both the energy spectra and the momentum profile of the outgoing particles in each QED event, which improves substantially the agreement between the simulation and exact QED results. We investigate QED cascades driven by two counter-propagating circularly polarized laser pulses, and show that the narrow beaming could be accumulated to effectively suppress the long-term growth of cascades, even though it can hardly affect the early formation of cascades. For QED cascades longer than $10$ laser cycles, the finite beaming effect could decrease the final pair yield, especially at ultrahigh intensities $\xi>600$, by more than $10\%$., Comment: 7 pages, 5 figures

Published

2024

27. A temperature-sensitive metabolic valve and a transcriptional feedback loop drive rapid homeoviscous adaptation in Escherichia coli

Author

Hoogerland, Loles, van den Berg, Stefan Pieter Hendrik, Suo, Yixing, Moriuchi, Yuta W, Zoumaro-Djayoon, Adja, Geurken, Esther, Yang, Flora, Bruggeman, Frank, Burkart, Michael D, and Bokinsky, Gregory

Subjects

Biological Sciences, Industrial Biotechnology, Escherichia coli, Membrane Fluidity, Temperature, Escherichia coli Proteins, Fatty Acids, Adaptation, Physiological, Feedback, Physiological, Phospholipids, Gene Expression Regulation, Bacterial, Transcription, Genetic, Cell Membrane

Abstract

All free-living microorganisms homeostatically maintain the fluidity of their membranes by adapting lipid composition to environmental temperatures. Here, we quantify enzymes and metabolic intermediates of the Escherichia coli fatty acid and phospholipid synthesis pathways, to describe how this organism measures temperature and restores optimal membrane fluidity within a single generation after a temperature shock. A first element of this regulatory system is a temperature-sensitive metabolic valve that allocates flux between the saturated and unsaturated fatty acid synthesis pathways via the branchpoint enzymes FabI and FabB. A second element is a transcription-based negative feedback loop that counteracts the temperature-sensitive valve. The combination of these elements accelerates membrane adaptation by causing a transient overshoot in the synthesis of saturated or unsaturated fatty acids following temperature shocks. This strategy is comparable to increasing the temperature of a water bath by adding water that is excessively hot rather than adding water at the desired temperature. These properties are captured in a mathematical model, which we use to show how hard-wired parameters calibrate the system to generate membrane compositions that maintain constant fluidity across temperatures. We hypothesize that core features of the E. coli system will prove to be ubiquitous features of homeoviscous adaptation systems.

Published

2024

28. A Plug-and-Play Method for Rare Human-Object Interactions Detection by Bridging Domain Gap

Author

Zhang, Lijun, Suo, Wei, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Human-object interactions (HOI) detection aims at capturing human-object pairs in images and corresponding actions. It is an important step toward high-level visual reasoning and scene understanding. However, due to the natural bias from the real world, existing methods mostly struggle with rare human-object pairs and lead to sub-optimal results. Recently, with the development of the generative model, a straightforward approach is to construct a more balanced dataset based on a group of supplementary samples. Unfortunately, there is a significant domain gap between the generated data and the original data, and simply merging the generated images into the original dataset cannot significantly boost the performance. To alleviate the above problem, we present a novel model-agnostic framework called \textbf{C}ontext-\textbf{E}nhanced \textbf{F}eature \textbf{A}lignment (CEFA) module, which can effectively align the generated data with the original data at the feature level and bridge the domain gap. Specifically, CEFA consists of a feature alignment module and a context enhancement module. On one hand, considering the crucial role of human-object pairs information in HOI tasks, the feature alignment module aligns the human-object pairs by aggregating instance information. On the other hand, to mitigate the issue of losing important context information caused by the traditional discriminator-style alignment method, we employ a context-enhanced image reconstruction module to improve the model's learning ability of contextual cues. Extensive experiments have shown that our method can serve as a plug-and-play module to improve the detection performance of HOI models on rare categories\footnote{https://github.com/LijunZhang01/CEFA}.

Published

2024

29. Overview of AI-Debater 2023: The Challenges of Argument Generation Tasks

Author

Lin, Jiayu, Chen, Guanrong, Jin, Bojun, Li, Chenyang, Jia, Shutong, Lin, Wancong, Sun, Yang, He, Yuhang, Yang, Caihua, Bao, Jianzhu, Wu, Jipeng, Su, Wen, Chen, Jinglu, Li, Xinyi, Chen, Tianyu, Han, Mingjie, Du, Shuaiwen, Wang, Zijian, Li, Jiyin, Suo, Fuzhong, Wang, Hao, Lin, Nuanchen, Huang, Xuanjing, Jiang, Changjian, Xu, RuiFeng, Zhang, Long, Cao, Jiuxin, Jin, Ting, and Wei, Zhongyu

Subjects

Computer Science - Computation and Language

Abstract

In this paper we present the results of the AI-Debater 2023 Challenge held by the Chinese Conference on Affect Computing (CCAC 2023), and introduce the related datasets. We organize two tracks to handle the argumentative generation tasks in different scenarios, namely, Counter-Argument Generation (Track 1) and Claim-based Argument Generation (Track 2). Each track is equipped with its distinct dataset and baseline model respectively. In total, 32 competing teams register for the challenge, from which we received 11 successful submissions. In this paper, we will present the results of the challenge and a summary of the systems, highlighting commonalities and innovations among participating systems. Datasets and baseline models of the AI-Debater 2023 Challenge have been already released and can be accessed through the official website of the challenge.

Published

2024

30. Visual Prompt Selection for In-Context Learning Segmentation

Author

Suo, Wei, Lai, Lanqing, Sun, Mengyang, Zhang, Hanwang, Wang, Peng, and Zhang, Yanning

Subjects

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

Abstract

As a fundamental and extensively studied task in computer vision, image segmentation aims to locate and identify different semantic concepts at the pixel level. Recently, inspired by In-Context Learning (ICL), several generalist segmentation frameworks have been proposed, providing a promising paradigm for segmenting specific objects. However, existing works mostly ignore the value of visual prompts or simply apply similarity sorting to select contextual examples. In this paper, we focus on rethinking and improving the example selection strategy. By comprehensive comparisons, we first demonstrate that ICL-based segmentation models are sensitive to different contexts. Furthermore, empirical evidence indicates that the diversity of contextual prompts plays a crucial role in guiding segmentation. Based on the above insights, we propose a new stepwise context search method. Different from previous works, we construct a small yet rich candidate pool and adaptively search the well-matched contexts. More importantly, this method effectively reduces the annotation cost by compacting the search space. Extensive experiments show that our method is an effective strategy for selecting examples and enhancing segmentation performance., Comment: Accept by ECCV2024

Published

2024

31. An Outline of Prognostics and Health Management Large Model: Concepts, Paradigms, and Challenges

Author

Tao, Laifa, Li, Shangyu, Liu, Haifei, Huang, Qixuan, Ma, Liang, Ning, Guoao, Chen, Yiling, Wu, Yunlong, Li, Bin, Zhang, Weiwei, Zhao, Zhengduo, Zhan, Wenchao, Cao, Wenyan, Wang, Chao, Liu, Hongmei, Ma, Jian, Suo, Mingliang, Cheng, Yujie, Ding, Yu, Song, Dengwei, and Lu, Chen

Subjects

Computer Science - Artificial Intelligence, Computer Science - Software Engineering, Electrical Engineering and Systems Science - Signal Processing, Electrical Engineering and Systems Science - Systems and Control

Abstract

Prognosis and Health Management (PHM), critical for ensuring task completion by complex systems and preventing unexpected failures, is widely adopted in aerospace, manufacturing, maritime, rail, energy, etc. However, PHM's development is constrained by bottlenecks like generalization, interpretation and verification abilities. Presently, generative artificial intelligence (AI), represented by Large Model, heralds a technological revolution with the potential to fundamentally reshape traditional technological fields and human production methods. Its capabilities, including strong generalization, reasoning, and generative attributes, present opportunities to address PHM's bottlenecks. To this end, based on a systematic analysis of the current challenges and bottlenecks in PHM, as well as the research status and advantages of Large Model, we propose a novel concept and three progressive paradigms of Prognosis and Health Management Large Model (PHM-LM) through the integration of the Large Model with PHM. Subsequently, we provide feasible technical approaches for PHM-LM to bolster PHM's core capabilities within the framework of the three paradigms. Moreover, to address core issues confronting PHM, we discuss a series of technical challenges of PHM-LM throughout the entire process of construction and application. This comprehensive effort offers a holistic PHM-LM technical framework, and provides avenues for new PHM technologies, methodologies, tools, platforms and applications, which also potentially innovates design, research & development, verification and application mode of PHM. And furthermore, a new generation of PHM with AI will also capably be realized, i.e., from custom to generalized, from discriminative to generative, and from theoretical conditions to practical applications.

Published

2024

32. Inverse scattering transform for the defocusing-defocusing coupled Hirota equations with non-zero boundary conditions: double-pole solutions

Author

Han, Peng-Fei, Ma, Wen-Xiu, Ye, Ru-Suo, and Zhang, Yi

Subjects

Nonlinear Sciences - Exactly Solvable and Integrable Systems

Abstract

The inverse scattering transform for the defocusing-defocusing coupled Hirota equations with non-zero boundary conditions at infinity is thoroughly discussed. We delve into the analytical properties of the Jost eigenfunctions and scrutinize the characteristics of the scattering coefficients. To enhance our investigation of the fundamental eigenfunctions, we have derived additional auxiliary eigenfunctions with the help of the adjoint problem. Two symmetry conditions are studied to constrain the behavior of the eigenfunctions and scattering coefficients. Utilizing these symmetries, we precisely delineate the discrete spectrum and establish the associated symmetries of the scattering data. By framing the inverse problem within the context of the Riemann-Hilbert problem, we develop suitable jump conditions to express the eigenfunctions. Consequently, we deduce the pure soliton solutions from the defocusing-defocusing coupled Hirota equations, and the double-poles solutions are provided explicitly for the first time in this work.

Published

2024

33. The Database and Benchmark for the Source Speaker Tracing Challenge 2024

Author

Li, Ze, Lin, Yuke, Yao, Tian, Suo, Hongbin, Zhang, Pengyuan, Ren, Yanzhen, Cai, Zexin, Nishizaki, Hiromitsu, and Li, Ming

Subjects

Electrical Engineering and Systems Science - Audio and Speech Processing

Abstract

Voice conversion (VC) systems can transform audio to mimic another speaker's voice, thereby attacking speaker verification (SV) systems. However, ongoing studies on source speaker verification (SSV) are hindered by limited data availability and methodological constraints. This paper presents the Source Speaker Tracking Challenge (SSTC) on STL 2024, which aims to fill the gap in the database and benchmark for the SSV task. In this study, we generate a large-scale converted speech database with 16 common VC methods and train a batch of baseline systems based on the MFA-Conformer architecture. In addition, we introduced a related task called conversion method recognition, with the aim of assisting the SSV task. We expect SSTC to be a platform for advancing the development of the SSV task and provide further insights into the performance and limitations of current SV systems against VC attacks. Further details about SSTC can be found in https://sstc-challenge.github.io/.

Published

2024

34. C$^3$P-VoxelMap: Compact, Cumulative and Coalescible Probabilistic Voxel Mapping

Author

Yang, Xu, Li, Wenhao, Ge, Qijie, Suo, Lulu, Tang, Weijie, Wei, Zhengyu, Huang, Longxiang, and Wang, Bo

Subjects

Computer Science - Robotics

Abstract

This work presents a compact, cumulative and coalescible probabilistic voxel mapping method to enhance performance, accuracy and memory efficiency in LiDAR odometry. Probabilistic voxel mapping requires storing past point clouds and re-iterating on them to update the uncertainty every iteration, which consumes large memory space and CPU cycles. To solve this problem, we propose a two-folded strategy. First, we introduce a compact point-free representation for probabilistic voxels and derive a cumulative update of the planar uncertainty without caching original point clouds. Our voxel structure only keeps track of a predetermined set of statistics for points that lie inside it. This method reduces the runtime complexity from $O(MN)$ to $O(N)$ and the space complexity from $O(N)$ to $O(1)$ where $M$ is the number of iterations and $N$ is the number of points. Second, to further minimize memory usage and enhance mapping accuracy, we provide a strategy to dynamically merge voxels associated with the same physical planes by taking advantage of the geometric features in the real world. Rather than scanning for these coalescible voxels constantly at every iteration, our merging strategy accumulates voxels in a locality-sensitive hash and triggers merging lazily. On-demand merging not only reduces memory footprint with minimal computational overhead but also improves localization accuracy thanks to cross-voxel denoising. Experiments exhibit 20% higher accuracy, 20% faster performance and 70% lower memory consumption than the state-of-the-art.

Published

2024

35. Global $L^p$ estimate for some kind of Kolmogorov-Fokker-Planck Equations in nondivergence form

Author

Suo, Liyuan

Subjects

Mathematics - Analysis of PDEs, 35K70, 35H10

Abstract

In this paper, we mainly investigate a class of Kolmogorov-Fokker-Planck operator with 4 different scalings in nondivergence form. And we assume the coefficients $a^{ij}$ are only measurable in $t$ and satisfy the vanishing mean oscillation in space variables. We establish a global priori estimates of $\nabla_x^u$, $\dy u$ and $\dz u$ in $L^p$ space which extend the work of Dong and Yastrzhembskiy \cite{ref49} where they focus on the 3 different scalings KFP operator. Moreover we establish a kind of Poincare inequality for homogeneous equations., Comment: 57 pages

Published

2024

36. Correction for the Weakening Magnetic Field within the Sunspot Umbra Observed by ASO-S/FMG

Author

Xu, Haiqing, Su, Jiangtao, Liu, Suo, Deng, Yuanyong, Bai, Xianyong, Chen, Jie, Wang, Xiaofan, Yang, Xiao, and Song, Yongliang

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

The magnetic field inside the sunspot umbra, as observed by the Full-disk MagnetoGraph (FMG) onboard the Advanced Space based Solar Observatory (ASO-S), was found to be experiencing a weakening. To address this issue, we employed a method developed by Xu et al. (2021) to correct the weakening in the data of 20 active regions observed by FMG during the period spanning December 29, 2022, to July 23, 2023. Research has revealed that the onset of magnetic field weakening occurs at a minimum magnetic field strength of 705 G, with the peak strength reaching up to 1931 G. We computed the change ratio (R1) of the unsigned magnetic flux within the sunspot umbra, considering measurements both before and after correction. The change ratio (R1) spans from 26% to 124%, indicating a significant increase in the unsigned magnetic flux within sunspot umbrae observed by FMG after correction. To illustrate this, we selected four active regions for comparison with data from the Helioseismic and Magnetic Imager (HMI). After correction, it is found that the unsigned magnetic flux in sunspot umbrae measured by FMG aligns more closely with that of HMI. This supports the effectiveness of the corrective method for FMG, despite imperfections, particularly at the umbra-penumbra boundary., Comment: 12 pages, 5 figures

Published

2024

37. UniCompress: Enhancing Multi-Data Medical Image Compression with Knowledge Distillation

Author

Yang, Runzhao, Chen, Yinda, Zhang, Zhihong, Liu, Xiaoyu, Li, Zongren, He, Kunlun, Xiong, Zhiwei, Suo, Jinli, and Dai, Qionghai

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

In the field of medical image compression, Implicit Neural Representation (INR) networks have shown remarkable versatility due to their flexible compression ratios, yet they are constrained by a one-to-one fitting approach that results in lengthy encoding times. Our novel method, ``\textbf{UniCompress}'', innovatively extends the compression capabilities of INR by being the first to compress multiple medical data blocks using a single INR network. By employing wavelet transforms and quantization, we introduce a codebook containing frequency domain information as a prior input to the INR network. This enhances the representational power of INR and provides distinctive conditioning for different image blocks. Furthermore, our research introduces a new technique for the knowledge distillation of implicit representations, simplifying complex model knowledge into more manageable formats to improve compression ratios. Extensive testing on CT and electron microscopy (EM) datasets has demonstrated that UniCompress outperforms traditional INR methods and commercial compression solutions like HEVC, especially in complex and high compression scenarios. Notably, compared to existing INR techniques, UniCompress achieves a 4$\sim$5 times increase in compression speed, marking a significant advancement in the field of medical image compression. Codes will be publicly available.

Published

2024

38. C3L: Content Correlated Vision-Language Instruction Tuning Data Generation via Contrastive Learning

Author

Ma, Ji, Suo, Wei, Wang, Peng, and Zhang, Yanning

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Vision-Language Instruction Tuning (VLIT) is a critical training phase for Large Vision-Language Models (LVLMs). With the improving capabilities of open-source LVLMs, researchers have increasingly turned to generate VLIT data by using open-source LVLMs and achieved significant progress. However, such data generation approaches are bottlenecked by the following challenges: 1) Since multi-modal models tend to be influenced by prior language knowledge, directly using LVLMs to generate VLIT data would inevitably lead to low content relevance between generated data and images. 2) To improve the ability of the models to generate VLIT data, previous methods have incorporated an additional training phase to boost the generative capacity. This process hurts the generalization of the models to unseen inputs (i.e., "exposure bias" problem). In this paper, we propose a new Content Correlated VLIT data generation via Contrastive Learning (C3L). Specifically, we design a new content relevance module which enhances the content relevance between VLIT data and images by computing Image Instruction Correspondence Scores S(I2C). Moreover, a contrastive learning module is introduced to further boost the VLIT data generation capability of the LVLMs. A large number of automatic measures on four benchmarks show the effectiveness of our method., Comment: Accepted by IJCAI-24

Published

2024

39. Observation of a large-scale filament eruption initiated by two small-scale erupting filaments pushing out from below

Author

Song, Yongliang, Su, Jiangtao, Zhang, Qingmin, Zhang, Mei, Deng, Yuanyong, Bai, Xianyong, Liu, Suo, Yang, Xiao, Chen, Jie, Xu, Haiqing, Ji, Kaifan, and Hu, Ziyao

Subjects

Astrophysics - Solar and Stellar Astrophysics

Abstract

Filament eruptions often result in flares and coronal mass ejections (CMEs). Most studies attribute the filament eruptions to their instabilities or magnetic reconnection. In this study, we report a unique observation of a filament eruption whose initiation process has not been reported before. This large-scale filament, with a length of about 360 Mm crossing an active region, is forced to erupted by two small-scale erupting filaments pushing out from below. This process of multi-filament eruption results in an M6.4 flare in the active region NOAA 13229 on 25th February 2023. The whole process can be divided into three stages: the eruptions of two active-region filaments F1 and F2; the interactions between the erupting F1, F2, and the large-scale filament F3; and the eruption of F3. Though this multi-filament eruption occurs near the northwest limb of the solar disk, it produces a strong halo CME that causes a significant geomagnetic disturbance. Our observations present a new filament eruption mechanism, in which the initial kinetic energy of the eruption is obtained from and transported to by other erupting structures. This event provides us a unique insight into the dynamics of multi-filament eruptions and their corresponding effects on the interplanetary space., Comment: 16 pages, 10 figures. Accepted for publication in Solar Physics

Published

2024

40. Efficacy and safety of olverembatinib as maintenance therapy after allogeneic hematopoietic cell transplantation in Philadelphia chromosome–positive acute lymphoblastic leukemia

Author

Kong, Jun, Zheng, Feng-Mei, Yan, Chen-Hua, Wang, Jing-Zhi, Fu, Hai-Xia, Wang, Zhi-Dong, Suo, Pan, Hu, Guan-Hua, Lv, Meng, Chen, Huan, Mo, Xiao-Dong, Xu, Lan-Ping, Zhang, Xiao-Hui, Huang, Xiao-Jun, and Wang, Yu

Published

2025

41. Acne vulgaris: advances in pathogenesis and prevention strategies

Author

Xu, Weiping, Xu, Jiahui, Huang, Dandan, Wang, Chen, Song, Jiajia, Chen, Xiaoyong, and Suo, Huayi

Published

2025

42. Enhancing anion conductivity in a highly alkali-stable eta topologic Cu(I) framework via strong electrostatic repulsion

Author

Wang, Xiao-Lu, Guo, Shaohui, Suo, Chao, Zhang, Fu-Qiang, Wang, Jun-Hao, Wang, Wenjing, Yuan, Daqiang, Liang, Linfeng, and Zhang, Xian-Ming

Published

2025

43. Tenascin-C promotes bone regeneration via inflammatory macrophages

Author

Ren, Qian, Xing, Wenhui, Jiang, Bo, Feng, Heng, Hu, Xuye, Suo, Jinlong, Wang, Lijun, and Zou, Weiguo

Published

2025

44. Synthesis of three-dimensional covalent organic frameworks through a symmetry reduction strategy

Author

Chang, Jianhong, Zhang, Zeyue, Zheng, Haorui, Li, Hui, Suo, Jinquan, Ji, Chunqing, Chen, Fenqian, Zhang, Shipeng, Wang, Zitao, Valtchev, Valentin, Qiu, Shilun, Sun, Junliang, and Fang, Qianrong

Published

2025

45. Investigation on the mechanism of the load transfer behavior in particle-reinforced metal matrix composites

Author

Suo, Yongyong, Liu, Qianli, Yin, Yanchao, Lv, Yifan, Wang, Bo, and Zhao, Xiaoming

Published

2025

46. Gene-level alignment of single-cell trajectories

Author

Sumanaweera, Dinithi, Suo, Chenqu, Cujba, Ana-Maria, Muraro, Daniele, Dann, Emma, Polanski, Krzysztof, Steemers, Alexander S., Lee, Woochan, Oliver, Amanda J., Park, Jong-Eun, Meyer, Kerstin B., Dumitrascu, Bianca, and Teichmann, Sarah A.

Published

2025

47. Aristolochic acids-hijacked p53 promotes liver cancer cell growth by inhibiting ferroptosis

Author

Hou, Chun-yu, Suo, Yu-hong, Lv, Pan, Yuan, Hong-feng, Zhao, Li-na, Wang, Yu-fei, Zhang, Hui-hui, Sun, Jiao, Sun, Lin-lin, Lu, Wei, Zhang, Ning-ning, Yang, Guang, and Zhang, Xiao-dong

Published

2025

48. Primary angle-closed diseases recognition through artificial intelligence-based anterior segment-optical coherence tomography imaging

Author

Yao, Haipei, Wang, Xiaolei, Suo, Yan, He, Jiangnan, Chu, Chen, Yang, Zhuozhen, Xu, Qiuzhuo, Zhou, Jian, Zhu, Mingqian, Sun, Xinghuai, and Ge, Ling

Published

2024

49. Facile Synthesis of a Novel, Low Fabric Damage and Cost-Effective Bleach Catalyst for Cotton Fabric: 1,4-Dimethylpiperazine Manganese Complex

Author

Hua, Guanqin, Xu, Jiahao, Zhang, Zhiguo, and Suo, Yange

Published

2024

50. Evaluation of fibroinflammatory activity in thyroid eye disease using [18F]AlF-NOTA-FAPI-04 PET/CT: A prospective study

Author

Li, Hui, Wang, Yi, Zhou, Jichao, You, Debo, Song, Le, Wang, Meng, Zhao, Meixin, Zhang, Chun, Zhang, Yinghong, Lin, Yansong, Wu, Huanwen, Liu, Zhaofei, Wang, Ningli, Zhang, Weifang, and Suo, Lingge

Published

2024