Your search keyword '"Liu Xinyu"' showing total 4,389 results

1. Formation and catastrophic evolution of giant landslides in the alpine canyon area of western China

Author

ZHANG Shishu, HU Xinli, ZHANG Guangcheng, LI Yabo, LIU Xinyu, XU Qingyao, RAN Congyan, and ZHAO Xiaoping

Subjects

the alpine canyon area of western china, reservoir landslide, formation law, landslide types, evolution mechanism, failure mechanism, Geology, QE1-996.5

Abstract

Objective Most hydroelectric projects in western China are located in alpine canyons. The intricate geological engineering conditions in this area have contributed to the widespread distribution of landslide disasters across the reservoir banks of hydroelectric projects. Methods Based on the engineering geological characteristics of western alpine canyons, correlations between topography, geological structure, landslide material, slope structure, hydrogeological conditions, and the formation and progression of landslides were analyzed. We also delineated the types and features of landslide development in the western region, as well as the mechanisms governing the evolution of typical landslide disasters. Results Results indicate that the landslides were characterized by slopes ranging from 30° to 50°, elevations exceeding 1000 m, and volumes surpassing one million cubic meters. Triassic, Ordovician, and Silurian strata were identified as the principal slippery strata in this area. Rainfall and reservoir impoundment significantly influenced landslide stability, leading to erosion, datum uplift, and range expansion. Water level fluctuations resulted in diminished rock and soil properties along the leading edge of advancing landslides. Conclusion The most frequent landslides in the western alpine region included accumulated landslides dominated by traction, thrust, and composite mechanisms and rock landslides dominated by bedding, buckling, anti-dip, and seating mechanisms. Significance This study elucidates landslide disaster mechanisms under varying evolutionary and mechanical failure processes, providing significant guidance for the identification, monitoring, early warning, and prevention of landslide disasters in the western region.

Published

2024

2. Efficient generation of octave-separating orbital angular momentum beams via forked grating array in lithium niobite crystal

Author

Liu Xinyu, Wei Dan, Chang Chun, Liu Dingwei, Li Juntao, and Wei Dunzhao

Subjects

orbital angular momentum of light, second harmonic waves, quasi-phase matching, bragg diffraction, lithium niobate, Physics, QC1-999

Abstract

The concept of orbital angular momentum (OAM) of light has not only advanced fundamental physics research but also yielded a plethora of practical applications, benefitting from the abundant methods for OAM generation based on linear, nonlinear and combined schemes. The combined scheme could generate octave-separating OAM beams, potentially increasing the channels for optical communication and data storage. However, this scheme faces a challenge in achieving high conversion efficiency. In this work, we have demonstrated the generation of multiple OAM beams at both fundamental frequency and second harmonic (SH) wavelengths using a three-dimensional forked grating array with both spatial χ (1) and χ (2) distributions in a lithium niobate nonlinear photonic crystal platform. The enhancements of the fundamental and SH OAM beams have been achieved by employing linear Bragg diffraction and nonlinear Bragg diffraction, respectively, i.e., quasi-phase matching. The experimental results show that OAM beams with variable topological charges can be enhanced at different diffraction orders via wavelength or angle tuning, achieving conversion efficiencies of 60.45 % for the linear OAM beams and 1.08 × 10−4 W−1 for the nonlinear ones. This work provides a promising approach for parallel detection of OAM states in optical communications, and extends beyond OAM towards the control of structured light via cascaded linear and nonlinear processes.

Published

2024

3. Development of Underwater Wireless Communication Equipment Technology

Author

Liu Xinyu, Zhou Heng, Ge Xiyun, and Jiao Huifeng

Subjects

underwater wireless communication, underwater acoustic communication, underwater optical communication, underwater electromagnetic communication, underwater magnetic induction communication, equipment system, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Underwater wireless communication (UWC) equipment facilitates information transmission and data exchange in underwater environments, playing vital roles in marine scientific research, underwater network monitoring, underwater collaborative operation, and marine safety maintenance. This study explores four primary UWC equipment categories: underwater acoustic communication, underwater optical communication, underwater electromagnetic communication, and underwater magnetic induction communication. It conducts in-depth analyses of the technical challenges associated with each category, comprehensively reviews their development status in China and abroad, and forecasts future trends. Focusing on the UWC industry of China, we summarize the development challenges in terms of overarching gaps, common issues, and top-level system, and propose the following development suggestions: (1) improving fundamental mechanisms and addressing common issues, (2) prioritizing breakthroughs in industry core areas, (3) elucidating the top-level system structure of the UWC equipment, and (4) enhancing safeguard measures and support policies. This study is expected to provide references for understanding the developmental trend and promoting the research and application of the UWC equipment.

Published

2024

4. Development Strategy of Deep-Sea Exploration and Residence Equipment

Author

Zhou Heng, Liu Xinyu, Jiao Huifeng, Ni Tian, Zhao Yiyu, and Wei Huan

Subjects

deep sea, exploration and residence, perception and detection, operation platform, sensor, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Deep-sea exploration and residence equipment is an important basis for the development of marine science. In recent years, China’s independent research and development of related equipment has made good progress; however, some technical problems still exist in the process of localization. It is urgent to overcome these problems and promote China’s capabilities for constructing a “transparent ocean”. This study analyzes the development demand for deep-sea exploration and residence equipment and summarizes the development status and problems of the equipment by focusing on six key areas: general equipment for deepsea perception and detection; general platforms for deep-sea carrier detection; deep-sea multi-functional operation platforms; deepsea communication, navigation, and positioning equipment; general tools for deep-sea operation; and intelligent control systems for deep-sea manned and unmanned equipment. Moreover, the study proposes the key development direction of the deep-sea exploration and residence equipment in China, covering nine key technologies: exploration equipment energy supply, design and optimization of equipment systems, power systems with a high power density, in-situ experimental research and development, livability and emergency rescue of manned equipment, underwater dynamic networked positioning, underwater acoustic–optical multi-mode hybrid communication networks, human–machine hybrid decision-making and collaborative control, and evaluation and optimization of human–computer interaction effectiveness. On this basis, it is necessary to accelerate the construction of key marine areas while adhering to scientific development, promote infrastructure co-construction and information sharing through overall planning and intensive development, and encourage the innovation-driven and sustainable development of new technologies and equipment, thus to promote the high-quality development of the deep-sea exploration and residence equipment in China.

Published

2024

5. Impact of calcium and magnesium concentration on irrigator clogging in drip fertigation using brackish water and humic acid fertilizer

Author

HE Xin, LIU Xinyu, ZHOU Long, ZHAO Xiao, LIU Peng, SU Yanping, ZHOU Zhu, and LI Wei

Subjects

brackish water, calcium and magnesium ions, clogged irrigators, humic acid fertilizer, Agriculture (General), S1-972, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

【Objective】 Drip fertigation is an irrigation technique increasingly used to simultaneously irrigate and fertilize crops grown in different environments. However, calcium and magnesium in the water could react chemically to precipitate, clogging the irrigator as a result. In this paper, we experimentally study the impact of calcium and magnesium concentration on irrigator clogging in drip fertigation using brackish water and humic acid fertilizer. 【Method】 In this experiment, four types of irrigators (FE1, FE2, FE3, FE4) with different rated flow rates (1.6, 1.1, 1.4, 1.75 L/h) were selected, in which three groups of brackish water treatments with calcium ion mass concentration, with ion mass concentrations of 100, 150 and 200 mg/L (G1, G2, G3), and three groups of brackish water treatments with magnesium ion mass concentration, with ion mass concentrations of 100, 150 and 200 mg/L (M1, M2, M3). In each treatment, fertigation using local groundwater was taken as the control (CK), we measured the average flow rate in the irrigator (Dra), clogging distribution in the irrigator, the dry mass of clogging materials (DW), and mineral fraction of the clogging materials in the irrigator. 【Result】 Compared to CK, fertigation using water with elaborated Ca2+ and Mg2+ concentration and humic acid fertilizer increased Dra by 21.58% to 56.75%, and DW by 67.14% to 270.09%, respectively, with the increase depending on dripping rate and Ca2+ and Mg2+ concentration. When Ca2+ and Mg2+concentration was the same, increasing dripping rate reduced DW by 4.77% to 27.26%, with the reduction depending on Ca2+ and Mg2+ concentration. 【Conclusion】 Increasing calcium and magnesium concentration in the fertigation water significantly increased irrigator clogging. When calcium and magnesium concentration was the same, an increase in magnesium concentration significantly reduced the mass of clogged materials due to the reduced carbonate. Thus, increasing magnesium ion can ameliorate irrigator clogging and reduce the risk of irrigator blockage.

Published

2024

6. Human emotion recognition with a microcomb-enabled integrated optical neural network

Author

Cheng Junwei, Xie Yanzhao, Liu Yu, Song Junjie, Liu Xinyu, He Zhenming, Zhang Wenkai, Han Xinjie, Zhou Hailong, Zhou Ke, Zhou Heng, Dong Jianji, and Zhang Xinliang

Subjects

integrated optics, optical computing, optical neural network, optical frequency comb, human emotion recognition, Physics, QC1-999

Abstract

State-of-the-art deep learning models can converse and interact with humans by understanding their emotions, but the exponential increase in model parameters has triggered an unprecedented demand for fast and low-power computing. Here, we propose a microcomb-enabled integrated optical neural network (MIONN) to perform the intelligent task of human emotion recognition at the speed of light and with low power consumption. Large-scale tensor data can be independently encoded in dozens of frequency channels generated by the on-chip microcomb and computed in parallel when flowing through the microring weight bank. To validate the proposed MIONN, we fabricated proof-of-concept chips and a prototype photonic-electronic artificial intelligence (AI) computing engine with a potential throughput up to 51.2 TOPS (tera-operations per second). We developed automatic feedback control procedures to ensure the stability and 8 bits weighting precision of the MIONN. The MIONN has successfully recognized six basic human emotions, and achieved 78.5 % accuracy on the blind test set. The proposed MIONN provides a high-speed and energy-efficient neuromorphic computing hardware for deep learning models with emotional interaction capabilities.

Published

2023

7. An Adaptive Additional Control Strategy for Suppressing Low-Frequency Grid Oscillations in Doubly-Fed Wind Farms

Author

LIU Xinyu, WANG Sen, ZENG Long, YUAN Shaoheng, HAO Zhenghang, LU Xinyan

Subjects

doubly-fed wind turbines (dfig), frequency stability, low-frequency oscillation, lyapunov stability, sliding mode control, Engineering (General). Civil engineering (General), TA1-2040, Chemical engineering, TP155-156, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

Aiming at the problem of weakly or negatively damped low-frequency oscillations caused by cross-zone transmission of electricity from large wind farms, this paper proposes a fast terminal sliding-mode additional damping controller based on the Lyapunov stability theory. By investigating the flexible power regulation characteristics and the capability of dynamic frequency response to damping regulation of doubly-fed wind turbines (DFIG), a rotor magnetic chain controller is designed according to the relationship between the applied voltage and magnetic chain of DFIG rotor and the sliding mode variable structure control method. When low-frequency oscillations occur in the system, the desired magnetic chain value will deviate from the actual magnetic chain value. The additional damping controller outputs an adaptive control signal for the rotor-side power control link to increase the active output of the wind farm and suppress low-frequency oscillations in the system. A simulation model of the wind power grid-connected system is established in MATLAB/Simulink for off-line simulations, and a real-time simulation experiment of a large wind farm cross-zone transmission model based on real time digital simulation system is conducted. The results of both off-line and real-time simulations show that when low-frequency oscillations occur in the system, the proposed control method can quickly regulate the active power emitted by the DFIG and enhance the damping level of the system, which is effective in suppressing low-frequency oscillations in the system.

Published

2023

8. Basic psychological needs satisfaction and smartphone addiction among high school students： the mediating role of loneliness and social anxiety

Author

Qiu Junlin, Wu Junlin, Huang Yanqing, Song Yingxu, Yang Xue, He Liping, Liu Xinyu, Gu Wan, and Huang Guoping

Subjects

basic psychological needs satisfaction, smartphone addiction, loneliness, social anxiety, high school students, Psychology, BF1-990, Psychiatry, RC435-571

Abstract

ObjectiveTo investigate the mediating role of loneliness and social anxiety in the relationship between basic psychological needs satisfaction and smartphone addiction among high school students， and to provide references for the intervention to smartphone addiction for high school students.MethodsIn April 2022， a total of 14 666 high school students from 5 middle schools in a county of Sichuan Province were included by random sampling method. Basic Psychological Needs Scales （BPNS）， the UCLA Loneliness Scale-3 edition （UCLA-3）， Interaction Anxiousness Scale （IAS） and the Mobile Phone Addiction Index （MPAI） were used for cross-sectional investigation. Bootstrap method was used to analyze the mediating role of loneliness and social anxiety in the relationship between the basic psychological needs satisfaction and smartphone addiction.Results① In this study， 14 036 valid questionnaires were returned， and 1 752 （12.48%， 95% CI： 0.114~0.136） high school students were found to be addicted to smartphone phone. The BPNS score was negatively correlated with UCLA-3， IAS and MPAI scores （r=-0.771， -0.486， -0.417， P

Published

2023

9. Identification of a novel necroptosis-associated miRNA signature for predicting the prognosis in head and neck squamous cell carcinoma

Author

Guan Jiezhong, Liu Xinyu, Wang Kang, Jia Yiqun, and Yang Bo

Subjects

head and neck cancer, necroptosis, prognostic markers, bioinformatics, microrna, Medicine

Abstract

Head and neck squamous cell carcinoma (HNSCC) is one of the most aggressive malignancies that have a poor prognosis. Necroptosis has been demonstrated in recent years to be a form of inflammatory cell death occurring in multicellular organism, which plays complex roles in cancer. However, the expression of necroptosis-related miRNAs and genes in HNSCC and their correlations with prognosis remain unclear. In this study, R software was used to screen differentially expressed miRNAs downloaded from The Cancer Genome Atlas. A prognostic model containing six necroptosis-related miRNAs (miR-141-3p, miR-148a-3p, miR-331-3p, miR-543, miR-425-5p, and miR-7-5p) was generated, whose risk score was validated as an independent prognostic factor for HNSCC. Target genes of the key miRNAs were obtained from TargetScan, miRDB, and miRTarBase, and 193 genes in the intersection of the three databases were defined as consensus genes. Kyoto Encyclopedia of Genes and Genomes and Gene Ontology analyses indicated that the composition of the tumor microenvironment as well as specific pathways may be closely related to necroptosis in HNSCC. Nine key genes were also obtained by the MCODE and cytoHubba plug-ins of Cytoscape: PIK3CD, NRAS, PTK2, IRS2, IRS1, PARP1, KLF4, SMAD2, and DNMT1. A prognostic model formed by the key gene was also established, which can efficiently predict the overall survival of HNSCC patients. In conclusion, necroptosis-related miRNAs and genes play important roles in tumor development and metastasis and can be used to predict the prognosis of HNSCC.

Published

2022

10. Research on Rapid Parameterized Modeling of CityEngine in the Application of Smart Campus Platform

Author

Liu Xinyu

Subjects

Environmental sciences, GE1-350

Abstract

Currently, government departments in various regions are vigorously promoting the construction of smart cities. As a part of smart cities, quickly obtaining or creating three-dimensional spatial models of campuses is an important part of the basic framework of smart campus construction. Existing modeling methods have problems such as low modeling efficiency and difficult maintenance in the later stage. This article proposes a CGA (Computer Generated Architecture) parameterized 3D modeling method based on CityEngine, exploring the parameterized modeling rules of important modeling entities such as roads and buildings in university campuses. By expanding and customizing the modeling rules, campus road and building modeling rule templates are created. The results showed that the proposed method and texture mapping rules were used to achieve fast and accurate 3D scene modeling of the campus, avoiding a lot of repetitive modeling work and improving the efficiency of modeling work.

Published

2024

11. Methods for Addressing Pavement Defects Based on Digital Twin Technology--A Case Study of Snow and Water Accumulation on Road Surface

Author

Zhu Shaoxuan, Peng Boyao, Li Dian, Bai Yixuan, Liu Xinyu, and Li Yihao

Subjects

Environmental sciences, GE1-350

Abstract

This paper explores the utilization of digital twin technology for the management of urban road infrastructure challenges, specifically addressing issues related to snow and water accumulation. The study emphasizes the constraints associated with traditional road maintenance methods and proposes the implementation of a digital twin city framework to augment real-time monitoring and enhance emergency response efficiency. Through the integration of real-time data from sensors, traffic, and weather sources, the digital twin model replicates road conditions and forecasts potential issues, thereby enabling early warning systems. Furthermore, the research delves into the application of conductive asphalt concrete and superhydrophobic materials to mitigate road-related challenges. The results indicate that digital twin technology significantly enhances economic and operational efficiency in urban road infrastructure management when compared to conventional approaches.

Published

2024

12. Fabrication of functional polyester fibers by sputter deposition with stainless steel

Author

Chu Changliu, Liu Xinyu, Bian Yanxiao, Hu Chengwen, and Sun Yanyan

Subjects

magnetron sputtering, surface metallization, metallic film, commercial polyester fiber, multifunctional textiles, Polymers and polymer manufacture, TP1080-1185

Abstract

The effects of sputtering technological parameters (sputtering power, pressure, and time) on properties of stainless steel (SS)-sputtered polyester (PET) fiber were investigated. The variations in properties such as surface morphology, tensile strength, abrasion resistance, and electromagnetic shielding effectiveness of the prepared PET fiber sputtered under various parameters were discussed. The results indicated that the uniformity and denseness of the sputtered SS film were positively dependent upon the predetermined sputtering variables. The properties such as the breaking strength and abrasion resistance of SS-sputtered PET were remarkably enhanced as compared to the pristine one. It was found that the disorientation of macromolecules in fiber was mainly responsible for the deteriorated strength following wet and/or dry heating. In addition, a woven fabric composed of SS-sputtered fiber exhibited electromagnetic shielding capability. This research indicates that the metal deposition onto textile surfaces using magnetron sputtering is a straightforward approach for potential use in multifunctional materials.

Published

2022

13. Control Strategies for Suppressing Frequency Oscillation of Doubly-Fed Wind Farms Connected to Grid

Author

LIU Xinyu, LU Xinyan, ZENG Long, HAO Zhenghang, ZHAO Qifang, LI Xianwei, HAO Tongmeng

Subjects

doubly-fed induction generator, low-frequency oscillations, single neural proportion integration differentiation (pid) algorithm, additional damping control, Engineering (General). Civil engineering (General), TA1-2040, Chemical engineering, TP155-156, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

Aimed at the problem of low-frequency oscillations caused by cross-region power transmissioin of large-scale wind farms, a single neuron adaptive proportion integration differentiation (PID) additional damping control strategy for low-frequency oscillations of the damping system is proposed in this paper. By analyzing the dynamic frequency response characteristics of doubly-fed wind turbines, a wind farm damping system oscillation controller is constructed by introducing quadratic performance indicators into the single neuron adaptive PID control algorithm. By adaptively adjusting the excitation frequency converter, the wind farm can quickly generate active power and the maximum positive damping, and suppress the low-frequency oscillation of the damping system. MATLAB is used to build a four-machine two-region power system simulation model with a wind farm. The comparison verifies that the method proposed in this paper can effectively suppress the swing of the power angle of the synchronous generator when low-frequency oscillation occurs in the system, improve the inertial response of the system, and reduce the risk of low-frequency oscillation in the power grid.

Published

2022

14. Research progress on SiC irradiation temperature monitors for reactors

Author

LIU Xinyu, ZHANG Limin, NING Guangsheng, ZHONG Weihua, WANG Shenghong, and HE Anping

Subjects

sic monitor, neutron irradiation temperature, reactor parameter measurement, lattice swelling, electrical resistivity, Nuclear engineering. Atomic power, TK9001-9401

Abstract

Silicon carbide (SiC) crystal can be used as a passive monitor to measure the neutron irradiation temperature in nuclear reactors, which has significant application prospects for advanced reactors operating in high-temperature intense irradiation environments. Since the SiC temperature measurement technique was proposed in the 1960s, various temperature measurement methods have been developed on basis of neutron irradiation effects in the structural, thermal and electrical properties of SiC. These methods involve measuring changes in macro-size, density, thermal diffusivity or the electrical resistivity of SiC. This study summarizes the fundamental principles and characteristics of these methods firstly, then the research progress on SiC temperature measurement system required for advanced nuclear reactors at the China Institute of Atomic Energy (CIAE) is emphatically reported, and the measurement accuracy of SiC monitor is analyzed by calculating the lattice swelling rate of the neutron-irradiated SiC using a theoretical model, which verified the reliability of the temperature measurement results of the system. Finally, experimental methods for further improving measurement efficiency of SiC monitor are discussed.

Published

2023

15. Biocrust effects on soil infiltrability in the Mu Us Desert: Soil hydraulic properties analysis and modeling

Author

Guan Hongjie and Liu Xinyu

Subjects

cyanobacteria, lichen, moss, infiltration, inverse approach, hydraulic parameter, Hydraulic engineering, TC1-978

Abstract

The presence of biocrusts changes water infiltration in the Mu Us Desert. Knowledge of the hydraulic properties of biocrusts and parameterization of soil hydraulic properties are important to improve simulation of infiltration and soil water dynamics in vegetation-soil-water models. In this study, four treatments, including bare land with sporadic cyanobacterial biocrusts (BL), lichen-dominated biocrusts (LB), early-successional moss biocrusts (EMB), and late-successional moss biocrusts (LMB), were established to evaluate the effects of biocrust development on soil water infiltration in the Mu Us Desert, northwest of China. Moreover, a combined Wooding inverse approach was used for the estimation of soil hydraulic parameters. The results showed that infiltration rate followed the pattern BL > LB > EMB > LMB. Moreover, the LB, EMB, and LMB treatments had significantly lower infiltration rates than the BL treatment. The saturated soil moisture (θs) and shape parameter (αVG) for the EMB and LMB treatments were higher than that for the BL and LB treatments, although the difference among four treatments was insignificant. Water retention increased with biocrust development at high-pressure heads, whereas the opposite was observed at low-pressure heads. The development of biocrusts influences van Genuchten parameters, subsequently affects the water retention curve, and thereby alters available water in the biocrust layer. The findings regarding the parameterization of soil hydraulic properties have important implications for the simulation of eco-hydrological processes in dryland ecosystems.

Published

2021

16. Identification of LIG1 and LIG3 as prognostic biomarkers in breast cancer

Author

Sun Lin, Liu Xinyu, Song Siqi, Feng Lingjun, Shi Chunying, Sun Zhipeng, Chen Bo, and Hou Haiqing

Subjects

lig, breast cancer, biomarker, prognosis, Medicine

Abstract

DNA ligase (LIG) plays a key role in connecting the 3′-OH end of a DNA strand to the 5′-P end of another DNA strand, resulting in the formation of a phosphodiester bond. It has been reported that LIGs (including LIG1, LIG3 and LIG4) play important roles in the occurrence and progression of many cancers. However, the role of LIGs in breast cancer (BC) is still unclear. In this study, we aim to reveal the expression level, function, and prognostic value of LIGs in BC. Bioinformatic tools were used to study the expression level, potential function and prognostic value of LIG1 and LIG3 in BC patients. ENCORI was used to predict microRNAs (miRNAs) that regulate LIG1 and LIG3 and established a valuable miRNA–mRNA regulation network for BC. We found that the expression of LIG1 and LIG3 was upregulated in BC and predicted high relapse-free survival (RFS) in BC patients. Functional annotation analysis was performed to reveal the role of LIG1 and LIG3 in BC. In addition, hsa-miR-22-3p was identified to be potentially involved in the regulation of LIG3. We suggest that LIG1 and LIG3 are novel valuable prognostic biomarkers for BC and has-miRNA-22-3p may be a potential therapeutic target for BC.

Published

2021

17. Almost Sure Convergence Rates and Concentration of Stochastic Approximation and Reinforcement Learning with Markovian Noise

Author

Qian, Xiaochi, Xie, Zixuan, Liu, Xinyu, and Zhang, Shangtong

Subjects

Computer Science - Machine Learning, Mathematics - Optimization and Control, Statistics - Machine Learning

Abstract

This paper establishes the first almost sure convergence rate and the first maximal concentration bound with exponential tails for general contractive stochastic approximation algorithms with Markovian noise. As a corollary, we also obtain convergence rates in $L^p$. Key to our successes is a novel discretization of the mean ODE of stochastic approximation algorithms using intervals with diminishing (instead of constant) length. As applications, we provide the first almost sure convergence rate for $Q$-learning with Markovian samples without count-based learning rates. We also provide the first concentration bound for off-policy temporal difference learning with Markovian samples.

Published

2024

18. EITNet: An IoT-Enhanced Framework for Real-Time Basketball Action Recognition

Author

Liu, Jingyu, Liu, Xinyu, Qu, Mingzhe, and Lyu, Tianyi

Subjects

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

Abstract

Integrating IoT technology into basketball action recognition enhances sports analytics, providing crucial insights into player performance and game strategy. However, existing methods often fall short in terms of accuracy and efficiency, particularly in complex, real-time environments where player movements are frequently occluded or involve intricate interactions. To overcome these challenges, we propose the EITNet model, a deep learning framework that combines EfficientDet for object detection, I3D for spatiotemporal feature extraction, and TimeSformer for temporal analysis, all integrated with IoT technology for seamless real-time data collection and processing. Our contributions include developing a robust architecture that improves recognition accuracy to 92\%, surpassing the baseline EfficientDet model's 87\%, and reducing loss to below 5.0 compared to EfficientDet's 9.0 over 50 epochs. Furthermore, the integration of IoT technology enhances real-time data processing, providing adaptive insights into player performance and strategy. The paper details the design and implementation of EITNet, experimental validation, and a comprehensive evaluation against existing models. The results demonstrate EITNet's potential to significantly advance automated sports analysis and optimize data utilization for player performance and strategy improvement., Comment: pages

Published

2024

19. Forgetting Curve: A Reliable Method for Evaluating Memorization Capability for Long-context Models

Author

Liu, Xinyu, Zhao, Runsong, Huang, Pengcheng, Xiao, Chunyang, Li, Bei, Wang, Jingang, Xiao, Tong, and Zhu, Jingbo

Subjects

Computer Science - Computation and Language

Abstract

Numerous recent works target to extend effective context length for language models and various methods, tasks and benchmarks exist to measure model's effective memorization length. However, through thorough investigations, we find limitations for currently existing evaluations on model's memorization capability. We provide an extensive survey for limitations in this work and propose a new method called forgetting curve to measure the memorization capability of long-context models. We show that forgetting curve has the advantage of being robust to the tested corpus and the experimental settings, of not relying on prompts and can be applied to any model size. We apply our forgetting curve to a large variety of models involving both transformer and RNN/SSM based architectures. Our measurement provides empirical evidence for the effectiveness of transformer extension techniques while raises questions for the effective length of RNN/SSM based models. We also examine the difference between our measurement and existing benchmarks as well as popular metrics for various models. Our code and results can be found at https://github.com/1azybug/ForgettingCurve.

Published

2024

20. More Effective LLM Compressed Tokens with Uniformly Spread Position Identifiers and Compression Loss

Author

Zhao, Runsong, Huang, Pengcheng, Liu, Xinyu, Xiao, Chunyang, Xiao, Tong, and Zhu, Jingbo

Subjects

Computer Science - Computation and Language

Abstract

Compressing Transformer inputs into compressd tokens allows running LLMs with improved speed and cost efficiency. Based on the compression method ICAE, we carefully examine the position identifier choices for compressed tokens and also propose a new compression loss. We demonstrate empirically that our proposed methods achieve significantly higher compression ratios (15x compared to 4x for ICAE), while being able to attain comparable reconstruction performance.

Published

2024

21. CoMamba: Real-time Cooperative Perception Unlocked with State Space Models

Author

Li, Jinlong, Liu, Xinyu, Li, Baolu, Xu, Runsheng, Li, Jiachen, Yu, Hongkai, and Tu, Zhengzhong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Cooperative perception systems play a vital role in enhancing the safety and efficiency of vehicular autonomy. Although recent studies have highlighted the efficacy of vehicle-to-everything (V2X) communication techniques in autonomous driving, a significant challenge persists: how to efficiently integrate multiple high-bandwidth features across an expanding network of connected agents such as vehicles and infrastructure. In this paper, we introduce CoMamba, a novel cooperative 3D detection framework designed to leverage state-space models for real-time onboard vehicle perception. Compared to prior state-of-the-art transformer-based models, CoMamba enjoys being a more scalable 3D model using bidirectional state space models, bypassing the quadratic complexity pain-point of attention mechanisms. Through extensive experimentation on V2X/V2V datasets, CoMamba achieves superior performance compared to existing methods while maintaining real-time processing capabilities. The proposed framework not only enhances object detection accuracy but also significantly reduces processing time, making it a promising solution for next-generation cooperative perception systems in intelligent transportation networks., Comment: Project Page: this https URL https://taco-group.github.io/CoMamba/

Published

2024

22. SoccerNet 2024 Challenges Results

Author

Cioppa, Anthony, Giancola, Silvio, Somers, Vladimir, Joos, Victor, Magera, Floriane, Held, Jan, Ghasemzadeh, Seyed Abolfazl, Zhou, Xin, Seweryn, Karolina, Kowalczyk, Mateusz, Mróz, Zuzanna, Łukasik, Szymon, Hałoń, Michał, Mkhallati, Hassan, Deliège, Adrien, Hinojosa, Carlos, Sanchez, Karen, Mansourian, Amir M., Miralles, Pierre, Barnich, Olivier, De Vleeschouwer, Christophe, Alahi, Alexandre, Ghanem, Bernard, Van Droogenbroeck, Marc, Gorski, Adam, Clapés, Albert, Boiarov, Andrei, Afanasiev, Anton, Xarles, Artur, Scott, Atom, Lim, ByoungKwon, Yeung, Calvin, Gonzalez, Cristian, Rüfenacht, Dominic, Pacilio, Enzo, Deuser, Fabian, Altawijri, Faisal Sami, Cachón, Francisco, Kim, HanKyul, Wang, Haobo, Choe, Hyeonmin, Kim, Hyunwoo J, Kim, Il-Min, Kang, Jae-Mo, Tursunboev, Jamshid, Yang, Jian, Hong, Jihwan, Lee, Jimin, Zhang, Jing, Lee, Junseok, Zhang, Kexin, Habel, Konrad, Jiao, Licheng, Li, Linyi, Gutiérrez-Pérez, Marc, Ortega, Marcelo, Li, Menglong, Lopatto, Milosz, Kasatkin, Nikita, Nemtsev, Nikolay, Oswald, Norbert, Udin, Oleg, Kononov, Pavel, Geng, Pei, Alotaibi, Saad Ghazai, Kim, Sehyung, Ulasen, Sergei, Escalera, Sergio, Zhang, Shanshan, Yang, Shuyuan, Moon, Sunghwan, Moeslund, Thomas B., Shandyba, Vasyl, Golovkin, Vladimir, Dai, Wei, Chung, WonTaek, Liu, Xinyu, Zhu, Yongqiang, Kim, Youngseo, Li, Yuan, Yang, Yuting, Xiao, Yuxuan, Cheng, Zehua, and Li, Zhihao

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The SoccerNet 2024 challenges represent the fourth annual video understanding challenges organized by the SoccerNet team. These challenges aim to advance research across multiple themes in football, including broadcast video understanding, field understanding, and player understanding. This year, the challenges encompass four vision-based tasks. (1) Ball Action Spotting, focusing on precisely localizing when and which soccer actions related to the ball occur, (2) Dense Video Captioning, focusing on describing the broadcast with natural language and anchored timestamps, (3) Multi-View Foul Recognition, a novel task focusing on analyzing multiple viewpoints of a potential foul incident to classify whether a foul occurred and assess its severity, (4) Game State Reconstruction, another novel task focusing on reconstructing the game state from broadcast videos onto a 2D top-view map of the field. Detailed information about the tasks, challenges, and leaderboards can be found at https://www.soccer-net.org, with baselines and development kits available at https://github.com/SoccerNet., Comment: 7 pages, 1 figure

Published

2024

23. LSVOS Challenge Report: Large-scale Complex and Long Video Object Segmentation

Author

Ding, Henghui, Hong, Lingyi, Liu, Chang, Xu, Ning, Yang, Linjie, Fan, Yuchen, Miao, Deshui, Gu, Yameng, Li, Xin, He, Zhenyu, Wang, Yaowei, Yang, Ming-Hsuan, Chai, Jinming, Ma, Qin, Zhang, Junpei, Jiao, Licheng, Liu, Fang, Liu, Xinyu, Zhang, Jing, Zhang, Kexin, Liu, Xu, Li, LingLing, Fang, Hao, Pan, Feiyu, Lu, Xiankai, Zhang, Wei, Cong, Runmin, Tran, Tuyen, Cao, Bin, Zhang, Yisi, Wang, Hanyi, He, Xingjian, and Liu, Jing

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Despite the promising performance of current video segmentation models on existing benchmarks, these models still struggle with complex scenes. In this paper, we introduce the 6th Large-scale Video Object Segmentation (LSVOS) challenge in conjunction with ECCV 2024 workshop. This year's challenge includes two tasks: Video Object Segmentation (VOS) and Referring Video Object Segmentation (RVOS). In this year, we replace the classic YouTube-VOS and YouTube-RVOS benchmark with latest datasets MOSE, LVOS, and MeViS to assess VOS under more challenging complex environments. This year's challenge attracted 129 registered teams from more than 20 institutes across over 8 countries. This report include the challenge and dataset introduction, and the methods used by top 7 teams in two tracks. More details can be found in our homepage https://lsvos.github.io/., Comment: ECCV 2024 LSVOS Challenge Report: https://lsvos.github.io/

Published

2024

24. Unexpected Tuning of the Anomalous Hall Effect in Altermagnetic MnTe Thin Films

Author

Bey, Sara, Fields, Shelby S., Combs, Nicholas G., Márkus, Bence G., Beke, Dávid, Wang, Jiashu, Ievlev, Anton V., Zhukovskyi, Maksym, Orlova, Tatyana, Forró, László, Bennett, Steven P., Liu, Xinyu, and Assaf, Badih A.

Subjects

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

Abstract

The discovery of an anomalous Hall effect (AHE) sensitive to the magnetic state of antiferromagnets can trigger a new era of spintronics, if materials that host a tunable and strong AHE are identified. Altermagnets are a new class of materials that can under certain conditions manifest a strong AHE, without having a net magnetization. But the ability to control their AHE is still lacking. In this study, we demonstrate that the AHE in altermagnetic {\alpha}-MnTe grown on GaAs(111) substrates can be "written on-demand" by cooling the material under an in-plane magnetic field. The magnetic field controls the strength and the coercivity of the AHE. Remarkably, this control is unique to {\alpha}-MnTe grown on GaAs and is absent in {\alpha}-MnTe grown on SrF2. The tunability that we reveal challenges our current understanding of the symmetry-allowed AHE in this material and opens new possibilities for the design of altermagnetic spintronic devices.

Published

2024

25. Unveiling Context-Related Anomalies: Knowledge Graph Empowered Decoupling of Scene and Action for Human-Related Video Anomaly Detection

Author

Chen, Chenglizhao, Liu, Xinyu, Song, Mengke, Li, Luming, Yu, Xu, and Pang, Shanchen

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Detecting anomalies in human-related videos is crucial for surveillance applications. Current methods primarily include appearance-based and action-based techniques. Appearance-based methods rely on low-level visual features such as color, texture, and shape. They learn a large number of pixel patterns and features related to known scenes during training, making them effective in detecting anomalies within these familiar contexts. However, when encountering new or significantly changed scenes, i.e., unknown scenes, they often fail because existing SOTA methods do not effectively capture the relationship between actions and their surrounding scenes, resulting in low generalization. In contrast, action-based methods focus on detecting anomalies in human actions but are usually less informative because they tend to overlook the relationship between actions and their scenes, leading to incorrect detection. For instance, the normal event of running on the beach and the abnormal event of running on the street might both be considered normal due to the lack of scene information. In short, current methods struggle to integrate low-level visual and high-level action features, leading to poor anomaly detection in varied and complex scenes. To address this challenge, we propose a novel decoupling-based architecture for human-related video anomaly detection (DecoAD). DecoAD significantly improves the integration of visual and action features through the decoupling and interweaving of scenes and actions, thereby enabling a more intuitive and accurate understanding of complex behaviors and scenes. DecoAD supports fully supervised, weakly supervised, and unsupervised settings., Comment: 13pages, 9 figures

Published

2024

26. HiPrompt: Tuning-free Higher-Resolution Generation with Hierarchical MLLM Prompts

Author

Liu, Xinyu, He, Yingqing, Guo, Lanqing, Li, Xiang, Jin, Bu, Li, Peng, Li, Yan, Chan, Chi-Min, Chen, Qifeng, Xue, Wei, Luo, Wenhan, Liu, Qifeng, and Guo, Yike

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The potential for higher-resolution image generation using pretrained diffusion models is immense, yet these models often struggle with issues of object repetition and structural artifacts especially when scaling to 4K resolution and higher. We figure out that the problem is caused by that, a single prompt for the generation of multiple scales provides insufficient efficacy. In response, we propose HiPrompt, a new tuning-free solution that tackles the above problems by introducing hierarchical prompts. The hierarchical prompts offer both global and local guidance. Specifically, the global guidance comes from the user input that describes the overall content, while the local guidance utilizes patch-wise descriptions from MLLMs to elaborately guide the regional structure and texture generation. Furthermore, during the inverse denoising process, the generated noise is decomposed into low- and high-frequency spatial components. These components are conditioned on multiple prompt levels, including detailed patch-wise descriptions and broader image-level prompts, facilitating prompt-guided denoising under hierarchical semantic guidance. It further allows the generation to focus more on local spatial regions and ensures the generated images maintain coherent local and global semantics, structures, and textures with high definition. Extensive experiments demonstrate that HiPrompt outperforms state-of-the-art works in higher-resolution image generation, significantly reducing object repetition and enhancing structural quality., Comment: https://liuxinyv.github.io/HiPrompt/

Published

2024

27. NDP: Next Distribution Prediction as a More Broad Target

Author

Ruan, Junhao, Abudula, Abudukeyumu, Liu, Xinyu, Li, Bei, Li, Yinqiao, Wang, Chenglong, Fan, Yuchun, Ge, Yuan, Xiao, Tong, and Zhu, Jingbo

Subjects

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

Abstract

Large language models (LLMs) trained on next-token prediction (NTP) paradigm have demonstrated powerful capabilities. However, the existing NTP paradigm contains several limitations, particularly related to planned task complications and error propagation during inference. In our work, we extend the critique of NTP, highlighting its limitation also due to training with a narrow objective: the prediction of a sub-optimal one-hot distribution. To support this critique, we conducted a pre-experiment treating the output distribution from powerful LLMs as efficient world data compression. By evaluating the similarity between the $n$-gram distribution and the one-hot distribution with LLMs, we observed that the $n$-gram distributions align more closely with the output distribution of LLMs. Based on this insight, we introduce Next Distribution Prediction (NDP), which uses $n$-gram distributions to replace the one-hot targets, enhancing learning without extra online training time. We conducted experiments across translation, general task, language transfer, and medical domain adaptation. Compared to NTP, NDP can achieve up to +2.97 COMET improvement in translation tasks, +0.61 average improvement in general tasks, and incredible +10.75 average improvement in the medical domain. This demonstrates the concrete benefits of addressing the target narrowing problem, pointing to a new direction for future work on improving NTP., Comment: 8 pages,5 figures

Published

2024

28. AgentMonitor: A Plug-and-Play Framework for Predictive and Secure Multi-Agent Systems

Author

Chan, Chi-Min, Yu, Jianxuan, Chen, Weize, Jiang, Chunyang, Liu, Xinyu, Shi, Weijie, Liu, Zhiyuan, Xue, Wei, and Guo, Yike

Subjects

Computer Science - Computation and Language

Abstract

The rapid advancement of large language models (LLMs) has led to the rise of LLM-based agents. Recent research shows that multi-agent systems (MAS), where each agent plays a specific role, can outperform individual LLMs. However, configuring an MAS for a task remains challenging, with performance only observable post-execution. Inspired by scaling laws in LLM development, we investigate whether MAS performance can be predicted beforehand. We introduce AgentMonitor, a framework that integrates at the agent level to capture inputs and outputs, transforming them into statistics for training a regression model to predict task performance. Additionally, it can further apply real-time corrections to address security risks posed by malicious agents, mitigating negative impacts and enhancing MAS security. Experiments demonstrate that an XGBoost model achieves a Spearman correlation of 0.89 in-domain and 0.58 in more challenging scenarios. Furthermore, using AgentMonitor reduces harmful content by 6.2% and increases helpful content by 1.8% on average, enhancing safety and reliability. Code is available at \url{https://github.com/chanchimin/AgentMonitor}.

Published

2024

29. MTFinEval:A Multi-domain Chinese Financial Benchmark with Eurypalynous questions

Author

Liu, Xinyu and Jin, Ke

Subjects

Computer Science - Artificial Intelligence

Abstract

With the emergence of more and more economy-specific LLMS, how to measure whether they can be safely invested in production becomes a problem. Previous research has primarily focused on evaluating the performance of LLMs within specific application scenarios. However, these benchmarks cannot reflect the theoretical level and generalization ability, and the backward datasets are increasingly unsuitable for problems in real scenarios. In this paper, we have compiled a new benchmark, MTFinEval, focusing on the LLMs' basic knowledge of economics, which can always be used as a basis for judgment. To examine only theoretical knowledge as much as possible, MTFinEval is build with foundational questions from university textbooks,and exam papers in economics and management major. Aware of the overall performance of LLMs do not depend solely on one subdiscipline of economics, MTFinEval comprise 360 questions refined from six major disciplines of economics, and reflect capabilities more comprehensively. Experiment result shows all LLMs perform poorly on MTFinEval, which proves that our benchmark built on basic knowledge is very successful. Our research not only offers guidance for selecting the appropriate LLM for specific use cases, but also put forward increase the rigor reliability of LLMs from the basics.

Published

2024

30. LSVOS Challenge 3rd Place Report: SAM2 and Cutie based VOS

Author

Liu, Xinyu, Zhang, Jing, Zhang, Kexin, Liu, Xu, and Li, Lingling

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Information Retrieval

Abstract

Video Object Segmentation (VOS) presents several challenges, including object occlusion and fragmentation, the dis-appearance and re-appearance of objects, and tracking specific objects within crowded scenes. In this work, we combine the strengths of the state-of-the-art (SOTA) models SAM2 and Cutie to address these challenges. Additionally, we explore the impact of various hyperparameters on video instance segmentation performance. Our approach achieves a J\&F score of 0.7952 in the testing phase of LSVOS challenge VOS track, ranking third overall., Comment: arXiv admin note: text overlap with arXiv:2406.03668

Published

2024

31. A Survey of NL2SQL with Large Language Models: Where are we, and where are we going?

Author

Liu, Xinyu, Shen, Shuyu, Li, Boyan, Ma, Peixian, Jiang, Runzhi, Zhang, Yuxin, Fan, Ju, Li, Guoliang, Tang, Nan, and Luo, Yuyu

Subjects

Computer Science - Databases

Abstract

Translating users' natural language queries (NL) into SQL queries (i.e., NL2SQL) can significantly reduce barriers to accessing relational databases and support various commercial applications. The performance of NL2SQL has been greatly enhanced with the emergence of Large Language Models (LLMs). In this survey, we provide a comprehensive review of NL2SQL techniques powered by LLMs, covering its entire lifecycle from the following four aspects: (1) Model: NL2SQL translation techniques that tackle not only NL ambiguity and under-specification, but also properly map NL with database schema and instances; (2) Data: From the collection of training data, data synthesis due to training data scarcity, to NL2SQL benchmarks; (3) Evaluation: Evaluating NL2SQL methods from multiple angles using different metrics and granularities; and (4) Error Analysis: analyzing NL2SQL errors to find the root cause and guiding NL2SQL models to evolve. Moreover, we provide a rule of thumb for developing NL2SQL solutions. Finally, we discuss the research challenges and open problems of NL2SQL in the LLMs era.

Published

2024

32. DiffRect: Latent Diffusion Label Rectification for Semi-supervised Medical Image Segmentation

Author

Liu, Xinyu, Li, Wuyang, and Yuan, Yixuan

Subjects

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

Abstract

Semi-supervised medical image segmentation aims to leverage limited annotated data and rich unlabeled data to perform accurate segmentation. However, existing semi-supervised methods are highly dependent on the quality of self-generated pseudo labels, which are prone to incorrect supervision and confirmation bias. Meanwhile, they are insufficient in capturing the label distributions in latent space and suffer from limited generalization to unlabeled data. To address these issues, we propose a Latent Diffusion Label Rectification Model (DiffRect) for semi-supervised medical image segmentation. DiffRect first utilizes a Label Context Calibration Module (LCC) to calibrate the biased relationship between classes by learning the category-wise correlation in pseudo labels, then apply Latent Feature Rectification Module (LFR) on the latent space to formulate and align the pseudo label distributions of different levels via latent diffusion. It utilizes a denoising network to learn the coarse to fine and fine to precise consecutive distribution transportations. We evaluate DiffRect on three public datasets: ACDC, MS-CMRSEG 2019, and Decathlon Prostate. Experimental results demonstrate the effectiveness of DiffRect, e.g. it achieves 82.40\% Dice score on ACDC with only 1\% labeled scan available, outperforms the previous state-of-the-art by 4.60\% in Dice, and even rivals fully supervised performance. Code is released at \url{https://github.com/CUHK-AIM-Group/DiffRect}., Comment: MICCAI 2024

Published

2024

33. GTP-4o: Modality-prompted Heterogeneous Graph Learning for Omni-modal Biomedical Representation

Author

Li, Chenxin, Liu, Xinyu, Wang, Cheng, Liu, Yifan, Yu, Weihao, Shao, Jing, and Yuan, Yixuan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Recent advances in learning multi-modal representation have witnessed the success in biomedical domains. While established techniques enable handling multi-modal information, the challenges are posed when extended to various clinical modalities and practical modalitymissing setting due to the inherent modality gaps. To tackle these, we propose an innovative Modality-prompted Heterogeneous Graph for Omnimodal Learning (GTP-4o), which embeds the numerous disparate clinical modalities into a unified representation, completes the deficient embedding of missing modality and reformulates the cross-modal learning with a graph-based aggregation. Specially, we establish a heterogeneous graph embedding to explicitly capture the diverse semantic properties on both the modality-specific features (nodes) and the cross-modal relations (edges). Then, we design a modality-prompted completion that enables completing the inadequate graph representation of missing modality through a graph prompting mechanism, which generates hallucination graphic topologies to steer the missing embedding towards the intact representation. Through the completed graph, we meticulously develop a knowledge-guided hierarchical cross-modal aggregation consisting of a global meta-path neighbouring to uncover the potential heterogeneous neighbors along the pathways driven by domain knowledge, and a local multi-relation aggregation module for the comprehensive cross-modal interaction across various heterogeneous relations. We assess the efficacy of our methodology on rigorous benchmarking experiments against prior state-of-the-arts. In a nutshell, GTP-4o presents an initial foray into the intriguing realm of embedding, relating and perceiving the heterogeneous patterns from various clinical modalities holistically via a graph theory. Project page: https://gtp-4-o.github.io/., Comment: Accepted by ECCV2024

Published

2024

34. PVUW 2024 Challenge on Complex Video Understanding: Methods and Results

Author

Ding, Henghui, Liu, Chang, Wei, Yunchao, Ravi, Nikhila, He, Shuting, Bai, Song, Torr, Philip, Miao, Deshui, Li, Xin, He, Zhenyu, Wang, Yaowei, Yang, Ming-Hsuan, Xu, Zhensong, Yao, Jiangtao, Wu, Chengjing, Liu, Ting, Liu, Luoqi, Liu, Xinyu, Zhang, Jing, Zhang, Kexin, Yang, Yuting, Jiao, Licheng, Yang, Shuyuan, Gao, Mingqi, Luo, Jingnan, Yang, Jinyu, Han, Jungong, Zheng, Feng, Cao, Bin, Zhang, Yisi, Lin, Xuanxu, He, Xingjian, Zhao, Bo, Liu, Jing, Pan, Feiyu, Fang, Hao, and Lu, Xiankai

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Pixel-level Video Understanding in the Wild Challenge (PVUW) focus on complex video understanding. In this CVPR 2024 workshop, we add two new tracks, Complex Video Object Segmentation Track based on MOSE dataset and Motion Expression guided Video Segmentation track based on MeViS dataset. In the two new tracks, we provide additional videos and annotations that feature challenging elements, such as the disappearance and reappearance of objects, inconspicuous small objects, heavy occlusions, and crowded environments in MOSE. Moreover, we provide a new motion expression guided video segmentation dataset MeViS to study the natural language-guided video understanding in complex environments. These new videos, sentences, and annotations enable us to foster the development of a more comprehensive and robust pixel-level understanding of video scenes in complex environments and realistic scenarios. The MOSE challenge had 140 registered teams in total, 65 teams participated the validation phase and 12 teams made valid submissions in the final challenge phase. The MeViS challenge had 225 registered teams in total, 50 teams participated the validation phase and 5 teams made valid submissions in the final challenge phase., Comment: MOSE Challenge: https://henghuiding.github.io/MOSE/ChallengeCVPR2024, MeViS Challenge: https://henghuiding.github.io/MeViS/ChallengeCVPR2024

Published

2024

35. Spectral analysis of the magnetooptical response in valley polarized Pb$_{1-x}$Sn$_x$Se

Author

Ding, Xiaoqi, Wang, Jiashu, Ozerov, Mykhaylo, Karim, Muhsin Abdul, Bac, Seul-Ki, Liu, Xinyu, Assaf, Badih A., Hsu, Yi-Ting, and Li, Xiao

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Since the last century, considerable efforts have been devoted to the study of valley-degenerate narrow gap semiconductors, such as the Pb$_{1-x}$Sn$_x$Se alloy. This material possesses band minima at the $L$-points of their Brillouin zone, yielding a valley degeneracy of four. However, in (111)-oriented films, it is still not fully understood how differences between the longitudinal valley, oriented along the growth axis, and the oblique valleys, oriented at an angle with respect to that axis, appear in magneto-optical infrared spectroscopy. In this work, we report a magnetooptical study on this family of alloys, focusing on an anomaly in the interband transition of the peak intensity ratio of longitudinal and oblique valleys under a magnetic field applied along the [111] direction. Based on the Mitchell-Wallis model, we provide a theoretical fit for the experimental transmission data, which quantitatively explains the spectral shape of the data at magnetic fields as high as 35T. In particular, we attribute this anomalous peak intensity variation to the carrier density difference between the two types of valleys as well as the field-dependent thin-film interference. Our analysis also allows for the extraction of the real and imaginary parts of the dielectric function., Comment: 11 pages, 9 figures. Comments are welcome

Published

2024

36. Technique Report of CVPR 2024 PBDL Challenges

Author

Fu, Ying, Li, Yu, You, Shaodi, Shi, Boxin, Chen, Linwei, Zou, Yunhao, Wang, Zichun, Li, Yichen, Han, Yuze, Zhang, Yingkai, Wang, Jianan, Liu, Qinglin, Yu, Wei, Lv, Xiaoqian, Li, Jianing, Zhang, Shengping, Ji, Xiangyang, Chen, Yuanpei, Zhang, Yuhan, Peng, Weihang, Zhang, Liwen, Xu, Zhe, Gou, Dingyong, Li, Cong, Xu, Senyan, Zhang, Yunkang, Jiang, Siyuan, Lu, Xiaoqiang, Jiao, Licheng, Liu, Fang, Liu, Xu, Li, Lingling, Ma, Wenping, Yang, Shuyuan, Xie, Haiyang, Zhao, Jian, Huang, Shihua, Cheng, Peng, Shen, Xi, Wang, Zheng, An, Shuai, Zhu, Caizhi, Li, Xuelong, Zhang, Tao, Li, Liang, Liu, Yu, Yan, Chenggang, Zhang, Gengchen, Jiang, Linyan, Song, Bingyi, An, Zhuoyu, Lei, Haibo, Luo, Qing, Song, Jie, Liu, Yuan, Li, Qihang, Zhang, Haoyuan, Wang, Lingfeng, Chen, Wei, Luo, Aling, Li, Cheng, Cao, Jun, Chen, Shu, Dou, Zifei, Liu, Xinyu, Zhang, Jing, Zhang, Kexin, Yang, Yuting, Gou, Xuejian, Wang, Qinliang, Liu, Yang, Zhao, Shizhan, Zhang, Yanzhao, Yan, Libo, Guo, Yuwei, Li, Guoxin, Gao, Qiong, Che, Chenyue, Sun, Long, Chen, Xiang, Li, Hao, Pan, Jinshan, Xie, Chuanlong, Chen, Hongming, Li, Mingrui, Deng, Tianchen, Huang, Jingwei, Li, Yufeng, Wan, Fei, Xu, Bingxin, Cheng, Jian, Liu, Hongzhe, Xu, Cheng, Zou, Yuxiang, Pan, Weiguo, Dai, Songyin, Jia, Sen, Zhang, Junpei, and Chen, Puhua

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The intersection of physics-based vision and deep learning presents an exciting frontier for advancing computer vision technologies. By leveraging the principles of physics to inform and enhance deep learning models, we can develop more robust and accurate vision systems. Physics-based vision aims to invert the processes to recover scene properties such as shape, reflectance, light distribution, and medium properties from images. In recent years, deep learning has shown promising improvements for various vision tasks, and when combined with physics-based vision, these approaches can enhance the robustness and accuracy of vision systems. This technical report summarizes the outcomes of the Physics-Based Vision Meets Deep Learning (PBDL) 2024 challenge, held in CVPR 2024 workshop. The challenge consisted of eight tracks, focusing on Low-Light Enhancement and Detection as well as High Dynamic Range (HDR) Imaging. This report details the objectives, methodologies, and results of each track, highlighting the top-performing solutions and their innovative approaches., Comment: CVPR 2024 PBDL Challenges: https://pbdl-ws.github.io/pbdl2024/challenge/index.html

Published

2024

37. 3rd Place Solution for MOSE Track in CVPR 2024 PVUW workshop: Complex Video Object Segmentation

Author

Liu, Xinyu, Zhang, Jing, Zhang, Kexin, Yang, Yuting, Jiao, Licheng, and Yang, Shuyuan

Subjects

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

Abstract

Video Object Segmentation (VOS) is a vital task in computer vision, focusing on distinguishing foreground objects from the background across video frames. Our work draws inspiration from the Cutie model, and we investigate the effects of object memory, the total number of memory frames, and input resolution on segmentation performance. This report validates the effectiveness of our inference method on the coMplex video Object SEgmentation (MOSE) dataset, which features complex occlusions. Our experimental results demonstrate that our approach achieves a J\&F score of 0.8139 on the test set, securing the third position in the final ranking. These findings highlight the robustness and accuracy of our method in handling challenging VOS scenarios.

Published

2024

38. U-KAN Makes Strong Backbone for Medical Image Segmentation and Generation

Author

Li, Chenxin, Liu, Xinyu, Li, Wuyang, Wang, Cheng, Liu, Hengyu, Liu, Yifan, Chen, Zhen, and Yuan, Yixuan

Subjects

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

Abstract

U-Net has become a cornerstone in various visual applications such as image segmentation and diffusion probability models. While numerous innovative designs and improvements have been introduced by incorporating transformers or MLPs, the networks are still limited to linearly modeling patterns as well as the deficient interpretability. To address these challenges, our intuition is inspired by the impressive results of the Kolmogorov-Arnold Networks (KANs) in terms of accuracy and interpretability, which reshape the neural network learning via the stack of non-linear learnable activation functions derived from the Kolmogorov-Anold representation theorem. Specifically, in this paper, we explore the untapped potential of KANs in improving backbones for vision tasks. We investigate, modify and re-design the established U-Net pipeline by integrating the dedicated KAN layers on the tokenized intermediate representation, termed U-KAN. Rigorous medical image segmentation benchmarks verify the superiority of U-KAN by higher accuracy even with less computation cost. We further delved into the potential of U-KAN as an alternative U-Net noise predictor in diffusion models, demonstrating its applicability in generating task-oriented model architectures. These endeavours unveil valuable insights and sheds light on the prospect that with U-KAN, you can make strong backbone for medical image segmentation and generation. Project page:\url{https://yes-u-kan.github.io/}.

Published

2024

39. Identification of ZG16B as a prognostic biomarker in breast cancer

Author

Lu Haotian, Shi Chunying, Liu Xinyu, Liang Chen, Yang Chaochao, Wan Xueqi, Li Ling, and Liu Ying

Subjects

zg16b, breast cancer, database, biomarker, prognosis, Medicine

Abstract

Zymogen granule protein 16B (ZG16B) has been identified in various cancers, while so far the association between ZG16B and breast cancer hasn’t been explored. Our aim is to confirm whether it can serve as a prognostic biomarker in breast cancer. In this study, Oncomine, Cancer Cell Line Encyclopedia (CCLE), Ualcan, and STRING database analyses were conducted to detect the expression level of ZG16B in breast cancer with different types. Kaplan–Meier plotter was used to analyze the prognosis of patients with high or low expression of ZG16B. We found that ZG16B was significantly upregulated in breast cancer. Moreover, ZG16B was closely associated with foregone biomarkers and crucial factors in breast cancer. In the survival analysis, high expression of ZG16B represents a favorable prognosis in patients. Our work demonstrates the latent capacity of ZG16B to be a biomarker for prognosis of breast cancer.

Published

2020

40. Development history, current situation and prospect of international vegetable oil-based hydraulic oil

Author

Liu Xinyu, Zhao Juntao, She Yingying, and Liu Yinshui

Subjects

Environmental sciences, GE1-350

Abstract

Vegetable oil-based hydraulic oil is one of the biodegradable lubricants. With the strengthening of environmental awareness, especially in the context of the increasingly serious pollution of the marine environment by mineral oil used in ships, people are increasingly aware that the pollution of mineral oil-based hydraulic oil to the environment is very serious, and many solutions have been proposed. The use of biodegradable plant-based hydraulic oil instead of traditional mineral oil-based hydraulic oil can fundamentally solve the pollution of marine hydraulic oil to the marine environment. The development of vegetable oil-based hydraulic oil in the world is systematically summarized, including its material composition, physical and chemical properties. By analysing its practical prospect and future development direction, it is concluded that vegetable oil-based hydraulic oil is the most environmentally friendly hydraulic oil in the future shipbuilding, industrial manufacturing and other industries, and it is the development trend of “green shipping” in China in the future.

Published

2023

41. Research on the Impact of Cross-Language Transfer on English Learning among Chinese K-12 Students

Author

Liu Xinyu

Subjects

Social Sciences

Abstract

This paper reviewed 9 articles published in the last 3 years (from 2019 to 2022) studying the language transfer of Chinese K-12 students who studied English. The results showed that in areas such as phonetic learning and conceptual understanding, the mother tongue positively influences English language learning; in some aspects of English vocabulary and writing, students are vulnerable to the confinement of their mother tongue thinking. The research also aimed to provide some pedagogical recommendations for promoting positive transfer and inhibiting negative transfer for students in the context of K-12 education.

Published

2023

42. Probing Berry curvature in magnetic topological insulators through resonant infrared magnetic circular dichroism

Author

Bac, Seul-Ki, Mardelé, Florian le, Wang, Jiashu, Ozerov, Mykhaylo, Yoshimura, Kota, Mohelský, Ivan, Sun, Xingdan, Piot, Benjamin, Wimmer, Stefan, Ney, Andreas, Orlova, Tatyana, Zhukovskyi, Maksym, Bauer, Günther, Springholz, Gunther, Liu, Xinyu, Orlita, Milan, Park, Kyungwha, Hsu, Yi-Ting, and Assaf, Badih A.

Subjects

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

Abstract

Probing the quantum geometry and topology in condensed matter systems has relied heavily on static electronic transport experiments in magnetic fields. Yet, contact-free optical measurements have rarely been explored. Magnetic dichroism (MCD), the nonreciprocal absorption of circular polarized light, was theoretically linked to the quantized anomalous Hall effect in magnetic insulators and can identify the bands and momenta responsible for the underlying Berry Curvature (BC). Detecting BC through MCD faces two challenges: First, the relevant inter-band transitions usually generate MCD in the infrared (IR) range, requiring large samples with high quality. Second, while most magnetic materials are metallic, the relation between MCD and BC in metals remains unclear. Here, we report the observation of MCD in the IR range along with the anomalous Hall effect in thin film MnBi2Te4. Both phenomena emerge with a field-driven phase transition from an antiferromagnet to a canted ferromagnet. By theoretically relating the MCD to the anomalous Hall effect via BC in a metal, we show that this transition accompanies an abrupt onset of BC, signaling a topological phase transition from a topological insulator to a doped Chern insulator. Our density functional theory calculation suggests the MCD signal mainly originates from an optical transition at the Brillouin zone edge, hinting at a potential new source of BC away from the commonly considered {\Gamma} point. Our findings demonstrate a novel experimental approach for detecting BC and identifying the responsible bands and momenta, generally applicable to magnetic materials.

Published

2024

43. Unambiguous discrimination of general quantum operations

Author

Cai, Weizhou, Zhang, Jing-Ning, Hua, Ziyue, Wang, Weiting, Pan, Xiaoxuan, Liu, Xinyu, Ma, Yuwei, Hu, Ling, Mu, Xianghao, Wang, Haiyan, Song, Yipu, Zou, Chang-Ling, and Sun, Luyan

Subjects

Quantum Physics

Abstract

The discrimination of quantum operations has long been an intriguing challenge, with theoretical research significantly advancing our understanding of the quantum features in discriminating quantum objects. This challenge is closely related to the discrimination of quantum states, and proof-of-principle demonstrations of the latter have already been realized using optical photons. However, the experimental demonstration of discriminating general quantum operations, including both unitary and non-unitary operations, has remained elusive. In general quantum systems, especially those with high dimensions, the preparation of arbitrary quantum states and the implementation of arbitrary quantum operations and generalized measurements are non-trivial tasks. Here, for the first time, we experimentally demonstrate the optimal unambiguous discrimination of up to 6 displacement operators and the unambiguous discrimination of non-unitary quantum operations. Our results demonstrate powerful tools for experimental research in quantum information processing and are expected to stimulate a wide range of valuable applications in the field of quantum sensing., Comment: 11 pages, 4 figures, 2 tables

Published

2024

44. A Fourier Approach to the Parameter Estimation Problem for One-dimensional Gaussian Mixture Models

Author

Liu, Xinyu and Zhang, Hai

Subjects

Statistics - Machine Learning, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Signal Processing, Statistics - Methodology

Abstract

The purpose of this paper is twofold. First, we propose a novel algorithm for estimating parameters in one-dimensional Gaussian mixture models (GMMs). The algorithm takes advantage of the Hankel structure inherent in the Fourier data obtained from independent and identically distributed (i.i.d) samples of the mixture. For GMMs with a unified variance, a singular value ratio functional using the Fourier data is introduced and used to resolve the variance and component number simultaneously. The consistency of the estimator is derived. Compared to classic algorithms such as the method of moments and the maximum likelihood method, the proposed algorithm does not require prior knowledge of the number of Gaussian components or good initial guesses. Numerical experiments demonstrate its superior performance in estimation accuracy and computational cost. Second, we reveal that there exists a fundamental limit to the problem of estimating the number of Gaussian components or model order in the mixture model if the number of i.i.d samples is finite. For the case of a single variance, we show that the model order can be successfully estimated only if the minimum separation distance between the component means exceeds a certain threshold value and can fail if below. We derive a lower bound for this threshold value, referred to as the computational resolution limit, in terms of the number of i.i.d samples, the variance, and the number of Gaussian components. Numerical experiments confirm this phase transition phenomenon in estimating the model order. Moreover, we demonstrate that our algorithm achieves better scores in likelihood, AIC, and BIC when compared to the EM algorithm.

Published

2024

45. A Structure-Guided Gauss-Newton Method for Shallow ReLU Neural Network

Author

Cai, Zhiqiang, Ding, Tong, Liu, Min, Liu, Xinyu, and Xia, Jianlin

Subjects

Computer Science - Machine Learning, Mathematics - Numerical Analysis, 65D15, 65K10

Abstract

In this paper, we propose a structure-guided Gauss-Newton (SgGN) method for solving least squares problems using a shallow ReLU neural network. The method effectively takes advantage of both the least squares structure and the neural network structure of the objective function. By categorizing the weights and biases of the hidden and output layers of the network as nonlinear and linear parameters, respectively, the method iterates back and forth between the nonlinear and linear parameters. The nonlinear parameters are updated by a damped Gauss-Newton method and the linear ones are updated by a linear solver. Moreover, at the Gauss-Newton step, a special form of the Gauss-Newton matrix is derived for the shallow ReLU neural network and is used for efficient iterations. It is shown that the corresponding mass and Gauss-Newton matrices in the respective linear and nonlinear steps are symmetric and positive definite under reasonable assumptions. Thus, the SgGN method naturally produces an effective search direction without the need of additional techniques like shifting in the Levenberg-Marquardt method to achieve invertibility of the Gauss-Newton matrix. The convergence and accuracy of the method are demonstrated numerically for several challenging function approximation problems, especially those with discontinuities or sharp transition layers that pose significant challenges for commonly used training algorithms in machine learning.

Published

2024

46. Light the Night: A Multi-Condition Diffusion Framework for Unpaired Low-Light Enhancement in Autonomous Driving

Author

Li, Jinlong, Li, Baolu, Tu, Zhengzhong, Liu, Xinyu, Guo, Qing, Juefei-Xu, Felix, Xu, Runsheng, and Yu, Hongkai

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Vision-centric perception systems for autonomous driving have gained considerable attention recently due to their cost-effectiveness and scalability, especially compared to LiDAR-based systems. However, these systems often struggle in low-light conditions, potentially compromising their performance and safety. To address this, our paper introduces LightDiff, a domain-tailored framework designed to enhance the low-light image quality for autonomous driving applications. Specifically, we employ a multi-condition controlled diffusion model. LightDiff works without any human-collected paired data, leveraging a dynamic data degradation process instead. It incorporates a novel multi-condition adapter that adaptively controls the input weights from different modalities, including depth maps, RGB images, and text captions, to effectively illuminate dark scenes while maintaining context consistency. Furthermore, to align the enhanced images with the detection model's knowledge, LightDiff employs perception-specific scores as rewards to guide the diffusion training process through reinforcement learning. Extensive experiments on the nuScenes datasets demonstrate that LightDiff can significantly improve the performance of several state-of-the-art 3D detectors in night-time conditions while achieving high visual quality scores, highlighting its potential to safeguard autonomous driving., Comment: This paper is accepted by CVPR 2024

Published

2024

47. TOD3Cap: Towards 3D Dense Captioning in Outdoor Scenes

Author

Jin, Bu, Zheng, Yupeng, Li, Pengfei, Li, Weize, Zheng, Yuhang, Hu, Sujie, Liu, Xinyu, Zhu, Jinwei, Yan, Zhijie, Sun, Haiyang, Zhan, Kun, Jia, Peng, Long, Xiaoxiao, Chen, Yilun, and Zhao, Hao

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

3D dense captioning stands as a cornerstone in achieving a comprehensive understanding of 3D scenes through natural language. It has recently witnessed remarkable achievements, particularly in indoor settings. However, the exploration of 3D dense captioning in outdoor scenes is hindered by two major challenges: 1) the domain gap between indoor and outdoor scenes, such as dynamics and sparse visual inputs, makes it difficult to directly adapt existing indoor methods; 2) the lack of data with comprehensive box-caption pair annotations specifically tailored for outdoor scenes. To this end, we introduce the new task of outdoor 3D dense captioning. As input, we assume a LiDAR point cloud and a set of RGB images captured by the panoramic camera rig. The expected output is a set of object boxes with captions. To tackle this task, we propose the TOD3Cap network, which leverages the BEV representation to generate object box proposals and integrates Relation Q-Former with LLaMA-Adapter to generate rich captions for these objects. We also introduce the TOD3Cap dataset, the largest one to our knowledge for 3D dense captioning in outdoor scenes, which contains 2.3M descriptions of 64.3K outdoor objects from 850 scenes. Notably, our TOD3Cap network can effectively localize and caption 3D objects in outdoor scenes, which outperforms baseline methods by a significant margin (+9.6 CiDEr@0.5IoU). Code, data, and models are publicly available at https://github.com/jxbbb/TOD3Cap., Comment: Code, data, and models are publicly available at https://github.com/jxbbb/TOD3Cap

Published

2024

48. V2X-DGW: Domain Generalization for Multi-agent Perception under Adverse Weather Conditions

Author

Li, Baolu, Li, Jinlong, Liu, Xinyu, Xu, Runsheng, Tu, Zhengzhong, Guo, Jiacheng, Li, Xiaopeng, and Yu, Hongkai

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Current LiDAR-based Vehicle-to-Everything (V2X) multi-agent perception systems have shown the significant success on 3D object detection. While these models perform well in the trained clean weather, they struggle in unseen adverse weather conditions with the domain gap. In this paper, we propose a Domain Generalization based approach, named V2X-DGW, for LiDAR-based 3D object detection on multi-agent perception system under adverse weather conditions. Our research aims to not only maintain favorable multi-agent performance in the clean weather but also promote the performance in the unseen adverse weather conditions by learning only on the clean weather data. To realize the Domain Generalization, we first introduce the Adaptive Weather Augmentation (AWA) to mimic the unseen adverse weather conditions, and then propose two alignments for generalizable representation learning: Trust-region Weather-invariant Alignment (TWA) and Agent-aware Contrastive Alignment (ACA). To evaluate this research, we add Fog, Rain, Snow conditions on two publicized multi-agent datasets based on physics-based models, resulting in two new datasets: OPV2V-w and V2XSet-w. Extensive experiments demonstrate that our V2X-DGW achieved significant improvements in the unseen adverse weathers.

Published

2024

49. Endora: Video Generation Models as Endoscopy Simulators

Author

Li, Chenxin, Liu, Hengyu, Liu, Yifan, Feng, Brandon Y., Li, Wuyang, Liu, Xinyu, Chen, Zhen, Shao, Jing, and Yuan, Yixuan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Generative models hold promise for revolutionizing medical education, robot-assisted surgery, and data augmentation for machine learning. Despite progress in generating 2D medical images, the complex domain of clinical video generation has largely remained untapped.This paper introduces \model, an innovative approach to generate medical videos that simulate clinical endoscopy scenes. We present a novel generative model design that integrates a meticulously crafted spatial-temporal video transformer with advanced 2D vision foundation model priors, explicitly modeling spatial-temporal dynamics during video generation. We also pioneer the first public benchmark for endoscopy simulation with video generation models, adapting existing state-of-the-art methods for this endeavor.Endora demonstrates exceptional visual quality in generating endoscopy videos, surpassing state-of-the-art methods in extensive testing. Moreover, we explore how this endoscopy simulator can empower downstream video analysis tasks and even generate 3D medical scenes with multi-view consistency. In a nutshell, Endora marks a notable breakthrough in the deployment of generative AI for clinical endoscopy research, setting a substantial stage for further advances in medical content generation. For more details, please visit our project page: https://endora-medvidgen.github.io/., Comment: Project page: https://endora-medvidgen.github.io/

Published

2024

50. Effect of Aging Treatment on Microstructure and Damping Properties of Mg-Al-Ca-Mn-Zn Alloy

Author

Pei, Mengyu, Sun, Youping, Li, Wangzhen, He, Jiangmei, Liu, Xinyu, and Zhang, Kaifei

Published

2024