Your search keyword '"Zhang, Yuhang"' showing total 2,849 results

1. Act in Collusion: A Persistent Distributed Multi-Target Backdoor in Federated Learning

Author

Liu, Tao, Yang, Wu, Xu, Chen, Lv, Jiguang, Wang, Huanran, Zhang, Yuhang, Xu, Shuchun, and Man, Dapeng

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Federated learning, a novel paradigm designed to protect data privacy, is vulnerable to backdoor attacks due to its distributed nature. Current research often designs attacks based on a single attacker with a single backdoor, overlooking more realistic and complex threats in federated learning. We propose a more practical threat model for federated learning: the distributed multi-target backdoor. In this model, multiple attackers control different clients, embedding various triggers and targeting different classes, collaboratively implanting backdoors into the global model via central aggregation. Empirical validation shows that existing methods struggle to maintain the effectiveness of multiple backdoors in the global model. Our key insight is that similar backdoor triggers cause parameter conflicts and injecting new backdoors disrupts gradient directions, significantly weakening some backdoors performance. To solve this, we propose a Distributed Multi-Target Backdoor Attack (DMBA), ensuring efficiency and persistence of backdoors from different malicious clients. To avoid parameter conflicts, we design a multi-channel dispersed frequency trigger strategy to maximize trigger differences. To mitigate gradient interference, we introduce backdoor replay in local training to neutralize conflicting gradients. Extensive validation shows that 30 rounds after the attack, Attack Success Rates of three different backdoors from various clients remain above 93%. The code will be made publicly available after the review period.

Published

2024

2. Curriculum Prompting Foundation Models for Medical Image Segmentation

Author

Zheng, Xiuqi, Zhang, Yuhang, Zhang, Haoran, Liang, Hongrui, Bao, Xueqi, Jiang, Zhuqing, and Lao, Qicheng

Subjects

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

Abstract

Adapting large pre-trained foundation models, e.g., SAM, for medical image segmentation remains a significant challenge. A crucial step involves the formulation of a series of specialized prompts that incorporate specific clinical instructions. Past works have been heavily reliant on a singular type of prompt for each instance, necessitating manual input of an ideally correct prompt, which is less efficient. To tackle this issue, we propose to utilize prompts of different granularity, which are sourced from original images to provide a broader scope of clinical insights. However, combining prompts of varying types can pose a challenge due to potential conflicts. In response, we have designed a coarse-to-fine mechanism, referred to as curriculum prompting, that progressively integrates prompts of different types. Through extensive experiments on three public medical datasets across various modalities, we demonstrate the effectiveness of our proposed approach, which not only automates the prompt generation process but also yields superior performance compared to other SAM-based medical image segmentation methods. Code is available at: https://github.com/AnnaZzz-zxq/Curriculum-Prompting., Comment: Accepted by MICCAI 2024

Published

2024

3. Generalizable Facial Expression Recognition

Author

Zhang, Yuhang, Zheng, Xiuqi, Liang, Chenyi, Hu, Jiani, and Deng, Weihong

Subjects

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

Abstract

SOTA facial expression recognition (FER) methods fail on test sets that have domain gaps with the train set. Recent domain adaptation FER methods need to acquire labeled or unlabeled samples of target domains to fine-tune the FER model, which might be infeasible in real-world deployment. In this paper, we aim to improve the zero-shot generalization ability of FER methods on different unseen test sets using only one train set. Inspired by how humans first detect faces and then select expression features, we propose a novel FER pipeline to extract expression-related features from any given face images. Our method is based on the generalizable face features extracted by large models like CLIP. However, it is non-trivial to adapt the general features of CLIP for specific tasks like FER. To preserve the generalization ability of CLIP and the high precision of the FER model, we design a novel approach that learns sigmoid masks based on the fixed CLIP face features to extract expression features. To further improve the generalization ability on unseen test sets, we separate the channels of the learned masked features according to the expression classes to directly generate logits and avoid using the FC layer to reduce overfitting. We also introduce a channel-diverse loss to make the learned masks separated. Extensive experiments on five different FER datasets verify that our method outperforms SOTA FER methods by large margins. Code is available in https://github.com/zyh-uaiaaaa/Generalizable-FER., Comment: Accepted by ECCV2024

Published

2024

4. Phase Re-service in Reinforcement Learning Traffic Signal Control

Author

Zhang, Zhiyao, Gunter, George, Quinones-Grueiro, Marcos, Zhang, Yuhang, Barbour, William, Biswas, Gautam, and Work, Daniel

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

This article proposes a novel approach to traffic signal control that combines phase re-service with reinforcement learning (RL). The RL agent directly determines the duration of the next phase in a pre-defined sequence. Before the RL agent's decision is executed, we use the shock wave theory to estimate queue expansion at the designated movement allowed for re-service and decide if phase re-service is necessary. If necessary, a temporary phase re-service is inserted before the next regular phase. We formulate the RL problem as a semi-Markov decision process (SMDP) and solve it with proximal policy optimization (PPO). We conducted a series of experiments that showed significant improvements thanks to the introduction of phase re-service. Vehicle delays are reduced by up to 29.95% of the average and up to 59.21% of the standard deviation. The number of stops is reduced by 26.05% on average with 45.77% less standard deviation., Comment: Accepted to IEEE ITSC 2024

Published

2024

5. DreamStory: Open-Domain Story Visualization by LLM-Guided Multi-Subject Consistent Diffusion

Author

He, Huiguo, Yang, Huan, Tuo, Zixi, Zhou, Yuan, Wang, Qiuyue, Zhang, Yuhang, Liu, Zeyu, Huang, Wenhao, Chao, Hongyang, and Yin, Jian

Subjects

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

Abstract

Story visualization aims to create visually compelling images or videos corresponding to textual narratives. Despite recent advances in diffusion models yielding promising results, existing methods still struggle to create a coherent sequence of subject-consistent frames based solely on a story. To this end, we propose DreamStory, an automatic open-domain story visualization framework by leveraging the LLMs and a novel multi-subject consistent diffusion model. DreamStory consists of (1) an LLM acting as a story director and (2) an innovative Multi-Subject consistent Diffusion model (MSD) for generating consistent multi-subject across the images. First, DreamStory employs the LLM to generate descriptive prompts for subjects and scenes aligned with the story, annotating each scene's subjects for subsequent subject-consistent generation. Second, DreamStory utilizes these detailed subject descriptions to create portraits of the subjects, with these portraits and their corresponding textual information serving as multimodal anchors (guidance). Finally, the MSD uses these multimodal anchors to generate story scenes with consistent multi-subject. Specifically, the MSD includes Masked Mutual Self-Attention (MMSA) and Masked Mutual Cross-Attention (MMCA) modules. MMSA and MMCA modules ensure appearance and semantic consistency with reference images and text, respectively. Both modules employ masking mechanisms to prevent subject blending. To validate our approach and promote progress in story visualization, we established a benchmark, DS-500, which can assess the overall performance of the story visualization framework, subject-identification accuracy, and the consistency of the generation model. Extensive experiments validate the effectiveness of DreamStory in both subjective and objective evaluations. Please visit our project homepage at https://dream-xyz.github.io/dreamstory.

Published

2024

6. Field Deployment of Multi-Agent Reinforcement Learning Based Variable Speed Limit Controllers

Author

Zhang, Yuhang, Zhang, Zhiyao, Quiñones-Grueiro, Marcos, Barbour, William, Weston, Clay, Biswas, Gautam, and Work, Daniel

Subjects

Computer Science - Multiagent Systems

Abstract

This article presents the first field deployment of a multi-agent reinforcement-learning (MARL) based variable speed limit (VSL) control system on the I-24 freeway near Nashville, Tennessee. We describe how we train MARL agents in a traffic simulator and directly deploy the simulation-based policy on a 17-mile stretch of Interstate 24 with 67 VSL controllers. We use invalid action masking and several safety guards to ensure the posted speed limits satisfy the real-world constraints from the traffic management center and the Tennessee Department of Transportation. Since the time of launch of the system through April, 2024, the system has made approximately 10,000,000 decisions on 8,000,000 trips. The analysis of the controller shows that the MARL policy takes control for up to 98% of the time without intervention from safety guards. The time-space diagrams of traffic speed and control commands illustrate how the algorithm behaves during rush hour. Finally, we quantify the domain mismatch between the simulation and real-world data and demonstrate the robustness of the MARL policy to this mismatch.

Published

2024

7. FT-AED: Benchmark Dataset for Early Freeway Traffic Anomalous Event Detection

Author

Coursey, Austin, Ji, Junyi, Quinones-Grueiro, Marcos, Barbour, William, Zhang, Yuhang, Derr, Tyler, Biswas, Gautam, and Work, Daniel B.

Subjects

Computer Science - Machine Learning

Abstract

Early and accurate detection of anomalous events on the freeway, such as accidents, can improve emergency response and clearance. However, existing delays and errors in event identification and reporting make it a difficult problem to solve. Current large-scale freeway traffic datasets are not designed for anomaly detection and ignore these challenges. In this paper, we introduce the first large-scale lane-level freeway traffic dataset for anomaly detection. Our dataset consists of a month of weekday radar detection sensor data collected in 4 lanes along an 18-mile stretch of Interstate 24 heading toward Nashville, TN, comprising over 3.7 million sensor measurements. We also collect official crash reports from the Nashville Traffic Management Center and manually label all other potential anomalies in the dataset. To show the potential for our dataset to be used in future machine learning and traffic research, we benchmark numerous deep learning anomaly detection models on our dataset. We find that unsupervised graph neural network autoencoders are a promising solution for this problem and that ignoring spatial relationships leads to decreased performance. We demonstrate that our methods can reduce reporting delays by over 10 minutes on average while detecting 75% of crashes. Our dataset and all preprocessing code needed to get started are publicly released at https://vu.edu/ft-aed/ to facilitate future research.

Published

2024

8. Lumina-T2X: Transforming Text into Any Modality, Resolution, and Duration via Flow-based Large Diffusion Transformers

Author

Gao, Peng, Zhuo, Le, Liu, Dongyang, Du, Ruoyi, Luo, Xu, Qiu, Longtian, Zhang, Yuhang, Lin, Chen, Huang, Rongjie, Geng, Shijie, Zhang, Renrui, Xi, Junlin, Shao, Wenqi, Jiang, Zhengkai, Yang, Tianshuo, Ye, Weicai, Tong, He, He, Jingwen, Qiao, Yu, and Li, Hongsheng

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Sora unveils the potential of scaling Diffusion Transformer for generating photorealistic images and videos at arbitrary resolutions, aspect ratios, and durations, yet it still lacks sufficient implementation details. In this technical report, we introduce the Lumina-T2X family - a series of Flow-based Large Diffusion Transformers (Flag-DiT) equipped with zero-initialized attention, as a unified framework designed to transform noise into images, videos, multi-view 3D objects, and audio clips conditioned on text instructions. By tokenizing the latent spatial-temporal space and incorporating learnable placeholders such as [nextline] and [nextframe] tokens, Lumina-T2X seamlessly unifies the representations of different modalities across various spatial-temporal resolutions. This unified approach enables training within a single framework for different modalities and allows for flexible generation of multimodal data at any resolution, aspect ratio, and length during inference. Advanced techniques like RoPE, RMSNorm, and flow matching enhance the stability, flexibility, and scalability of Flag-DiT, enabling models of Lumina-T2X to scale up to 7 billion parameters and extend the context window to 128K tokens. This is particularly beneficial for creating ultra-high-definition images with our Lumina-T2I model and long 720p videos with our Lumina-T2V model. Remarkably, Lumina-T2I, powered by a 5-billion-parameter Flag-DiT, requires only 35% of the training computational costs of a 600-million-parameter naive DiT. Our further comprehensive analysis underscores Lumina-T2X's preliminary capability in resolution extrapolation, high-resolution editing, generating consistent 3D views, and synthesizing videos with seamless transitions. We expect that the open-sourcing of Lumina-T2X will further foster creativity, transparency, and diversity in the generative AI community., Comment: Technical Report; Code at: https://github.com/Alpha-VLLM/Lumina-T2X

Published

2024

9. Beyond Traditional Threats: A Persistent Backdoor Attack on Federated Learning

Author

Liu, Tao, Zhang, Yuhang, Feng, Zhu, Yang, Zhiqin, Xu, Chen, Man, Dapeng, and Yang, Wu

Subjects

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

Abstract

Backdoors on federated learning will be diluted by subsequent benign updates. This is reflected in the significant reduction of attack success rate as iterations increase, ultimately failing. We use a new metric to quantify the degree of this weakened backdoor effect, called attack persistence. Given that research to improve this performance has not been widely noted,we propose a Full Combination Backdoor Attack (FCBA) method. It aggregates more combined trigger information for a more complete backdoor pattern in the global model. Trained backdoored global model is more resilient to benign updates, leading to a higher attack success rate on the test set. We test on three datasets and evaluate with two models across various settings. FCBA's persistence outperforms SOTA federated learning backdoor attacks. On GTSRB, postattack 120 rounds, our attack success rate rose over 50% from baseline. The core code of our method is available at https://github.com/PhD-TaoLiu/FCBA.

Published

2024

10. An adaptive Euler-Maruyama scheme for SDDEs

Author

Liu, Dongyang, Song, Minghui, and Zhang, Yuhang

Subjects

Mathematics - Numerical Analysis

Abstract

This paper proposes an adaptive numerical method for stochastic delay differential equations (SDDEs) with a non-global Lipschitz drift term and a non-constant delay, building upon the work of Wei Fang and others. The method adapts the step size based on the growth of the drift term. Differing slightly from the conventional Euler-Maruyama format, this paper addresses the estimation of the delay term by substituting it with the numerically obtained solution closest to the left endpoint.This approach overcomes the challenge of numerical nodes not falling within the nodes after subtracting the delay. The paper proves the convergence of the numerical method for a class of non-global Lipschitz continuous SDDEs under the assumption that the step size function satisfies certain conditions., Comment: There are some details in the paper that are incorrect

Published

2024

11. Faceptor: A Generalist Model for Face Perception

Author

Qin, Lixiong, Wang, Mei, Liu, Xuannan, Zhang, Yuhang, Deng, Wei, Song, Xiaoshuai, Xu, Weiran, and Deng, Weihong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

With the comprehensive research conducted on various face analysis tasks, there is a growing interest among researchers to develop a unified approach to face perception. Existing methods mainly discuss unified representation and training, which lack task extensibility and application efficiency. To tackle this issue, we focus on the unified model structure, exploring a face generalist model. As an intuitive design, Naive Faceptor enables tasks with the same output shape and granularity to share the structural design of the standardized output head, achieving improved task extensibility. Furthermore, Faceptor is proposed to adopt a well-designed single-encoder dual-decoder architecture, allowing task-specific queries to represent new-coming semantics. This design enhances the unification of model structure while improving application efficiency in terms of storage overhead. Additionally, we introduce Layer-Attention into Faceptor, enabling the model to adaptively select features from optimal layers to perform the desired tasks. Through joint training on 13 face perception datasets, Faceptor achieves exceptional performance in facial landmark localization, face parsing, age estimation, expression recognition, binary attribute classification, and face recognition, achieving or surpassing specialized methods in most tasks. Our training framework can also be applied to auxiliary supervised learning, significantly improving performance in data-sparse tasks such as age estimation and expression recognition. The code and models will be made publicly available at https://github.com/lxq1000/Faceptor.

Published

2024

12. A robust MPC-based vehicle stability control strategy for four-wheel independent drive electric vehicles considering IGBT thermal effect

Author

Wang, Weida, Yuan, Shilong, Yang, Chao, and Zhang, Yuhang

Published

2024

13. Activation mechanisms of slip systems during hot single point incremental forming of AA2024 sheet

Author

Li, Zhengfang, Gao, Zhengyuan, An, Zhiguo, Lin, Han, Sun, Pengfei, Ren, Zhong, Qiao, Zhengyang, Zhang, Yuhang, Jia, Youdong, and Li, Zhibing

Published

2024

14. Correlation between tumor budding and the long-term follow-up outcomes after endoscopic submucosal dissection for superficial esophageal squamous cell carcinoma

Author

Liu, Cenqin, Ye, Liansong, Peng, Tingfa, Chen, Liuxiang, Zhang, Yuhang, Zhou, Yang, Du, Jiang, Bai, Shuai, Luo, Yonghong, Zhang, Wanhong, Li, Jia, Zhang, Yingjie, Wen, Wu, Chen, Zonghua, Liu, Yi, Sun, Zhongshang, Pan, Feng, Yuan, Xianglei, Liu, Wei, Mou, Yi, Zhang, Qiongying, and Hu, Bing

Published

2024

15. Loading/Unloading Response of Crystalline Rocks with Varied Thermal-Damaged Degrees to Cyclic Compression Using a Grain-Based Model

Author

Xu, Ling, Zhang, Yuhang, Huang, Xiaolin, and Du, Jiahu

Published

2024

16. Impact of Nitrogen Use Efficiency Towards Ammonia-Oxidizing Microbes in Rhizosphere Soil of Intercropped Soybean and Maize

Author

Zhang, Yuhang, Zhang, Runzhi, Zhao, Shuchang, Li, Shumin, and Meng, Lingbo

Published

2024

17. Papillary Thyroid Carcinoma: Correlation Between Molecular and Clinical Features

Author

Wang, Qiang, Yu, Bo, Zhang, Shuilong, Wang, Dongliang, Xiao, Zhifu, Meng, Hongjing, Dong, Lingxiang, Zhang, Yuhang, Wu, Jie, Hou, Zebin, Zhu, Yunji, and Li, Dewei

Published

2024

18. Tb3+-sensitized Yb3+ downshifting emission, host-sensitized Yb3+ quantum-cutting emission, Yb3+ sensitized Tb3+ upconversion emissions, and special thermal quenching mechanism in Tb3+/Yb3+-doped NaY(WO4)2 phosphors

Author

Gao, Duan, Liu, Shengyi, Zhang, Xizhen, Zhang, Jinsu, Xu, Sai, Li, Xiangping, Cao, Yongze, Wang, Yichao, Yu, Hongquan, Zhang, Yuhang, Sha, Xuezhu, Wang, Li, Chen, Xin, and Chen, Baojiu

Published

2024

19. A Middle Way to Traffic Enlightenment

Author

Nice, Matthew W., Gunter, George, Ji, Junyi, Zhang, Yuhang, Bunting, Matthew, Barbour, Will, Sprinkle, Jonathan, and Work, Dan

Subjects

Computer Science - Robotics

Abstract

This paper introduces a novel approach that seeks a middle ground for traffic control in multi-lane congestion, where prevailing traffic speeds are too fast, and speed recommendations designed to dampen traffic waves are too slow. Advanced controllers that modify the speed of an automated car for wave-dampening, eco-driving, or other goals, typically are designed with forward collision safety in mind. Our approach goes further, by considering how dangerous it can be for a controller to drive so slowly relative to prevailing traffic that it creates a significant issue for safety and comfort. This paper explores open-road scenarios where large gaps between prevailing speeds and desired speeds can exist, specifically when infrastructure-based variable speed limit systems are not strictly followed at all times by other drivers. Our designed, implemented, and deployed algorithm is able to follow variable speed limits when others also follow it, avoid collisions with vehicles ahead, and adapt to prevailing traffic when other motorists are traveling well above the posted speeds. The key is to reject unsafe speed recommendations from infrastructure-based traffic smoothing systems, based on real-time local traffic conditions observed by the vehicle under control. This solution is implemented and deployed on two control vehicles in heavy multi-lane highway congestion. The results include analysis from system design, and field tests that validate the system's performance using an existing Variable Speed Limit system as the external source for speed recommendations, and the on-board sensors of a stock Toyota Rav4 for inputs that estimate the prevailing speed of traffic around the vehicle under control., Comment: To Appear, ICCPS 2024

Published

2024

20. Quantum Oscillations in kagome metals CsTi3Bi5 and RbTi3Bi5

Author

Rehfuss, Zackary, Broyles, Christopher, Graf, David, Li, Yongkang, Tan, Hengxin, Zhao, Zhen, Liu, Jiali, Zhang, Yuhang, Dong, Xiaoli, Yang, Haitao, Gao, Hongjun, Yan, Binghai, and Ran, Sheng

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We report quantum oscillation measurements on the kagome compounds ATi$_3$Bi$_5$ (A=Rb, Cs) in magnetic fields up to 41.5 T and temperatures down to 350 mK. In addition to the frequencies observed in previous studies, we have observed multiple unreported frequencies above 2000 T in CsTi$_3$Bi$_5$ using a tunnel diode oscillator technique. We compare these results against density functional theory calculations and find good agreement with the calculations in the number of peaks observed, frequency, and the dimensionality of the Fermi surface. For RbTi$_3$Bi$_5$ we have obtained a different quantum oscillation spectrum, although calculated quantum oscillation frequencies for the Rb compound are remarkably similar to the Cs compound, calling for further studies.

Published

2024

21. Open-Set Facial Expression Recognition

Author

Zhang, Yuhang, Yao, Yue, Liu, Xuannan, Qin, Lixiong, Wang, Wenjing, and Deng, Weihong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Facial expression recognition (FER) models are typically trained on datasets with a fixed number of seven basic classes. However, recent research works point out that there are far more expressions than the basic ones. Thus, when these models are deployed in the real world, they may encounter unknown classes, such as compound expressions that cannot be classified into existing basic classes. To address this issue, we propose the open-set FER task for the first time. Though there are many existing open-set recognition methods, we argue that they do not work well for open-set FER because FER data are all human faces with very small inter-class distances, which makes the open-set samples very similar to close-set samples. In this paper, we are the first to transform the disadvantage of small inter-class distance into an advantage by proposing a new way for open-set FER. Specifically, we find that small inter-class distance allows for sparsely distributed pseudo labels of open-set samples, which can be viewed as symmetric noisy labels. Based on this novel observation, we convert the open-set FER to a noisy label detection problem. We further propose a novel method that incorporates attention map consistency and cycle training to detect the open-set samples. Extensive experiments on various FER datasets demonstrate that our method clearly outperforms state-of-the-art open-set recognition methods by large margins. Code is available at https://github.com/zyh-uaiaaaa., Comment: Accepted by AAAI2024

Published

2024

22. UMG-CLIP: A Unified Multi-Granularity Vision Generalist for Open-World Understanding

Author

Shi, Bowen, Zhao, Peisen, Wang, Zichen, Zhang, Yuhang, Wang, Yaoming, Li, Jin, Dai, Wenrui, Zou, Junni, Xiong, Hongkai, Tian, Qi, and Zhang, Xiaopeng

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Vision-language foundation models, represented by Contrastive Language-Image Pre-training (CLIP), have gained increasing attention for jointly understanding both vision and textual tasks. However, existing approaches primarily focus on training models to match global image representations with textual descriptions, thereby overlooking the critical alignment between local regions and corresponding text tokens. This paper extends CLIP with multi-granularity alignment. Notably, we deliberately construct a new dataset comprising pseudo annotations at various levels of granularities, encompassing image-level, region-level as well as pixel-level captions and tags. Accordingly, we develop a Unified Multi-Granularity learning framework, termed UMG-CLIP, which simultaneously empowers the model with versatile perception abilities across different levels of detail. With parameter efficient tuning, UMG-CLIP surpasses current widely used CLIP variants and achieves state-of-the-art performance on diverse image understanding benchmarks, including open-world recognition, retrieval, semantic segmentation, and panoptic segmentation tasks. We believe that UMG-CLIP represents a valuable advancement in vision-language foundation models. The code is available at https://github.com/lygsbw/UMG-CLIP., Comment: ECCV 2024

Published

2024

23. DeLR: Active Learning for Detection with Decoupled Localization and Recognition Query

Author

Zhang, Yuhang, Deng, Yuang, Zhang, Xiaopeng, Li, Jie, Qiu, Robert C., and Tian, Qi

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Active learning has been demonstrated effective to reduce labeling cost, while most progress has been designed for image recognition, there still lacks instance-level active learning for object detection. In this paper, we rethink two key components, i.e., localization and recognition, for object detection, and find that the correctness of them are highly related, therefore, it is not necessary to annotate both boxes and classes if we are given pseudo annotations provided with the trained model. Motivated by this, we propose an efficient query strategy, termed as DeLR, that Decoupling the Localization and Recognition for active query. In this way, we are probably free of class annotations when the localization is correct, and able to assign the labeling budget for more informative samples. There are two main differences in DeLR: 1) Unlike previous methods mostly focus on image-level annotations, where the queried samples are selected and exhausted annotated. In DeLR, the query is based on region-level, and we only annotate the object region that is queried; 2) Instead of directly providing both localization and recognition annotations, we separately query the two components, and thus reduce the recognition budget with the pseudo class labels provided by the model. Experiments on several benchmarks demonstrate its superiority. We hope our proposed query strategy would shed light on researches in active learning in object detection.

Published

2023

24. AdvCloak: Customized Adversarial Cloak for Privacy Protection

Author

Liu, Xuannan, Zhong, Yaoyao, Cui, Xing, Zhang, Yuhang, Li, Peipei, and Deng, Weihong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

With extensive face images being shared on social media, there has been a notable escalation in privacy concerns. In this paper, we propose AdvCloak, an innovative framework for privacy protection using generative models. AdvCloak is designed to automatically customize class-wise adversarial masks that can maintain superior image-level naturalness while providing enhanced feature-level generalization ability. Specifically, AdvCloak sequentially optimizes the generative adversarial networks by employing a two-stage training strategy. This strategy initially focuses on adapting the masks to the unique individual faces via image-specific training and then enhances their feature-level generalization ability to diverse facial variations of individuals via person-specific training. To fully utilize the limited training data, we combine AdvCloak with several general geometric modeling methods, to better describe the feature subspace of source identities. Extensive quantitative and qualitative evaluations on both common and celebrity datasets demonstrate that AdvCloak outperforms existing state-of-the-art methods in terms of efficiency and effectiveness.

Published

2023

25. Vision-based Learning for Drones: A Survey

Author

Xiao, Jiaping, Zhang, Rangya, Zhang, Yuhang, and Feroskhan, Mir

Subjects

Computer Science - Robotics, Computer Science - Artificial Intelligence

Abstract

Drones as advanced cyber-physical systems are undergoing a transformative shift with the advent of vision-based learning, a field that is rapidly gaining prominence due to its profound impact on drone autonomy and functionality. Different from existing task-specific surveys, this review offers a comprehensive overview of vision-based learning in drones, emphasizing its pivotal role in enhancing their operational capabilities under various scenarios. We start by elucidating the fundamental principles of vision-based learning, highlighting how it significantly improves drones' visual perception and decision-making processes. We then categorize vision-based control methods into indirect, semi-direct, and end-to-end approaches from the perception-control perspective. We further explore various applications of vision-based drones with learning capabilities, ranging from single-agent systems to more complex multi-agent and heterogeneous system scenarios, and underscore the challenges and innovations characterizing each area. Finally, we explore open questions and potential solutions, paving the way for ongoing research and development in this dynamic and rapidly evolving field. With growing large language models (LLMs) and embodied intelligence, vision-based learning for drones provides a promising but challenging road towards artificial general intelligence (AGI) in 3D physical world.

Published

2023

26. A New Phenylpropanoid Compound from the Bulbs of Lilium brownii

Author

Ji, Mengshan, He, Shuaibo, Zhang, Yuhang, Shi, Jiaqi, Wei, Wenjun, and Guo, Tao

Published

2024

27. Reply to: NO2 satellite retrievals biased by absorption in water

Author

Kong, Hao, Lin, Jintai, Tang, Guiqian, Zhang, Yuhang, Li, Chunjin, Xu, Chenghao, Shen, Lu, Liu, Xuejun, Yang, Kun, Su, Hang, Xu, Wanyun, and Tan, Wanshan

Published

2024

28. UMG-CLIP: A Unified Multi-granularity Vision Generalist for Open-World Understanding

Author

Shi, Bowen, Zhao, Peisen, Wang, Zichen, Zhang, Yuhang, Wang, Yaoming, Li, Jin, Dai, Wenrui, Zou, Junni, Xiong, Hongkai, Tian, Qi, Zhang, Xiaopeng, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Leonardis, Aleš, editor, Ricci, Elisa, editor, Roth, Stefan, editor, Russakovsky, Olga, editor, Sattler, Torsten, editor, and Varol, Gül, editor

Published

2025

29. Patchlpr: a multi-level feature fusion transformer network for LiDAR-based place recognition

Author

Sun, Yang, Guo, Jianhua, Wang, Haiyang, Zhang, Yuhang, Zheng, Jiushuai, and Tian, Bin

Published

2024

30. SES-YOLOv8n: automatic driving object detection algorithm based on improved YOLOv8

Author

Sun, Yang, Zhang, Yuhang, Wang, Haiyang, Guo, Jianhua, Zheng, Jiushuai, and Ning, Haonan

Published

2024

31. Signature of superconductivity in pressurized La$_4$Ni$_3$O$_{10}$

Author

Li, Qing, Zhang, Ying-Jie, Xiang, Zhe-Ning, Zhang, Yuhang, Zhu, Xiyu, and Wen, Hai-Hu

Subjects

Condensed Matter - Superconductivity

Abstract

The discovery of high-temperature superconductivity near 80 K in bilayer nickelate La$_3$Ni$_2$O$_7$ under high pressures has renewed the exploration of superconducting nickelate in bulk materials. The extension of superconductivity in other nickelates in a broader family is also essential. Here, we report the experimental observation of superconducting signature in trilayer nickelate La$_4$Ni$_3$O$_{10}$ under high pressures. By using a modified sol-gel method and post-annealing treatment under high oxygen pressure, we successfully obtained polycrystalline La$_4$Ni$_3$O$_{10}$ samples with different transport behaviors at ambient pressure. Then we performed high-pressure electrical resistance measurements on these samples in a diamond-anvil-cell (DAC) apparatus. Surprisingly, the signature of possible superconducting transition with a maximum transition temperature ($T_\text{c}$) of about 20 K under high pressures is observed, as evidenced by a clear drop of resistance and the suppression of resistance drops under magnetic fields. Although the resistance drop is sample-dependent and relatively small, it appears in all of our measured samples. We argue that the observed superconducting signal is most likely to originate from the main phase of La$_4$Ni$_3$O$_{10}$. Our findings will motivate the exploration of superconductivity in a broader family of nickelates and shed light on the understanding of the underlying mechanisms of high-$T_\text{c}$ superconductivity in nickelates., Comment: 17 pages, 5 figures

Published

2023

32. Leave No Stone Unturned: Mine Extra Knowledge for Imbalanced Facial Expression Recognition

Author

Zhang, Yuhang, Li, Yaqi, Qin, Lixiong, Liu, Xuannan, and Deng, Weihong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Facial expression data is characterized by a significant imbalance, with most collected data showing happy or neutral expressions and fewer instances of fear or disgust. This imbalance poses challenges to facial expression recognition (FER) models, hindering their ability to fully understand various human emotional states. Existing FER methods typically report overall accuracy on highly imbalanced test sets but exhibit low performance in terms of the mean accuracy across all expression classes. In this paper, our aim is to address the imbalanced FER problem. Existing methods primarily focus on learning knowledge of minor classes solely from minor-class samples. However, we propose a novel approach to extract extra knowledge related to the minor classes from both major and minor class samples. Our motivation stems from the belief that FER resembles a distribution learning task, wherein a sample may contain information about multiple classes. For instance, a sample from the major class surprise might also contain useful features of the minor class fear. Inspired by that, we propose a novel method that leverages re-balanced attention maps to regularize the model, enabling it to extract transformation invariant information about the minor classes from all training samples. Additionally, we introduce re-balanced smooth labels to regulate the cross-entropy loss, guiding the model to pay more attention to the minor classes by utilizing the extra information regarding the label distribution of the imbalanced training data. Extensive experiments on different datasets and backbones show that the two proposed modules work together to regularize the model and achieve state-of-the-art performance under the imbalanced FER task. Code is available at https://github.com/zyh-uaiaaaa., Comment: Accepted by NeurIPS2023

Published

2023

33. MARVEL: Multi-Agent Reinforcement-Learning for Large-Scale Variable Speed Limits

Author

Zhang, Yuhang, Quinones-Grueiro, Marcos, Zhang, Zhiyao, Wang, Yanbing, Barbour, William, Biswas, Gautam, and Work, Daniel

Subjects

Computer Science - Multiagent Systems, Computer Science - Machine Learning

Abstract

Variable Speed Limit (VSL) control acts as a promising highway traffic management strategy with worldwide deployment, which can enhance traffic safety by dynamically adjusting speed limits according to real-time traffic conditions. Most of the deployed VSL control algorithms so far are rule-based, lacking generalizability under varying and complex traffic scenarios. In this work, we propose MARVEL (Multi-Agent Reinforcement-learning for large-scale Variable spEed Limits), a novel framework for large-scale VSL control on highway corridors with real-world deployment settings. MARVEL utilizes only sensing information observable in the real world as state input and learns through a reward structure that incorporates adaptability to traffic conditions, safety, and mobility, thereby enabling multi-agent coordination. With parameter sharing among all VSL agents, the proposed framework scales to cover corridors with many agents. The policies are trained in a microscopic traffic simulation environment, focusing on a short freeway stretch with 8 VSL agents spanning 7 miles. For testing, these policies are applied to a more extensive network with 34 VSL agents spanning 17 miles of I-24 near Nashville, TN, USA. MARVEL-based method improves traffic safety by 63.4% compared to the no control scenario and enhances traffic mobility by 58.6% compared to a state-of-the-practice algorithm that has been deployed on I-24. Besides, we conduct an explainability analysis to examine the decision-making process of the agents and explore the learned policy under different traffic conditions. Finally, we test the response of the policy learned from the simulation-based experiments with real-world data collected from I-24 and illustrate its deployment capability.

Published

2023

34. Investigating the Robustness and Properties of Detection Transformers (DETR) Toward Difficult Images

Author

Zou, Zhao Ning, Zhang, Yuhang, and Wijaya, Robert

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Transformer-based object detectors (DETR) have shown significant performance across machine vision tasks, ultimately in object detection. This detector is based on a self-attention mechanism along with the transformer encoder-decoder architecture to capture the global context in the image. The critical issue to be addressed is how this model architecture can handle different image nuisances, such as occlusion and adversarial perturbations. We studied this issue by measuring the performance of DETR with different experiments and benchmarking the network with convolutional neural network (CNN) based detectors like YOLO and Faster-RCNN. We found that DETR performs well when it comes to resistance to interference from information loss in occlusion images. Despite that, we found that the adversarial stickers put on the image require the network to produce a new unnecessary set of keys, queries, and values, which in most cases, results in a misdirection of the network. DETR also performed poorer than YOLOv5 in the image corruption benchmark. Furthermore, we found that DETR depends heavily on the main query when making a prediction, which leads to imbalanced contributions between queries since the main query receives most of the gradient flow.

Published

2023

35. Constructing Synthetic Treatment Groups without the Mean Exchangeability Assumption

Author

Zhang, Yuhang, Liu, Yue, and Zhang, Zhihua

Subjects

Statistics - Machine Learning, Computer Science - Machine Learning

Abstract

The purpose of this work is to transport the information from multiple randomized controlled trials to the target population where we only have the control group data. Previous works rely critically on the mean exchangeability assumption. However, as pointed out by many current studies, the mean exchangeability assumption might be violated. Motivated by the synthetic control method, we construct a synthetic treatment group for the target population by a weighted mixture of treatment groups of source populations. We estimate the weights by minimizing the conditional maximum mean discrepancy between the weighted control groups of source populations and the target population. We establish the asymptotic normality of the synthetic treatment group estimator based on the sieve semiparametric theory. Our method can serve as a novel complementary approach when the mean exchangeability assumption is violated. Experiments are conducted on synthetic and real-world datasets to demonstrate the effectiveness of our methods.

Published

2023

36. Survey on Deep Face Restoration: From Non-blind to Blind and Beyond

Author

Li, Wenjie, Wang, Mei, Zhang, Kai, Li, Juncheng, Li, Xiaoming, Zhang, Yuhang, Gao, Guangwei, Deng, Weihong, and Lin, Chia-Wen

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Face restoration (FR) is a specialized field within image restoration that aims to recover low-quality (LQ) face images into high-quality (HQ) face images. Recent advances in deep learning technology have led to significant progress in FR methods. In this paper, we begin by examining the prevalent factors responsible for real-world LQ images and introduce degradation techniques used to synthesize LQ images. We also discuss notable benchmarks commonly utilized in the field. Next, we categorize FR methods based on different tasks and explain their evolution over time. Furthermore, we explore the various facial priors commonly utilized in the restoration process and discuss strategies to enhance their effectiveness. In the experimental section, we thoroughly evaluate the performance of state-of-the-art FR methods across various tasks using a unified benchmark. We analyze their performance from different perspectives. Finally, we discuss the challenges faced in the field of FR and propose potential directions for future advancements. The open-source repository corresponding to this work can be found at https:// github.com/ 24wenjie-li/ Awesome-Face-Restoration., Comment: Face restoration, Survey, Deep learning, Non-blind/Blind, Joint restoration tasks, Facial priors

Published

2023

37. Calibration-based Dual Prototypical Contrastive Learning Approach for Domain Generalization Semantic Segmentation

Author

Liao, Muxin, Tian, Shishun, Zhang, Yuhang, Hua, Guoguang, Zou, Wenbin, and Li, Xia

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Prototypical contrastive learning (PCL) has been widely used to learn class-wise domain-invariant features recently. These methods are based on the assumption that the prototypes, which are represented as the central value of the same class in a certain domain, are domain-invariant. Since the prototypes of different domains have discrepancies as well, the class-wise domain-invariant features learned from the source domain by PCL need to be aligned with the prototypes of other domains simultaneously. However, the prototypes of the same class in different domains may be different while the prototypes of different classes may be similar, which may affect the learning of class-wise domain-invariant features. Based on these observations, a calibration-based dual prototypical contrastive learning (CDPCL) approach is proposed to reduce the domain discrepancy between the learned class-wise features and the prototypes of different domains for domain generalization semantic segmentation. It contains an uncertainty-guided PCL (UPCL) and a hard-weighted PCL (HPCL). Since the domain discrepancies of the prototypes of different classes may be different, we propose an uncertainty probability matrix to represent the domain discrepancies of the prototypes of all the classes. The UPCL estimates the uncertainty probability matrix to calibrate the weights of the prototypes during the PCL. Moreover, considering that the prototypes of different classes may be similar in some circumstances, which means these prototypes are hard-aligned, the HPCL is proposed to generate a hard-weighted matrix to calibrate the weights of the hard-aligned prototypes during the PCL. Extensive experiments demonstrate that our approach achieves superior performance over current approaches on domain generalization semantic segmentation tasks., Comment: Accepted by ACM MM'23

Published

2023

38. Headspace Solid-Phase Microextraction Coupled to Gas Chromatography-Mass Spectrometry for Analysis of Differences in Aroma composition of Jasminum sambac ‘Bijian Danban Moli’ flowers at Different Opening Stages

Author

ZHANG Yuhang, GU Mengya, XU Mengting, LIN Hongzheng, HONG Yaping, YANG Wenwen, WANG Pengjie, YE Naixing

Subjects

jasminum sambac ‘bijian danban moli’, jasminum sambac ‘shuangban moli’, aroma components, differential metabolites, odor activity value, Food processing and manufacture, TP368-456

Abstract

In order to study dynamic changes and variations in aroma between single- and double- petal jasmine flowers (Jasminum sambac) during the opening process, headspace solid-phase microextraction (HS-SPME) coupled to gas chromatography-mass spectrometry (GC-MS) was used for qualitative and quantitative analysis of jasmine aroma components at different opening periods. The results showed that phenylacetaldehyde, methyl anthranilate, methyl benzoate, α-farnesene, benzyl acetate were the major aroma components of jasmine flower. The contents of aroma components such as β-ethyl phenylacetate, methyl anthranilate, α-stigmasterol and α-farnesene in single-pedal jasmine flowers initially increased and subsequently decreased during the opening process, and so did the contents of aroma components such as benzyl acetate, cis-3-hexenyl benzoate and benzyl benzoate in double-petal jasmine flowers, being higher at the end than in the beginning of the opening period. In addition, benzaldehyde, phenylacetaldehyde, and β-ethyl phenylacetate were the key substances responsible for the fresh and clean aroma of single-pedal jasmine flowers, while hexyl benzoate, cis-3-hexenyl benzoate, and α-farnesene were the key substances contributing to the strong floral aroma of double-petal jasmine flowers. This study provides a basis for the application of single-pedal jasmine flowers in jasmine tea production.

Published

2024

39. Central Regions of Three Types of Fengxiangxing Daqu: Multidimensional Characterization and Difference and Correlation Analysis

Author

CAO Dan, LÜ Jiali, CHU Jingying, XU Shuangshuang, JIN Chengyong, ZHANG Yongli, ZHANG Yuhang

Subjects

fengxiangxing daqu, daqu’s center, microscopic characterization, physicochemical properties, fungal diversity, volatile flavor components, Food processing and manufacture, TP368-456

Abstract

The central regions with the most significant sensory characteristics (denoted as HXH, HRA and QCU, respectively) of three kinds of Fengxiangxing Daqu, namely, Hongxinqu, Huairangqu and Qingchaqu, were characterized for microscopic features, physicochemical properties, fungal communities, and volatile substances. The significant differences in and the correlation between fungal communities and physicochemical properties and volatile substances were analyzed. The results showed that the core fungi in HXH were Aspergillus, Monascus and Saccharomycopsis, while those in HRA and QCU were Aspergillus and Saccharomycopsis. HXH had the highest moisture content, acidity and starch content, followed by HRA, and the lowest level for QCU. HRA had the highest saccharification and fermentation power, followed by QCU and the lowest level for HXH. Esterification power was the highest in QCU, followed by HRA, and the lowest in HXH. Totally 155, 115 and 113 volatile substances were detected in HXH, HRA and QCU, respectively, the major ones being esters, alcohols, aldehydes, ketones, and pyrazines. The highest contents of alcohols and ketones were found in HXH, the highest contents of alcohols and aldehydes in HRA, and the highest content of pyrazines in QCU. The abundance of Monascus was significantly positively correlated with acidity and the contents of moisture, starch, esters, acids, aldehydes and ketones (P < 0.05); the abundance of Saccharomycopsis was positively correlated with esterification power and pyrazine content; the abundance of Aspergillus was positively correlated with fermentation power, saccharification power and alcohol content. The results of this study have theoretical significance and practical value for improving the quality evaluation system of Daqu quality.

Published

2024

40. Rational Design to Improve the Thermostability of Cutinase for Aqueous-Phase Synthesis of Flavor Ester

Author

LIN Liangcai, XIAO Dongting, YUAN Yuxuan, FANG Chao, ZHANG Yuhang, ZHANG Cuiying

Subjects

baijiu, cutinase, thermostability, aqueous-phase system, Food processing and manufacture, TP368-456

Abstract

In order to improve the thermal stability of cutinase AFLACUT-2, the mutants were predicted and screened based on the change of free energy (ΔΔG) for protein folding, and the enzymatic properties of the selected mutant were characterized. The results showed that the thermal stability of mutant Q163M was significantly improved without affecting the enzymatic activity, which retained 86.09% of its activity when incubated at 40 ℃ for 168 h, compared with that of the wild-type strain. At 60 ℃, the half-life of the mutant was 1.68 times higher than that of the wild-type strain. In addition, compared with the wild-type strain, mutant Q163M showed better tolerance to an acidic environment. The mechanism for improved thermal stability of mutant Q163M was elucidated by intermolecular forces and molecular dynamic simulation. These results provide a basis for rationally modifying the thermal stability of cutinase and improving its capacity for the aqueous-phase synthesis of flavor ester at high temperature.

Published

2024

41. Enhancing Generalization of Universal Adversarial Perturbation through Gradient Aggregation

Author

Liu, Xuannan, Zhong, Yaoyao, Zhang, Yuhang, Qin, Lixiong, and Deng, Weihong

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Deep neural networks are vulnerable to universal adversarial perturbation (UAP), an instance-agnostic perturbation capable of fooling the target model for most samples. Compared to instance-specific adversarial examples, UAP is more challenging as it needs to generalize across various samples and models. In this paper, we examine the serious dilemma of UAP generation methods from a generalization perspective -- the gradient vanishing problem using small-batch stochastic gradient optimization and the local optima problem using large-batch optimization. To address these problems, we propose a simple and effective method called Stochastic Gradient Aggregation (SGA), which alleviates the gradient vanishing and escapes from poor local optima at the same time. Specifically, SGA employs the small-batch training to perform multiple iterations of inner pre-search. Then, all the inner gradients are aggregated as a one-step gradient estimation to enhance the gradient stability and reduce quantization errors. Extensive experiments on the standard ImageNet dataset demonstrate that our method significantly enhances the generalization ability of UAP and outperforms other state-of-the-art methods. The code is available at https://github.com/liuxuannan/Stochastic-Gradient-Aggregation.

Published

2023

42. Ferromagnetism and insulating behavior with a logarithmic temperature dependence of resistivity in $Pb_{10-x}Cu_x\left( PO_4 \right) _6O$

Author

Zhang, Yuhang, Liu, Cong, Zhu, Xiyu, and Wen, Hai-Hu

Subjects

Condensed Matter - Superconductivity

Abstract

Recent claim of discovering above-room-temperature superconductivity (Tc about 400 K) at ambient pressure in copper doped apatite $Pb_{10}\left( PO_4 \right) _6O$ has stimulated world-wide enthusiasm and impulse of motion. A lot of follow-up works have been carried out with controversial conclusions. To check whether superconductivity is really present or absent in the material, we need samples which should have a rather pure phase of $Pb_{10-x}Cu_x\left( PO_4 \right) _6O$. Here we report the characterization results from the $Pb_{10-x}Cu_x\left( PO_4 \right) _6O$ with a fraction of about 97 wt.% inferred from the fitting to the x-ray diffraction pattern. The resistivity measurements show that it is a semiconductor characterized roughly by a ln(1/T) temperature dependence in wide temperature region without trace of superconductivity. Magnetization measurements show that it has a general ferromagnetic signal with a weak superparamagnetic background. Many grains of the sample show clear interactions with a NbFeB magnet. The detected Cu concentration is much lower than the expected nominal one and the conduction may be improved if more Cu atoms are successfully doped into the system. Our results show the absence of metallicity and superconductivity in $Pb_{10-x}Cu_x\left( PO_4 \right) _6O$ at ambient pressure, and suggest the presence of strong correlation effect., Comment: 6 Pages,5 figures

Published

2023

43. CAV Traffic Control to Mitigate the Impact of Congestion from Bottlenecks: A Linear Quadratic Regulator Approach and Microsimulation Study

Author

Vishnoi, Suyash C., Ji, Junyi, Bahavarnia, MirSaleh, Zhang, Yuhang, Taha, Ahmad F., Claudel, Christian G., and Work, Daniel B.

Subjects

Electrical Engineering and Systems Science - Systems and Control

Abstract

This work investigates traffic control via controlled connected and automated vehicles (CAVs) using novel controllers derived from the linear-quadratic regulator (LQR) theory. CAV-platoons are modeled as moving bottlenecks impacting the surrounding traffic with their speeds as control inputs. An iterative controller algorithm based on the LQR theory is proposed along with a variant that allows for penalizing abrupt changes in platoons speeds. The controllers use the Lighthill-Whitham-Richards (LWR) model implemented using an extended cell transmission model (CTM) which considers the capacity drop phenomenon for a realistic representation of traffic in congestion. The impact of various parameters of the proposed controller on the control performance is analyzed. The effectiveness of the proposed traffic control algorithms is tested using a traffic control example and compared with existing proportional-integral (PI)- and model predictive control (MPC)- based controllers from the literature. A case study using the TransModeler traffic microsimulation software is conducted to test the usability of the proposed controller as well as existing controllers in a realistic setting and derive qualitative insights. It is observed that the proposed controller works well in both settings to mitigate the impact of the jam caused by a fixed bottleneck. The computation time required by the controller is also small making it suitable for real-time control.

Published

2023

44. Risk factors for intraoperative pain during phacoemulsification in cataract patients

Author

Xu Su, Shao Jingzhi, Du Shanshan, Zhang Yuhang, Si Wei, Mao Yi, Tian Gengqi, and Zhang Fengyan

Subjects

pain, cataract, phacoemulsification, sleep, Ophthalmology, RE1-994

Abstract

AIM: To determine the patient-related risk factors for pain during phacoemulsification.METHODS: Retrospective case-control study. A total of 62 patients(62 eyes)diagnosed as cataract in the First Affiliated Hospital of Zhengzhou University from December 2023 to January 2024 were included. The numeric rating scale was used to assess the pain level within 5 min postoperatively. The highest pain value was used as the primary outcome during the procedure. Based on pain values, patients were divided into pain group(n=25)and pain-free group(n=37). Subsequently, patients in the pain group were further divided into mild(n=16), moderate(n=7), and severe groups(n=2). Spearman correlation and Logistic regression analysis were conducted to determine risk factors for pain during the phacoemulsification.RESULTS: Binary Logistic regression showed preoperative sleep durations and times of operations were important risk factors for intraoperative pain(all P

Published

2024

45. Temperature measurements of high-temperature surface in environments with interfering radiation using luminescence lifetime thermometry

Author

Wu, Yusong, Zhang, Yuhang, and Fu, Tairan

Published

2024

46. Superconductivity and nematic order in a new titanium-based kagome metal CsTi3Bi5 without charge density wave order

Author

Yang, Haitao, Ye, Yuhan, Zhao, Zhen, Liu, Jiali, Yi, Xin-Wei, Zhang, Yuhang, Xiao, Hongqin, Shi, Jinan, You, Jing-Yang, Huang, Zihao, Wang, Bingjie, Wang, Jing, Guo, Hui, Lin, Xiao, Shen, Chengmin, Zhou, Wu, Chen, Hui, Dong, Xiaoli, Su, Gang, Wang, Ziqiang, and Gao, Hong-Jun

Published

2024

47. Research on controlled mining of end slope fire-burned area in open-pit mine

Author

Wen, Yu, Song, Ziling, Fan, Junfu, Zhao, Xiaoliang, Zhang, Yuhang, Xia, Shiyang, and Long, Yifang

Published

2024

48. Total organic carbon content estimation for mixed shale using Xgboost method and implication for shale oil exploration

Author

Zhang, Yuhang, Zhang, Guanlong, Zhao, Weiwei, Zhou, Jian, Li, Kaiyuan, and Cheng, Zhong

Published

2024

49. Multi-domain interaction mediated strength-building in human α-actinin dimers unveiled by direct single-molecule quantification

Author

Zhang, Yuhang, Du, Jingyi, Liu, Xian, Shang, Fei, Deng, Yunxin, Ye, Jiaqing, Wang, Yukai, Yan, Jie, Chen, Hu, Yu, Miao, and Le, Shimin

Published

2024

50. SP2509, a specific antagonist of LSD1, exhibits antiviral properties against Porcine epidemic diarrhea virus

Author

Zhao, Xinyu, Zhang, Yuhang, Qu, Shiyin, Tang, Wuyang, He, Tianqiong, Li, Pishun, and Zheng, Xiaofeng

Published

2024