Your search keyword '"Wang, Zhengyi"' showing total 486 results

1. RDT-1B: a Diffusion Foundation Model for Bimanual Manipulation

Author

Liu, Songming, Wu, Lingxuan, Li, Bangguo, Tan, Hengkai, Chen, Huayu, Wang, Zhengyi, Xu, Ke, Su, Hang, and Zhu, Jun

Subjects

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

Abstract

Bimanual manipulation is essential in robotics, yet developing foundation models is extremely challenging due to the inherent complexity of coordinating two robot arms (leading to multi-modal action distributions) and the scarcity of training data. In this paper, we present the Robotics Diffusion Transformer (RDT), a pioneering diffusion foundation model for bimanual manipulation. RDT builds on diffusion models to effectively represent multi-modality, with innovative designs of a scalable Transformer to deal with the heterogeneity of multi-modal inputs and to capture the nonlinearity and high frequency of robotic data. To address data scarcity, we further introduce a Physically Interpretable Unified Action Space, which can unify the action representations of various robots while preserving the physical meanings of original actions, facilitating learning transferrable physical knowledge. With these designs, we managed to pre-train RDT on the largest collection of multi-robot datasets to date and scaled it up to 1.2B parameters, which is the largest diffusion-based foundation model for robotic manipulation. We finally fine-tuned RDT on a self-created multi-task bimanual dataset with over 6K+ episodes to refine its manipulation capabilities. Experiments on real robots demonstrate that RDT significantly outperforms existing methods. It exhibits zero-shot generalization to unseen objects and scenes, understands and follows language instructions, learns new skills with just 1~5 demonstrations, and effectively handles complex, dexterous tasks. We refer to https://rdt-robotics.github.io/rdt-robotics/ for the code and videos., Comment: 10 pages, conference

Published

2024

2. Real-world Adversarial Defense against Patch Attacks based on Diffusion Model

Author

Wei, Xingxing, Kang, Caixin, Dong, Yinpeng, Wang, Zhengyi, Ruan, Shouwei, Chen, Yubo, and Su, Hang

Subjects

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

Abstract

Adversarial patches present significant challenges to the robustness of deep learning models, making the development of effective defenses become critical for real-world applications. This paper introduces DIFFender, a novel DIFfusion-based DeFender framework that leverages the power of a text-guided diffusion model to counter adversarial patch attacks. At the core of our approach is the discovery of the Adversarial Anomaly Perception (AAP) phenomenon, which enables the diffusion model to accurately detect and locate adversarial patches by analyzing distributional anomalies. DIFFender seamlessly integrates the tasks of patch localization and restoration within a unified diffusion model framework, enhancing defense efficacy through their close interaction. Additionally, DIFFender employs an efficient few-shot prompt-tuning algorithm, facilitating the adaptation of the pre-trained diffusion model to defense tasks without the need for extensive retraining. Our comprehensive evaluation, covering image classification and face recognition tasks, as well as real-world scenarios, demonstrates DIFFender's robust performance against adversarial attacks. The framework's versatility and generalizability across various settings, classifiers, and attack methodologies mark a significant advancement in adversarial patch defense strategies. Except for the popular visible domain, we have identified another advantage of DIFFender: its capability to easily expand into the infrared domain. Consequently, we demonstrate the good flexibility of DIFFender, which can defend against both infrared and visible adversarial patch attacks alternatively using a universal defense framework.

Published

2024

3. MeshAnything V2: Artist-Created Mesh Generation With Adjacent Mesh Tokenization

Author

Chen, Yiwen, Wang, Yikai, Luo, Yihao, Wang, Zhengyi, Chen, Zilong, Zhu, Jun, Zhang, Chi, and Lin, Guosheng

Subjects

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

Abstract

We introduce MeshAnything V2, an autoregressive transformer that generates Artist-Created Meshes (AM) aligned to given shapes. It can be integrated with various 3D asset production pipelines to achieve high-quality, highly controllable AM generation. MeshAnything V2 surpasses previous methods in both efficiency and performance using models of the same size. These improvements are due to our newly proposed mesh tokenization method: Adjacent Mesh Tokenization (AMT). Different from previous methods that represent each face with three vertices, AMT uses a single vertex whenever possible. Compared to previous methods, AMT requires about half the token sequence length to represent the same mesh in average. Furthermore, the token sequences from AMT are more compact and well-structured, fundamentally benefiting AM generation. Our extensive experiments show that AMT significantly improves the efficiency and performance of AM generation. Project Page: https://buaacyw.github.io/meshanything-v2/, Comment: Project Page: https://buaacyw.github.io/meshanything-v2/ Github: https://github.com/buaacyw/MeshAnythingV2

Published

2024

4. Freeplane: Unlocking Free Lunch in Triplane-Based Sparse-View Reconstruction Models

Author

Sun, Wenqiang, Wang, Zhengyi, Chen, Shuo, Wang, Yikai, Chen, Zilong, Zhu, Jun, and Zhang, Jun

Subjects

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

Abstract

Creating 3D assets from single-view images is a complex task that demands a deep understanding of the world. Recently, feed-forward 3D generative models have made significant progress by training large reconstruction models on extensive 3D datasets, with triplanes being the preferred 3D geometry representation. However, effectively utilizing the geometric priors of triplanes, while minimizing artifacts caused by generated inconsistent multi-view images, remains a challenge. In this work, we present \textbf{Fre}quency modulat\textbf{e}d tri\textbf{plane} (\textbf{Freeplane}), a simple yet effective method to improve the generation quality of feed-forward models without additional training. We first analyze the role of triplanes in feed-forward methods and find that the inconsistent multi-view images introduce high-frequency artifacts on triplanes, leading to low-quality 3D meshes. Based on this observation, we propose strategically filtering triplane features and combining triplanes before and after filtering to produce high-quality textured meshes. These techniques incur no additional cost and can be seamlessly integrated into pre-trained feed-forward models to enhance their robustness against the inconsistency of generated multi-view images. Both qualitative and quantitative results demonstrate that our method improves the performance of feed-forward models by simply modulating triplanes. All you need is to modulate the triplanes during inference., Comment: project can be found in: https://freeplane3d.github.io/

Published

2024

5. Vidu4D: Single Generated Video to High-Fidelity 4D Reconstruction with Dynamic Gaussian Surfels

Author

Wang, Yikai, Wang, Xinzhou, Chen, Zilong, Wang, Zhengyi, Sun, Fuchun, and Zhu, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Video generative models are receiving particular attention given their ability to generate realistic and imaginative frames. Besides, these models are also observed to exhibit strong 3D consistency, significantly enhancing their potential to act as world simulators. In this work, we present Vidu4D, a novel reconstruction model that excels in accurately reconstructing 4D (i.e., sequential 3D) representations from single generated videos, addressing challenges associated with non-rigidity and frame distortion. This capability is pivotal for creating high-fidelity virtual contents that maintain both spatial and temporal coherence. At the core of Vidu4D is our proposed Dynamic Gaussian Surfels (DGS) technique. DGS optimizes time-varying warping functions to transform Gaussian surfels (surface elements) from a static state to a dynamically warped state. This transformation enables a precise depiction of motion and deformation over time. To preserve the structural integrity of surface-aligned Gaussian surfels, we design the warped-state geometric regularization based on continuous warping fields for estimating normals. Additionally, we learn refinements on rotation and scaling parameters of Gaussian surfels, which greatly alleviates texture flickering during the warping process and enhances the capture of fine-grained appearance details. Vidu4D also contains a novel initialization state that provides a proper start for the warping fields in DGS. Equipping Vidu4D with an existing video generative model, the overall framework demonstrates high-fidelity text-to-4D generation in both appearance and geometry., Comment: Project page: https://vidu4d-dgs.github.io

Published

2024

6. The role of LRG1 and LRG2's monopole in inferring the DESI 2024 BAO cosmology

Author

Wang, Zhengyi, Lin, Shijie, Ding, Zhejie, and Hu, Bin

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

The Dark Energy Spectroscopic Instrument (DESI) collaboration recently released its first year of data (DR1) on baryon acoustic oscillations (BAO) in galaxy, quasar, and Lyman-$\alpha$ forest tracers. When combined with CMB and SNIa data, DESI BAO results suggest potential thawing behavior in dark energy. Cosmological analyses utilize comoving distances along ($D_H$) and perpendicular to ($D_M$) the line of sight. Notably, there are $1\sim2\sigma$ deviations in $D_M$ and $D_H$ from Planck cosmology values in the luminous red galaxies (LRG) bins LRG1 and LRG2.This study examines the role of LRG1 and LRG2 in diverging DESI 2024 BAO cosmology from Planck cosmology. We use angle-averaged distance $D_V$ and the ratio $F_{\rm AP}=D_M/D_H$, which are more directly related to the measured monopole and quadrupole components of the galaxy power spectrum or correlation function, instead of the officially adopted $D_M$ and $D_H$. This transformation aims to isolate the influence of monopoles in LRG1 and LRG2 on deviations from $w=-1$. Our findings indicate that removing the $D_V$ data point in LRG2 aligns DESI + CMB + SNIa data compilation with $w=-1$ within a $2\sigma$ contour and reduces the $H_0$ discrepancy from the Planck 2018 results from $0.63\sigma$ to $0.31\sigma$. Similarly, excluding the $D_V$ data point from LRG1 shifts the $w_0/w_a$ contour toward $w=-1$, although no intersection occurs. This highlights the preference of both LRG1 and LRG2 BAO monopole components for the thawing dark energy model, with LRG2 showing a stronger preference. We provide the $D_V$ and $F_{\rm AP}$ data and their covariance alongside this paper., Comment: 8 pages, 5 figures

Published

2024

7. MicroDreamer: Efficient 3D Generation in $\sim$20 Seconds by Score-based Iterative Reconstruction

Author

Chen, Luxi, Wang, Zhengyi, Zhou, Zihan, Gao, Tingting, Su, Hang, Zhu, Jun, and Li, Chongxuan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Optimization-based approaches, such as score distillation sampling (SDS), show promise in zero-shot 3D generation but suffer from low efficiency, primarily due to the high number of function evaluations (NFEs) required for each sample and the limitation of optimization confined to latent space. This paper introduces score-based iterative reconstruction (SIR), an efficient and general algorithm mimicking a differentiable 3D reconstruction process to reduce the NFEs and enable optimization in pixel space. Given a single set of images sampled from a multi-view score-based diffusion model, SIR repeatedly optimizes 3D parameters, unlike the single-step optimization in SDS. With other improvements in training, we present an efficient approach called MicroDreamer that generally applies to various 3D representations and 3D generation tasks. In particular, MicroDreamer is 5-20 times faster than SDS in generating neural radiance field while retaining a comparable performance and takes about 20 seconds to create meshes from 3D Gaussian splatting on a single A100 GPU, halving the time of the fastest optimization-based baseline DreamGaussian with significantly superior performance compared to the measurement standard deviation. Our code is available at https://github.com/ML-GSAI/MicroDreamer.

Published

2024

8. FlexiDreamer: Single Image-to-3D Generation with FlexiCubes

Author

Zhao, Ruowen, Wang, Zhengyi, Wang, Yikai, Zhou, Zihan, and Zhu, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

3D content generation has wide applications in various fields. One of its dominant paradigms is by sparse-view reconstruction using multi-view images generated by diffusion models. However, since directly reconstructing triangle meshes from multi-view images is challenging, most methodologies opt to an implicit representation (such as NeRF) during the sparse-view reconstruction and acquire the target mesh by a post-processing extraction. However, the implicit representation takes extensive time to train and the post-extraction also leads to undesirable visual artifacts. In this paper, we propose FlexiDreamer, a novel framework that directly reconstructs high-quality meshes from multi-view generated images. We utilize an advanced gradient-based mesh optimization, namely FlexiCubes, for multi-view mesh reconstruction, which enables us to generate 3D meshes in an end-to-end manner. To address the reconstruction artifacts owing to the inconsistencies from generated images, we design a hybrid positional encoding scheme to improve the reconstruction geometry and an orientation-aware texture mapping to mitigate surface ghosting. To further enhance the results, we respectively incorporate eikonal and smooth regularizations to reduce geometric holes and surface noise. Our approach can generate high-fidelity 3D meshes in the single image-to-3D downstream task with approximately 1 minute, significantly outperforming previous methods., Comment: Project page: https://flexidreamer.github.io

Published

2024

9. DreamReward: Text-to-3D Generation with Human Preference

Author

Ye, Junliang, Liu, Fangfu, Li, Qixiu, Wang, Zhengyi, Wang, Yikai, Wang, Xinzhou, Duan, Yueqi, and Zhu, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Computation and Language, Computer Science - Machine Learning

Abstract

3D content creation from text prompts has shown remarkable success recently. However, current text-to-3D methods often generate 3D results that do not align well with human preferences. In this paper, we present a comprehensive framework, coined DreamReward, to learn and improve text-to-3D models from human preference feedback. To begin with, we collect 25k expert comparisons based on a systematic annotation pipeline including rating and ranking. Then, we build Reward3D -- the first general-purpose text-to-3D human preference reward model to effectively encode human preferences. Building upon the 3D reward model, we finally perform theoretical analysis and present the Reward3D Feedback Learning (DreamFL), a direct tuning algorithm to optimize the multi-view diffusion models with a redefined scorer. Grounded by theoretical proof and extensive experiment comparisons, our DreamReward successfully generates high-fidelity and 3D consistent results with significant boosts in prompt alignment with human intention. Our results demonstrate the great potential for learning from human feedback to improve text-to-3D models., Comment: Project page: https://jamesyjl.github.io/DreamReward

Published

2024

10. V3D: Video Diffusion Models are Effective 3D Generators

Author

Chen, Zilong, Wang, Yikai, Wang, Feng, Wang, Zhengyi, and Liu, Huaping

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Automatic 3D generation has recently attracted widespread attention. Recent methods have greatly accelerated the generation speed, but usually produce less-detailed objects due to limited model capacity or 3D data. Motivated by recent advancements in video diffusion models, we introduce V3D, which leverages the world simulation capacity of pre-trained video diffusion models to facilitate 3D generation. To fully unleash the potential of video diffusion to perceive the 3D world, we further introduce geometrical consistency prior and extend the video diffusion model to a multi-view consistent 3D generator. Benefiting from this, the state-of-the-art video diffusion model could be fine-tuned to generate 360degree orbit frames surrounding an object given a single image. With our tailored reconstruction pipelines, we can generate high-quality meshes or 3D Gaussians within 3 minutes. Furthermore, our method can be extended to scene-level novel view synthesis, achieving precise control over the camera path with sparse input views. Extensive experiments demonstrate the superior performance of the proposed approach, especially in terms of generation quality and multi-view consistency. Our code is available at https://github.com/heheyas/V3D, Comment: Code available at https://github.com/heheyas/V3D Project page: https://heheyas.github.io/V3D/

Published

2024

11. CRM: Single Image to 3D Textured Mesh with Convolutional Reconstruction Model

Author

Wang, Zhengyi, Wang, Yikai, Chen, Yifei, Xiang, Chendong, Chen, Shuo, Yu, Dajiang, Li, Chongxuan, Su, Hang, and Zhu, Jun

Subjects

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

Abstract

Feed-forward 3D generative models like the Large Reconstruction Model (LRM) have demonstrated exceptional generation speed. However, the transformer-based methods do not leverage the geometric priors of the triplane component in their architecture, often leading to sub-optimal quality given the limited size of 3D data and slow training. In this work, we present the Convolutional Reconstruction Model (CRM), a high-fidelity feed-forward single image-to-3D generative model. Recognizing the limitations posed by sparse 3D data, we highlight the necessity of integrating geometric priors into network design. CRM builds on the key observation that the visualization of triplane exhibits spatial correspondence of six orthographic images. First, it generates six orthographic view images from a single input image, then feeds these images into a convolutional U-Net, leveraging its strong pixel-level alignment capabilities and significant bandwidth to create a high-resolution triplane. CRM further employs Flexicubes as geometric representation, facilitating direct end-to-end optimization on textured meshes. Overall, our model delivers a high-fidelity textured mesh from an image in just 10 seconds, without any test-time optimization., Comment: Project page: https://ml.cs.tsinghua.edu.cn/~zhengyi/CRM/

Published

2024

12. Life form dynamics of the tree layer in evergreen and deciduous broad-leaved mixed forest during 1996–2017 in Tianmu Mountains, eastern China

Author

Bai, Cheng, You, Shixue, Ku, Weipeng, Dai, Qilin, Wang, Zhengyi, Zhao, Mingshui, and Yu, Shuquan

Subjects

Forestry, SD1-669.5

Abstract

In the forest areas of eastern China, there is a change from forest dominated by deciduous broad-leaved trees to forest dominated by evergreen broad-leaved trees as the latitude or altitude decreases. Different life forms have different survival strategies to deal with climate change, and studying the life form dynamics of the tree layers in the mixed forest in eastern China, with increasing temperature, can help us understand how the forest responds. This study was performed in a 1 ha plot in evergreen and deciduous broad-leaved mixed forest in Tianmu Mountain National Nature Reserve. Based on the data from two surveys (1996 and 2017), the changes in life form composition and biodiversity over the past 21 years were analyzed. We obtained the following results: (1) The proportion of evergreen trees increased from 55.0% in 1996 to 67.5% in 2017, and the dominance of evergreen species was enhanced. (2) The diversity of both life forms increased, and the tree species were more abundant. (3) The average annual recruitment rate of the evergreen species was 2.1% greater than their mortality rate, and the average annual recruitment rate of the deciduous species was 0.5% less than their mortality rate. (4) The competition among the trees in the small-diameter class (10 cm ⤠DBH < 20 cm) was fierce for many tree species. The proportion of the evergreen species in the small-diameter class was high. The life forms making up the mixed climax forest community has changed over the past 21 years, with the proportion and dominance of evergreen trees increasing significantly.

Published

2020

13. Observation-Guided Meteorological Field Downscaling at Station Scale: A Benchmark and a New Method

Author

Liu, Zili, Chen, Hao, Bai, Lei, Li, Wenyuan, Chen, Keyan, Wang, Zhengyi, Ouyang, Wanli, Zou, Zhengxia, and Shi, Zhenwei

Subjects

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

Abstract

Downscaling (DS) of meteorological variables involves obtaining high-resolution states from low-resolution meteorological fields and is an important task in weather forecasting. Previous methods based on deep learning treat downscaling as a super-resolution task in computer vision and utilize high-resolution gridded meteorological fields as supervision to improve resolution at specific grid scales. However, this approach has struggled to align with the continuous distribution characteristics of meteorological fields, leading to an inherent systematic bias between the downscaled results and the actual observations at meteorological stations. In this paper, we extend meteorological downscaling to arbitrary scattered station scales, establish a brand new benchmark and dataset, and retrieve meteorological states at any given station location from a coarse-resolution meteorological field. Inspired by data assimilation techniques, we integrate observational data into the downscaling process, providing multi-scale observational priors. Building on this foundation, we propose a new downscaling model based on hypernetwork architecture, namely HyperDS, which efficiently integrates different observational information into the model training, achieving continuous scale modeling of the meteorological field. Through extensive experiments, our proposed method outperforms other specially designed baseline models on multiple surface variables. Notably, the mean squared error (MSE) for wind speed and surface pressure improved by 67% and 19.5% compared to other methods. We will release the dataset and code subsequently.

Published

2024

14. AnimatableDreamer: Text-Guided Non-rigid 3D Model Generation and Reconstruction with Canonical Score Distillation

Author

Wang, Xinzhou, Wang, Yikai, Ye, Junliang, Wang, Zhengyi, Sun, Fuchun, Liu, Pengkun, Wang, Ling, Sun, Kai, Wang, Xintong, and He, Bin

Subjects

Computer Science - Computer Vision and Pattern Recognition, I.4.5

Abstract

Advances in 3D generation have facilitated sequential 3D model generation (a.k.a 4D generation), yet its application for animatable objects with large motion remains scarce. Our work proposes AnimatableDreamer, a text-to-4D generation framework capable of generating diverse categories of non-rigid objects on skeletons extracted from a monocular video. At its core, AnimatableDreamer is equipped with our novel optimization design dubbed Canonical Score Distillation (CSD), which lifts 2D diffusion for temporal consistent 4D generation. CSD, designed from a score gradient perspective, generates a canonical model with warp-robustness across different articulations. Notably, it also enhances the authenticity of bones and skinning by integrating inductive priors from a diffusion model. Furthermore, with multi-view distillation, CSD infers invisible regions, thereby improving the fidelity of monocular non-rigid reconstruction. Extensive experiments demonstrate the capability of our method in generating high-flexibility text-guided 3D models from the monocular video, while also showing improved reconstruction performance over existing non-rigid reconstruction methods., Comment: Project page: https://animatabledreamer.github.io/

Published

2023

15. Failure Mechanism of Anchored Roadway Surrounding Rocks under Near-Field Dynamic Disturbance

Author

Wang, Zhengyi, Dou, Linming, Wang, Guifeng, He, Jiang, and Hu, Jincheng

Published

2024

16. Score Regularized Policy Optimization through Diffusion Behavior

Author

Chen, Huayu, Lu, Cheng, Wang, Zhengyi, Su, Hang, and Zhu, Jun

Subjects

Computer Science - Machine Learning

Abstract

Recent developments in offline reinforcement learning have uncovered the immense potential of diffusion modeling, which excels at representing heterogeneous behavior policies. However, sampling from diffusion policies is considerably slow because it necessitates tens to hundreds of iterative inference steps for one action. To address this issue, we propose to extract an efficient deterministic inference policy from critic models and pretrained diffusion behavior models, leveraging the latter to directly regularize the policy gradient with the behavior distribution's score function during optimization. Our method enjoys powerful generative capabilities of diffusion modeling while completely circumventing the computationally intensive and time-consuming diffusion sampling scheme, both during training and evaluation. Extensive results on D4RL tasks show that our method boosts action sampling speed by more than 25 times compared with various leading diffusion-based methods in locomotion tasks, while still maintaining state-of-the-art performance., Comment: ICLR 2024

Published

2023

17. An Automated Sleep Staging Method with EEG-based Sleep Structure Computation

Author

Liao, Ruixiang, Zhu, Li, Kong, Wanzeng, and Wang, Zhengyi

Subjects

Artificial Intelligence, Computer Science, Neuroscience, Sleep, Computational Modeling, Computer-based experiment, Electroencephalography (EEG)

Abstract

Sleep staging serves as the foundation for sleep assessment and disease diagnosis, constituting a crucial aspect of sleep research. The related work on automatic sleep staging has achieved numerous satisfactory outcomes. However, current research predominantly focuses on using sleep information as classification features, e.g. employing time-domain or frequency-domain measures as local features, and comprehensive brain network information across channels as global features, while overlooking the spontaneous regularities in brain activity. Simultaneously, brain microstates are considered closely linked to brain activity and can be used to investigate the regular variations in the overall brain potential. To explore the regular changes in the microstates of brain function during sleep stages based on electroencephalogram (EEG), especially the regular changes in sleep structure, we initially conduct microstate clustering, followed by characterizing the sleep structure of the participants based on these microstates. Subsequently, we integrate the sleep structure with traditional sleep information features and perform automatic sleep staging. Our experiments make the following contributions: (1) Being the first to introduce the use of sleep structure for automatic sleep staging. (2) When there are 7 or more than 7 microstate classes, the model performs well, and the best classification accuracy reaches 89.50%. (3) Proposing a sleep automatic staging model that integrates sleep structure and sleep information.

Published

2024

18. DIFFender: Diffusion-Based Adversarial Defense against Patch Attacks

Author

Kang, Caixin, Dong, Yinpeng, Wang, Zhengyi, Ruan, Shouwei, Chen, Yubo, Su, Hang, and Wei, Xingxing

Subjects

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

Abstract

Adversarial attacks, particularly patch attacks, pose significant threats to the robustness and reliability of deep learning models. Developing reliable defenses against patch attacks is crucial for real-world applications. This paper introduces DIFFender, a novel defense framework that harnesses the capabilities of a text-guided diffusion model to combat patch attacks. Central to our approach is the discovery of the Adversarial Anomaly Perception (AAP) phenomenon, which empowers the diffusion model to detect and localize adversarial patches through the analysis of distributional discrepancies. DIFFender integrates dual tasks of patch localization and restoration within a single diffusion model framework, utilizing their close interaction to enhance defense efficacy. Moreover, DIFFender utilizes vision-language pre-training coupled with an efficient few-shot prompt-tuning algorithm, which streamlines the adaptation of the pre-trained diffusion model to defense tasks, thus eliminating the need for extensive retraining. Our comprehensive evaluation spans image classification and face recognition tasks, extending to real-world scenarios, where DIFFender shows good robustness against adversarial attacks. The versatility and generalizability of DIFFender are evident across a variety of settings, classifiers, and attack methodologies, marking an advancement in adversarial patch defense strategies.

Published

2023

19. ProlificDreamer: High-Fidelity and Diverse Text-to-3D Generation with Variational Score Distillation

Author

Wang, Zhengyi, Lu, Cheng, Wang, Yikai, Bao, Fan, Li, Chongxuan, Su, Hang, and Zhu, Jun

Subjects

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

Abstract

Score distillation sampling (SDS) has shown great promise in text-to-3D generation by distilling pretrained large-scale text-to-image diffusion models, but suffers from over-saturation, over-smoothing, and low-diversity problems. In this work, we propose to model the 3D parameter as a random variable instead of a constant as in SDS and present variational score distillation (VSD), a principled particle-based variational framework to explain and address the aforementioned issues in text-to-3D generation. We show that SDS is a special case of VSD and leads to poor samples with both small and large CFG weights. In comparison, VSD works well with various CFG weights as ancestral sampling from diffusion models and simultaneously improves the diversity and sample quality with a common CFG weight (i.e., $7.5$). We further present various improvements in the design space for text-to-3D such as distillation time schedule and density initialization, which are orthogonal to the distillation algorithm yet not well explored. Our overall approach, dubbed ProlificDreamer, can generate high rendering resolution (i.e., $512\times512$) and high-fidelity NeRF with rich structure and complex effects (e.g., smoke and drops). Further, initialized from NeRF, meshes fine-tuned by VSD are meticulously detailed and photo-realistic. Project page and codes: https://ml.cs.tsinghua.edu.cn/prolificdreamer/, Comment: NeurIPS 2023 (Spotlight)

Published

2023

20. Robust Classification via a Single Diffusion Model

Author

Chen, Huanran, Dong, Yinpeng, Wang, Zhengyi, Yang, Xiao, Duan, Chengqi, Su, Hang, and Zhu, Jun

Subjects

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

Abstract

Diffusion models have been applied to improve adversarial robustness of image classifiers by purifying the adversarial noises or generating realistic data for adversarial training. However, diffusion-based purification can be evaded by stronger adaptive attacks while adversarial training does not perform well under unseen threats, exhibiting inevitable limitations of these methods. To better harness the expressive power of diffusion models, this paper proposes Robust Diffusion Classifier (RDC), a generative classifier that is constructed from a pre-trained diffusion model to be adversarially robust. RDC first maximizes the data likelihood of a given input and then predicts the class probabilities of the optimized input using the conditional likelihood estimated by the diffusion model through Bayes' theorem. To further reduce the computational cost, we propose a new diffusion backbone called multi-head diffusion and develop efficient sampling strategies. As RDC does not require training on particular adversarial attacks, we demonstrate that it is more generalizable to defend against multiple unseen threats. In particular, RDC achieves $75.67\%$ robust accuracy against various $\ell_\infty$ norm-bounded adaptive attacks with $\epsilon_\infty=8/255$ on CIFAR-10, surpassing the previous state-of-the-art adversarial training models by $+4.77\%$. The results highlight the potential of generative classifiers by employing pre-trained diffusion models for adversarial robustness compared with the commonly studied discriminative classifiers. Code is available at \url{https://github.com/huanranchen/DiffusionClassifier}., Comment: Accepted by ICML 2024

Published

2023

21. PREIM3D: 3D Consistent Precise Image Attribute Editing from a Single Image

Author

Li, Jianhui, Li, Jianmin, Zhang, Haoji, Liu, Shilong, Wang, Zhengyi, Xiao, Zihao, Zheng, Kaiwen, and Zhu, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

We study the 3D-aware image attribute editing problem in this paper, which has wide applications in practice. Recent methods solved the problem by training a shared encoder to map images into a 3D generator's latent space or by per-image latent code optimization and then edited images in the latent space. Despite their promising results near the input view, they still suffer from the 3D inconsistency of produced images at large camera poses and imprecise image attribute editing, like affecting unspecified attributes during editing. For more efficient image inversion, we train a shared encoder for all images. To alleviate 3D inconsistency at large camera poses, we propose two novel methods, an alternating training scheme and a multi-view identity loss, to maintain 3D consistency and subject identity. As for imprecise image editing, we attribute the problem to the gap between the latent space of real images and that of generated images. We compare the latent space and inversion manifold of GAN models and demonstrate that editing in the inversion manifold can achieve better results in both quantitative and qualitative evaluations. Extensive experiments show that our method produces more 3D consistent images and achieves more precise image editing than previous work. Source code and pretrained models can be found on our project page: https://mybabyyh.github.io/Preim3D/, Comment: 20 pages, 21 figures

Published

2023

22. GNOT: A General Neural Operator Transformer for Operator Learning

Author

Hao, Zhongkai, Wang, Zhengyi, Su, Hang, Ying, Chengyang, Dong, Yinpeng, Liu, Songming, Cheng, Ze, Song, Jian, and Zhu, Jun

Subjects

Computer Science - Machine Learning, Mathematics - Numerical Analysis, Physics - Computational Physics

Abstract

Learning partial differential equations' (PDEs) solution operators is an essential problem in machine learning. However, there are several challenges for learning operators in practical applications like the irregular mesh, multiple input functions, and complexity of the PDEs' solution. To address these challenges, we propose a general neural operator transformer (GNOT), a scalable and effective transformer-based framework for learning operators. By designing a novel heterogeneous normalized attention layer, our model is highly flexible to handle multiple input functions and irregular meshes. Besides, we introduce a geometric gating mechanism which could be viewed as a soft domain decomposition to solve the multi-scale problems. The large model capacity of the transformer architecture grants our model the possibility to scale to large datasets and practical problems. We conduct extensive experiments on multiple challenging datasets from different domains and achieve a remarkable improvement compared with alternative methods. Our code and data are publicly available at \url{https://github.com/thu-ml/GNOT}.

Published

2023

23. An Improved Machine Learning Method to Speed up the Trajectory Prediction: Taking Melbourne Airport as a Study Case

Author

Xi, Yuting, Ma, Ji, Wang, Zhengyi, Zhang, Hong-Yan, Liang, Man, Gardi, Alessandro, Sabatini, Roberto, Delahaye, Daniel, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, and Fu, Song, editor

Published

2024

24. Overview of the Payload Support Capability of the Aerospace Basic Experiment Rack of the China Tiangong Space Station

Author

Yin, Zhao, Guo, Pei, Wang, Zhengyi, Yang, Jinlu, Song, Yan, Zhao, Zhenhao, Cheng, Chao, Wang, Ai ming, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, and Fu, Song, editor

Published

2024

25. Research on Angular Vibration Measurement Method of Spacecraft in Orbit

Author

Wang, Zhengyi, Liu, Min, Zhu, Jiantao, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Tan, Kay Chen, Series Editor, Wang, Yue, editor, Zou, Jiaqi, editor, Xu, Lexi, editor, Ling, Zhilei, editor, and Cheng, Xinzhou, editor

Published

2024

26. Forecast of cross-correlation of CSST cosmic shear tomography with AliCPT-1 CMB lensing

Author

Wang, Zhengyi, Yao, Ji, Liu, Xiangkun, Liu, Dezi, Fan, Zuhui, and Hu, Bin

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

We present a forecast study on the cross-correlation between cosmic shear tomography from the Chinese Survey Space Telescope (CSST) and CMB lensing from Ali CMB Polarization Telescope (AliCPT-1) in Tibet. The correlated galaxy and CMB lensing signals were generated from Gaussian realizations based on inputted auto- and cross-spectra. To account for the error budget, we considered the CMB lensing reconstruction noise based on the AliCPT-1 lensing reconstruction pipeline; shape noise of the galaxy lensing measurement; CSST photo-$z$ error; photo-$z$ bias; intrinsic alignment effect, and multiplicative bias. The AliCPT-1 CMB lensing mock data were generated according to two experimental stages, namely the ``4 modules*yr'' and ``48 modules*yr'' cases. We estimate the cross-spectra in 4 tomographic bins according to the CSST photo-$z$ distribution in the range of $z\in[0,4)$. After reconstructing the pseudo-cross-spectra from the realizations, we calculate the signal-to-noise ratio (SNR). By combining the 4 photo-$z$ bins, the total cross-correlation SNR$\approx15$ (AliCPT-1 ``4 modules*yr'') and SNR$\approx22$ (AliCPT-1 ``48 modules*yr''). Finally, we study the cosmological application of this cross-correlation signal. Excluding intrinsic alignment (IA) in the template fitting would lead to roughly a $0.6\sigma$ increment in $\sigma_8$ due to the negative IA contribution to the galaxy lensing data. For AliCPT-1 first and second stages, the cross-correlation of CSST cosmic shear with CMB lensing gives errors on the clustering amplitude $\sigma_{\sigma_8}=^{+0.043}_{-0.038}$ or $\sigma_{S_8}=\pm 0.031$ and $\sigma_{\sigma_8}=^{+0.030}_{-0.027}$ or $\sigma_{S_8}=\pm 0.018$, respectively., Comment: 21 pages, 13 figures

Published

2022

27. Liver fibrosis quantified by image morphometry predicts clinical outcomes in patients with non-alcoholic fatty liver disease

Author

Wang, Zhengyi, Jeffrey, Gary P., Huang, Yi, De Boer, Bastiaan, Garas, George, Wallace, Michael, Bertot, Luis, and Adams, Leon A.

Published

2023

28. Cluster Attack: Query-based Adversarial Attacks on Graphs with Graph-Dependent Priors

Author

Wang, Zhengyi, Hao, Zhongkai, Wang, Ziqiao, Su, Hang, and Zhu, Jun

Subjects

Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security

Abstract

While deep neural networks have achieved great success in graph analysis, recent work has shown that they are vulnerable to adversarial attacks. Compared with adversarial attacks on image classification, performing adversarial attacks on graphs is more challenging because of the discrete and non-differential nature of the adjacent matrix for a graph. In this work, we propose Cluster Attack -- a Graph Injection Attack (GIA) on node classification, which injects fake nodes into the original graph to degenerate the performance of graph neural networks (GNNs) on certain victim nodes while affecting the other nodes as little as possible. We demonstrate that a GIA problem can be equivalently formulated as a graph clustering problem; thus, the discrete optimization problem of the adjacency matrix can be solved in the context of graph clustering. In particular, we propose to measure the similarity between victim nodes by a metric of Adversarial Vulnerability, which is related to how the victim nodes will be affected by the injected fake node, and to cluster the victim nodes accordingly. Our attack is performed in a practical and unnoticeable query-based black-box manner with only a few nodes on the graphs that can be accessed. Theoretical analysis and extensive experiments demonstrate the effectiveness of our method by fooling the node classifiers with only a small number of queries., Comment: IJCAI 2022 (Long Presentation)

Published

2021

29. What is the appropriate gravel size during ureteroscopy lithotripsy? An in vitro evaluation

Author

Song, Baiyang, Jin, Dan, Cheng, Yue, Wang, Zhengyi, Wang, Fengqi, and Fang, Li

Published

2023

30. Intestinal epithelium penetration of liraglutide via cholic acid pre-complexation and zein/rhamnolipids nanocomposite delivery

Author

Bao, Xiaoyan, Qian, Kang, Xu, Mengjiao, Chen, Yi, Wang, Hao, Pan, Ting, Wang, Zhengyi, Yao, Ping, and Lin, Li

Published

2023

31. Remote supervision and management method for coal mine gas extraction drilling site based on AI video analysis

Author

HU Jincheng, ZHANG Libin, JIANG Ze, YAO Chaoxiu, JIANG Zhilong, and WANG Zhengyi

Subjects

gas extraction drilling site, ai video analysis, drilling, pipe withdrawal analysis, information board detection, ocr recognition, whole process analysis, Mining engineering. Metallurgy, TN1-997

Abstract

The traditional video monitoring system for coal mine gas extraction drilling site only has monitoring and storage functions during drilling construction and drill pipe withdrawal. Important process parameters or information can only be viewed by monitoring personnel through video recordings, which poses problems such as construction information being prone to errors and difficulty for drilling site management personnel to continuously monitor on-site videos. It order to solve the above problems, A remote supervision and management method for coal mine gas extraction drilling sites based on AI video analysis has been proposed. This method includes three algorithms: information board detection, OCR recognition, and drill pipe withdrawal analysis. Information board detection is used to detect the current construction phase. PaddleOCR recognition is used to recognize the drilling process and construction information on the information board. The drill pipe withdrawal analysis is used to analyze the number of drill pipes withdrawn during the closing drilling phase, thereby achieving the full process analysis and control of drilling operations. After receiving and starting drilling tasks, the method uses information board detection and PaddleOCR recognition services, and automatically saves construction information based on the identified drilling, closing, and sealing processes and construction parameters. When identifying the start of hole closing, the method enables the drill pipe withdrawal analysis service. When identifying the end of hole closing, the method stops the pipe withdrawal analysis service. The experimental results show that the recognition accuracy of the information board detection algorithm is 96%. The average time of PaddleOCR recognition algorithm is 17.51 ms, which is 25.25 ms lower than EasyOCR and 4.34 ms lower than Chinese OCR recognition algorithms, respectively; The accuracy of the PaddleOCR recognition algorithm has been improved by 5.75% and 2.29% compared to the other two recognition algorithms, respectively. The recall rate of the PaddleOCR recognition algorithm has been improved by 9.77% and 2.36% compared to the other two recognition algorithms, respectively. The pipe withdrawal analysis algorithm can effectively identify the number of pipes withdrawn on site, with an accuracy rate of approximately 95%.

Published

2023

32. The Application of Built-in Beam Element Method in the Aqueduct Pile Foundation Analysis

Author

Pan, Shiyang, Li, Tongchun, Liu, Xiao Qing, Zhu, Jianqun, Cui, Zhen, and Wang, Zhengyi

Published

2023

33. Comparative Accuracy of Clinical Fibrosis Markers, Hepascore and Fibroscan® to Detect Advanced Fibrosis in Patients with Nonalcoholic Fatty Liver Disease

Author

Bertot, Luis C., Jeffrey, Gary P., de Boer, Bastiaan, Wang, Zhengyi, Huang, Yi, Garas, George, MacQuillan, Gerry, Wallace, Michael, Smith, Briohny W., and Adams, Leon A.

Published

2023

34. In-situ polymerized electrolyte from a bifunctional additive for Li+ bulk phase migration and high-flux interface transport in lithium metal batteries

Author

Wu, Hao, Lin, Yongxian, Wang, Zhengyi, Shi, Kaixiang, Li, Junhao, Pan, Jiajie, Ren, Jie, Li, Xu, Min, Yonggang, Wu, Ming, and Liu, Quanbing

Published

2024

35. Discriminative manifold domain adaptation for cross-domain fault diagnosis of rotating machineries

Author

Qin, Yi, Wang, Zhengyi, Qian, Quan, Wang, Yi, and Luo, Jun

Published

2024

36. Separation and recovery of arsenic, germanium and tungsten from toxic coal ash from lignite by sequential vacuum distillation with disulphide

Author

Wang, Zhengyi, Sun, Jun, and Zhang, Lingen

Published

2024

37. Dual mechanism of electrostatic shielding and iodide redox for self-healing lithium metal anodes

Author

Qiu, Chao, Hong, Yun, Shi, Kaixiang, Wang, Zhengyi, Chen, Zikang, Wang, Kaixin, Li, Keke, and Liu, Quanbing

Published

2023

38. Adaptive manifold partial domain adaptation for fault transfer diagnosis of rotating machinery

Author

Qin, Yi, Qian, Quan, Wang, Zhengyi, and Mao, Yongfang

Published

2023

39. Validation of the Blood Test MACK-3 for the Noninvasive Diagnosis of Fibrotic Nonalcoholic Steatohepatitis: An International Study With 1924 Patients

Author

Canivet, Clémence M., Zheng, Ming-Hua, Qadri, Sami, Vonghia, Luisa, Chuah, Kee-Huat, Costentin, Charlotte, George, Jacob, Armandi, Angelo, Adams, Leon A., Lange, Naomi F., Blanchet, Odile, Moal, Valérie, Younes, Ramy, Roux, Marine, Chan, Wah-Kheong, Sturm, Nathalie, Eslam, Mohammed, Bugianesi, Elisabetta, Wang, Zhengyi, Dufour, Jean-François, Francque, Sven, Yki-Järvinen, Hannele, Zheng, Kenneth I., and Boursier, Jérôme

Published

2023

40. Job-synergistic engineering from Fe3N/Fe sites and sharp-edge effect of hollow star-shaped nitrogen-doped carbon structure for high-performance zinc-air batteries

Author

Wang, Kaixin, Qiu, Chao, Wang, Zhengyi, Chen, Qilan, Pan, Jiajie, Li, Junhao, Wu, Ming, Dong, Huafeng, Shi, Kaixiang, and Liu, Quanbing

Published

2023

41. The RasGEF MoCdc25 regulates vegetative growth, conidiation and appressorium-mediated infection in the rice blast fungus Magnaporthe oryzae

Author

Xiao, Yu, Lv, Wuyun, Tong, Qi, Xu, Zhe, and Wang, Zhengyi

Published

2023

42. A quasi-dynamic air traffic assignment model for mitigating air traffic complexity and congestion for high-density UAM operations

Author

Wang, Zhengyi, Delahaye, Daniel, Farges, Jean-Loup, and Alam, Sameer

Published

2023

43. Study on novel boron-containing triazine flame retarded thermoplastic polyester elastomer composites and the flame retardant mechanism

Author

Wang, Zhengyi, Wu, Wei, Liu, Zhaowen, Shen, Hui, and Feng, Yanling

Published

2023

44. Fibroblast-Conditioned Media Enhance the Yield of Microglia Isolated from Mixed Glial Cultures

Author

Hu, Jian, Wang, Peng, Wang, Zhengyi, Xu, Yuyun, Peng, Wenshuo, Chen, Xiongjian, Fang, Yani, Zhu, Liyun, Wang, Dongxue, Wang, Xue, Lin, Li, and Ruan, Lixin

Published

2023

45. Activating redox kinetics of polysulfides within edge-rich nitrogen doped porous interconnected carbon nanosphere

Author

Pan, Junda, Shi, Kaixiang, Sun, Yajie, Wu, Yujie, Li, Junhao, Li, Keke, Wu, Hao, Wang, Zhengyi, Dong, Huafeng, and Liu, Quanbing

Published

2023

46. Political Logics and Challenges of Global Governance: An IPE Perspective

Author

Wang, Zhengyi and Zhang, Bin, editor

Published

2022

47. LBP-014 Enhancing prediction of moderate fibrosis in MASLD patients for Resmetirom treatment via machine learning

Author

Dunn, Winston, primary, Alkhouri, Naim, additional, Yip, Terry Cheuk-Fung, additional, Castera, Laurent, additional, Takawy, Marina, additional, Adams, Leon, additional, Verma, Nipun, additional, Arab, Juan Pablo, additional, Jafri, Syed-Mohammed, additional, Zhong, Bihui, additional, Dubourg, Julie, additional, Chen, Vincent, additional, Singal, Ashwani K., additional, Diaz, Luis Antonio, additional, Dunn, Nicholas, additional, Nadeem, Rida, additional, Wong, Vincent Wai-Sun, additional, Abdelmalek, Manal F., additional, Wang, Zhengyi, additional, Duseja, Ajay Kumar, additional, Almahanna, Yousef, additional, Bajunayd, Amani, additional, Omeish, Haya A., additional, Ye, Junzhao, additional, Harrison, Stephen A., additional, Wong, Grace Lai-Hung, additional, Arrese, Marco, additional, Robert, Sage, additional, and Shao, Congxiang, additional

Published

2024

48. Complexity optimal air traffic assignment in multi-layer transport network for Urban Air Mobility operations

Author

Wang, Zhengyi, Delahaye, Daniel, Farges, Jean-Loup, and Alam, Sameer

Published

2022

49. Serum Fibrosis Tests Guide Prognosis in Metabolic Dysfunction–Associated Fatty Liver Disease Patients Referred From Primary Care

Author

Wang, Zhengyi, Bertot, Luis Calzadilla, Jeffrey, Gary P., Joseph, John, Garas, George, de Boer, Bastiaan, Huang, Yi, MacQuillan, Gerry, Wallace, Michael, Smith, Briohny, and Adams, Leon A.

Published

2022

50. Non-mitogenic fibroblast growth factor 1 protects against ischemic stroke by regulating microglia/macrophage polarization through Nrf2 and NF-κB pathways

Author

Dordoe, Confidence, Wang, Xue, Lin, Ping, Wang, Zhengyi, Hu, Jian, Wang, Dongxue, Fang, Yani, Liang, Fei, Ye, Shasha, Chen, Jun, Zhao, Yeli, Xiong, Ye, Yang, Yunjun, Lin, Li, and Li, Xianfeng

Published

2022