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246 results on '"Ye, Zipeng"'

1. Evolutionary Trigger Detection and Lightweight Model Repair Based Backdoor Defense

Author

Zhou, Qi, Ye, Zipeng, Tang, Yubo, Luo, Wenjian, Shi, Yuhui, and Jia, Yan

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence
Abstract

Deep Neural Networks (DNNs) have been widely used in many areas such as autonomous driving and face recognition. However, DNN model is fragile to backdoor attack. A backdoor in the DNN model can be activated by a poisoned input with trigger and leads to wrong prediction, which causes serious security issues in applications. It is challenging for current defenses to eliminate the backdoor effectively with limited computing resources, especially when the sizes and numbers of the triggers are variable as in the physical world. We propose an efficient backdoor defense based on evolutionary trigger detection and lightweight model repair. In the first phase of our method, CAM-focus Evolutionary Trigger Filter (CETF) is proposed for trigger detection. CETF is an effective sample-preprocessing based method with the evolutionary algorithm, and our experimental results show that CETF not only distinguishes the images with triggers accurately from the clean images, but also can be widely used in practice for its simplicity and stability in different backdoor attack situations. In the second phase of our method, we leverage several lightweight unlearning methods with the trigger detected by CETF for model repair, which also constructively demonstrate the underlying correlation of the backdoor with Batch Normalization layers. Source code will be published after accepted., Comment: 13 pages, 9 figures

Published
2024

2. An Indicator Based Evolutionary Algorithm for Multiparty Multiobjective Knapsack Problems

Author

Song, Zhen, Luo, Wenjian, Xu, Peilan, Ye, Zipeng, Chen, Kesheng, Rannenberg, Kai, Editor-in-Chief, Soares Barbosa, Luís, Editorial Board Member, Carette, Jacques, Editorial Board Member, Tatnall, Arthur, Editorial Board Member, Neuhold, Erich J., Editorial Board Member, Stiller, Burkhard, Editorial Board Member, Stettner, Lukasz, Editorial Board Member, Pries-Heje, Jan, Editorial Board Member, Kreps, David, Editorial Board Member, Rettberg, Achim, Editorial Board Member, Furnell, Steven, Editorial Board Member, Mercier-Laurent, Eunika, Editorial Board Member, Winckler, Marco, Editorial Board Member, Malaka, Rainer, Editorial Board Member, Shi, Zhongzhi, editor, Torresen, Jim, editor, and Yang, Shengxiang, editor

Published
2024
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3. Dynamic Neural Textures: Generating Talking-Face Videos with Continuously Controllable Expressions

Author

Ye, Zipeng, Sun, Zhiyao, Wen, Yu-Hui, Sun, Yanan, Lv, Tian, Yi, Ran, and Liu, Yong-Jin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics, Computer Science - Multimedia
Abstract

Recently, talking-face video generation has received considerable attention. So far most methods generate results with neutral expressions or expressions that are implicitly determined by neural networks in an uncontrollable way. In this paper, we propose a method to generate talking-face videos with continuously controllable expressions in real-time. Our method is based on an important observation: In contrast to facial geometry of moderate resolution, most expression information lies in textures. Then we make use of neural textures to generate high-quality talking face videos and design a novel neural network that can generate neural textures for image frames (which we called dynamic neural textures) based on the input expression and continuous intensity expression coding (CIEC). Our method uses 3DMM as a 3D model to sample the dynamic neural texture. The 3DMM does not cover the teeth area, so we propose a teeth submodule to complete the details in teeth. Results and an ablation study show the effectiveness of our method in generating high-quality talking-face videos with continuously controllable expressions. We also set up four baseline methods by combining existing representative methods and compare them with our method. Experimental results including a user study show that our method has the best performance.

Published
2022

4. Audio-Driven Talking Face Video Generation with Dynamic Convolution Kernels

Author

Ye, Zipeng, Xia, Mengfei, Yi, Ran, Zhang, Juyong, Lai, Yu-Kun, Huang, Xuwei, Zhang, Guoxin, and Liu, Yong-jin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Multimedia
Abstract

In this paper, we present a dynamic convolution kernel (DCK) strategy for convolutional neural networks. Using a fully convolutional network with the proposed DCKs, high-quality talking-face video can be generated from multi-modal sources (i.e., unmatched audio and video) in real time, and our trained model is robust to different identities, head postures, and input audios. Our proposed DCKs are specially designed for audio-driven talking face video generation, leading to a simple yet effective end-to-end system. We also provide a theoretical analysis to interpret why DCKs work. Experimental results show that our method can generate high-quality talking-face video with background at 60 fps. Comparison and evaluation between our method and the state-of-the-art methods demonstrate the superiority of our method., Comment: in IEEE Transactions on Multimedia

Published
2022
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6. 3D-CariGAN: An End-to-End Solution to 3D Caricature Generation from Face Photos

Author

Ye, Zipeng, Xia, Mengfei, Sun, Yanan, Yi, Ran, Yu, Minjing, Zhang, Juyong, Lai, Yu-Kun, and Liu, Yong-jin

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Caricature is a type of artistic style of human faces that attracts considerable attention in the entertainment industry. So far a few 3D caricature generation methods exist and all of them require some caricature information (e.g., a caricature sketch or 2D caricature) as input. This kind of input, however, is difficult to provide by non-professional users. In this paper, we propose an end-to-end deep neural network model that generates high-quality 3D caricatures directly from a normal 2D face photo. The most challenging issue for our system is that the source domain of face photos (characterized by normal 2D faces) is significantly different from the target domain of 3D caricatures (characterized by 3D exaggerated face shapes and textures). To address this challenge, we: (1) build a large dataset of 5,343 3D caricature meshes and use it to establish a PCA model in the 3D caricature shape space; (2) reconstruct a normal full 3D head from the input face photo and use its PCA representation in the 3D caricature shape space to establish correspondences between the input photo and 3D caricature shape; and (3) propose a novel character loss and a novel caricature loss based on previous psychological studies on caricatures. Experiments including a novel two-level user study show that our system can generate high-quality 3D caricatures directly from normal face photos., Comment: Accepted by IEEE Transactions on Visualization and Computer Graphics

Published
2020
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7. Audio-driven Talking Face Video Generation with Learning-based Personalized Head Pose

Author

Yi, Ran, Ye, Zipeng, Zhang, Juyong, Bao, Hujun, and Liu, Yong-Jin

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Graphics
Abstract

Real-world talking faces often accompany with natural head movement. However, most existing talking face video generation methods only consider facial animation with fixed head pose. In this paper, we address this problem by proposing a deep neural network model that takes an audio signal A of a source person and a very short video V of a target person as input, and outputs a synthesized high-quality talking face video with personalized head pose (making use of the visual information in V), expression and lip synchronization (by considering both A and V). The most challenging issue in our work is that natural poses often cause in-plane and out-of-plane head rotations, which makes synthesized talking face video far from realistic. To address this challenge, we reconstruct 3D face animation and re-render it into synthesized frames. To fine tune these frames into realistic ones with smooth background transition, we propose a novel memory-augmented GAN module. By first training a general mapping based on a publicly available dataset and fine-tuning the mapping using the input short video of target person, we develop an effective strategy that only requires a small number of frames (about 300 frames) to learn personalized talking behavior including head pose. Extensive experiments and two user studies show that our method can generate high-quality (i.e., personalized head movements, expressions and good lip synchronization) talking face videos, which are naturally looking with more distinguishing head movement effects than the state-of-the-art methods., Comment: 12 pages, 9 figures

Published
2020

10. A Configuration-Space Decomposition Scheme for Learning-based Collision Checking

Author

Han, Yiheng, Zhao, Wang, Pan, Jia, Ye, Zipeng, Yi, Ran, and Liu, Yong-Jin

Subjects
Computer Science - Robotics, Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Motion planning for robots of high degrees-of-freedom (DOFs) is an important problem in robotics with sampling-based methods in configuration space C as one popular solution. Recently, machine learning methods have been introduced into sampling-based motion planning methods, which train a classifier to distinguish collision free subspace from in-collision subspace in C. In this paper, we propose a novel configuration space decomposition method and show two nice properties resulted from this decomposition. Using these two properties, we build a composite classifier that works compatibly with previous machine learning methods by using them as the elementary classifiers. Experimental results are presented, showing that our composite classifier outperforms state-of-the-art single classifier methods by a large margin. A real application of motion planning in a multi-robot system in plant phenotyping using three UR5 robotic arms is also presented., Comment: 7 pages,4 figures

Published
2019

11. Geodesic Centroidal Voronoi Tessellations: Theories, Algorithms and Applications

Author

Ye, Zipeng, Yi, Ran, Yu, Minjing, Liu, Yong-Jin, and He, Ying

Subjects
Computer Science - Graphics, Computer Science - Computational Geometry
Abstract

Nowadays, big data of digital media (including images, videos and 3D graphical models) are frequently modeled as low-dimensional manifold meshes embedded in a high-dimensional feature space. In this paper, we summarized our recent work on geodesic centroidal Voronoi tessellations(GCVTs), which are intrinsic geometric structures on manifold meshes. We show that GCVT can find a widely range of interesting applications in computer vision and graphics, due to the efficiency of search, location and indexing inherent in these intrinsic geometric structures. Then we present the challenging issues of how to build the combinatorial structures of GCVTs and establish their time and space complexities, including both theoretical and algorithmic results.

Published
2019

31. Gradient Inversion Attacks: Impact Factors Analyses and Privacy Enhancement

Author

Ye, Zipeng, Luo, Wenjian, Zhou, Qi, Zhu, Zhenqian, Shi, Yuhui, and Jia, Yan

Abstract

Gradient inversion attacks (GIAs) have posed significant challenges to the emerging paradigm of distributed learning, which aims to reconstruct the private training data of clients (participating parties in distributed training) through the shared parameters. For counteracting GIAs, a large number of privacy-preserving methods for distributed learning scenario have emerged. However, these methods have significant limitations, either compromising the usability of global model or consuming substantial additional computational resources. Furthermore, despite the extensive efforts dedicated to defense methods, the underlying causes of data leakage in distributed learning still have not been thoroughly investigated. Therefore, this paper tries to reveal the potential reasons behind the successful implementation of existing GIAs, explore variations in the robustness of models against GIAs during the training process, and investigate the impact of different model structures on attack performance. After these explorations and analyses, this paper propose a plug-and-play GIAs defense method, which augments the training data by a designed vicinal distribution. Sufficient empirical experiments demonstrate that this easy-to-implement method can ensure the basic level of privacy without compromising the usability of global model.

Published
2024
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40. An Evolutionary Attack for Revealing Training Data of DNNs With Higher Feature Fidelity

Author

Ye, Zipeng, Luo, Wenjian, Zhang, Ruizhuo, Zhang, Hongwei, Shi, Yuhui, and Jia, Yan

Abstract

Model inversion attacks aim to reveal information about sensitive training data of AI models, which may lead to serious privacy leakage. However, existing attack methods have limitations in reconstructing training data with higher feature fidelity. In this article, we propose an evolutionary model inversion attack approach (EvoMI) and empirically demonstrate that combined with the systematic search in the multi-degree-of-freedom latent space of the generative model, the simple use of an evolutionary algorithm can effectively improve the attack performance. Concretely, at first, we search for latent vectors which can generate images close to the attack target in the latent space with low-degree of freedom. Generally, the low-freedom constraint will reduce the probability of getting a local optima compared to existing methods that directly search for latent vectors in the high-freedom space. Consequently, we introduce a mutation operation to expand the search domain, thus further reduce the possibility of obtaining a local optima. Finally, we treat the searched latent vectors as the initial values of the post-processing and relax the constraint to further optimize the latent vectors in a higher-freedom space. Our proposed method is conceptually simple and easy to implement, yet it achieves substantial improvements and outperforms the state-of-the-art methods significantly.

Published
2024
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41. C2FMI: Corse-to-Fine Black-Box Model Inversion Attack

Author

Ye, Zipeng, Luo, Wenjian, Naseem, Muhammad Luqman, Yang, Xiangkai, Shi, Yuhui, and Jia, Yan

Abstract

Privacy-preserving machine learning requires that models do not reveal any private information about their training data. However, model inversion attacks (MIAs), which aim to recover the features of training data, pose a huge threat to the security of AI models. Most existing MIAs assume that the target model is white-box, but most models deployed in reality are black-box, and these models can only be accessed like an oracle. There are a few studies for black-box scenarios, but their performance is limited. In this article, we first formulate the MIA problem completely in Bayesian perspective. Second, we propose a novel two-stage MIA approach, the Coarse-to-Fine Model Inversion Attack (C2FMI), which efficiently addresses the MIA problem in the black-box scenario. In stage I of C2FMI, we design a reverse network that constrains the recovered images (also named attacked images) to fall near the manifold space of the training data. In stage II, we design a black-box oriented strategy which further facilitates the attacked images to approach the training data. Empirically, C2FMI achieves a performance that even surpasses existing white-box attack methods. Furthermore, we design the stability analysis method for analyzing the stability of C2FMI along with existing MIAs. Finally, we explore the potential countermeasures which could defend against our attacks.

Published
2024
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43. Denosumab Use in Rats: Response

Author

Xu, Junjie, primary, Ye, Zipeng, additional, Chen, Chang’an, additional, Zhang, Xueying, additional, Han, Kang, additional, Wu, Xiulin, additional, Li, Ziyun, additional, Jiang, Jia, additional, Yan, Xiaoyu, additional, Cai, Jiangyu, additional, and Zhao, Jinzhong, additional

Published
2023
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45. Clinical and Radiological Outcomes in Patients With Anterior Shoulder Instability and Glenoid Bone Loss after Arthroscopic Free Bone Block Combined With Dynamic Anterior Stabilization

Author

Wu, Chenliang, primary, Xu, Junjie, additional, Fang, Zhaoyi, additional, Chen, Jiebo, additional, Ye, Zipeng, additional, Wu, Xiulin, additional, Li, Ziyun, additional, Wang, Liren, additional, Kang, Yuhao, additional, Zhao, Song, additional, Xu, Caiqi, additional, and Zhao, Jinzhong, additional

Published
2022
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46. Abaloparatide Improves Rotator Cuff Healing Via Anabolic Effects on Bone Remodeling in a Chronic Rotator Cuff Tear Model of Rat With Osteoporosis: A Comparison With Denosumab: Response

Author

Xu, Junjie, primary, Ye, Zipeng, additional, Chen, Chang’an, additional, Zhang, Xueying, additional, Han, Kang, additional, Wu, Xiulin, additional, Li, Ziyun, additional, Jiang, Jia, additional, Yan, Xiaoyu, additional, Cai, Jiangyu, additional, and Zhao, Jinzhong, additional

Published
2022
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48. sj-docx-1-ajs-10.1177_03635465221145695 – Supplemental material for Radiological and Histological Analyses of Nonrigid Versus Rigid Fixation for Free Bone Block Procedures in a Rabbit Model of Glenoid Defects

Author

Xu, Junjie, Wu, Chenliang, Han, Kang, Zhang, Xueying, Ye, Zipeng, Jiang, Jia, Yan, Xiaoyu, Su, Wei, and Zhao, Jinzhong

Subjects
FOS: Clinical medicine, 110323 Surgery, 110604 Sports Medicine, FOS: Health sciences, 110314 Orthopaedics
Abstract

Supplemental material, sj-docx-1-ajs-10.1177_03635465221145695 for Radiological and Histological Analyses of Nonrigid Versus Rigid Fixation for Free Bone Block Procedures in a Rabbit Model of Glenoid Defects by Junjie Xu, Chenliang Wu, Kang Han, Xueying Zhang, Zipeng Ye, Jia Jiang, Xiaoyu Yan, Wei Su and Jinzhong Zhao in The American Journal of Sports Medicine

Published
2023
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49. sj-pdf-1-ajs-10.1177_03635465231155927 – Supplemental material for Exosomes Derived From Kartogenin-Preconditioned Mesenchymal Stem Cells Promote Cartilage Formation and Collagen Maturation for Enthesis Regeneration in a Rat Model of Chronic Rotator Cuff Tear

Author

Cai, Jiangyu, Xu, Junjie, Ye, Zipeng, Wang, Liren, Zheng, Ting, Zhang, Tianlun, Li, Yufeng, Jiang, Jia, and Zhao, Jinzhong

Subjects
FOS: Clinical medicine, 110323 Surgery, 110604 Sports Medicine, FOS: Health sciences, 110314 Orthopaedics
Abstract

Supplemental material, sj-pdf-1-ajs-10.1177_03635465231155927 for Exosomes Derived From Kartogenin-Preconditioned Mesenchymal Stem Cells Promote Cartilage Formation and Collagen Maturation for Enthesis Regeneration in a Rat Model of Chronic Rotator Cuff Tear by Jiangyu Cai, Junjie Xu, Zipeng Ye, Liren Wang, Ting Zheng, Tianlun Zhang, Yufeng Li, Jia Jiang and Jinzhong Zhao in The American Journal of Sports Medicine

Published
2023
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50. sj-pdf-1-ajs-10.1177_03635465231158372 – Supplemental material for The Modified Assessment Tool Based on Scapular Y-View for Global Fatty Infiltration in the Supraspinatus Muscle: Correlation, Predictive Performance, and Reliability Analyses

Author

Xu, Junjie, Liu, Beibei, Han, Kang, Ye, Zipeng, Zhang, Xiuyuan, Qiao, Yi, Jin, Yuchen, Jiang, Jia, Su, Wei, Li, Yuehua, and Zhao, Jinzhong

Subjects
FOS: Clinical medicine, 110323 Surgery, 110604 Sports Medicine, FOS: Health sciences, 110314 Orthopaedics
Abstract

Supplemental material, sj-pdf-1-ajs-10.1177_03635465231158372 for The Modified Assessment Tool Based on Scapular Y-View for Global Fatty Infiltration in the Supraspinatus Muscle: Correlation, Predictive Performance, and Reliability Analyses by Junjie Xu, Beibei Liu, Kang Han, Zipeng Ye, Xiuyuan Zhang, Yi Qiao, Yuchen Jin, Jia Jiang, Wei Su, Yuehua Li and Jinzhong Zhao in The American Journal of Sports Medicine

Published
2023
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