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2,623 results on '"Zhong, Nan"'

1. Revocable Backdoor for Deep Model Trading

Author

Xu, Yiran, Zhong, Nan, Qian, Zhenxing, and Zhang, Xinpeng

Subjects
Computer Science - Cryptography and Security, Computer Science - Computer Vision and Pattern Recognition
Abstract

Deep models are being applied in numerous fields and have become a new important digital product. Meanwhile, previous studies have shown that deep models are vulnerable to backdoor attacks, in which compromised models return attacker-desired results when a trigger appears. Backdoor attacks severely break the trust-worthiness of deep models. In this paper, we turn this weakness of deep models into a strength, and propose a novel revocable backdoor and deep model trading scenario. Specifically, we aim to compromise deep models without degrading their performance, meanwhile, we can easily detoxify poisoned models without re-training the models. We design specific mask matrices to manage the internal feature maps of the models. These mask matrices can be used to deactivate the backdoors. The revocable backdoor can be adopted in the deep model trading scenario. Sellers train models with revocable backdoors as a trial version. Buyers pay a deposit to sellers and obtain a trial version of the deep model. If buyers are satisfied with the trial version, they pay a final payment to sellers and sellers send mask matrices to buyers to withdraw revocable backdoors. We demonstrate the feasibility and robustness of our revocable backdoor by various datasets and network architectures., Comment: to appear in ECAI 2024

Published
2024

2. Temperature and light reverse the fertility of rice P/TGMS line ostms19 via reactive oxygen species homeostasis.

Author

Zhou, Lei, Mao, Yi-Chen, Yang, Yan-Ming, Wang, Jun-Jie, Zhong, Xiang, Han, Yu, Zhang, Yan-Fei, Shi, Qiang-Sheng, Huang, Xue-Hui, Meyers, Blake, Zhu, Jun, and Yang, Zhong-Nan

Subjects
ROS, pentatricopeptide repeat (PPR) protein, photo/thermo‐sensitive genic male sterility, rice, Oryza, Reactive Oxygen Species, Homeostasis, Fertility, Pollen, Plant Proteins, Plant Infertility, Gene Expression Regulation, Plant, Temperature, Light, Photoperiod
Abstract

P/TGMS (Photo/thermo-sensitive genic male sterile) lines are crucial resources for two-line hybrid rice breeding. Previous studies revealed that slow development is a general mechanism for sterility-fertility conversion of P/TGMS in Arabidopsis. However, the difference in P/TGMS genes between rice and Arabidopsis suggests the presence of a distinct P/TGMS mechanism in rice. In this study, we isolated a novel P/TGMS line, ostms19, which shows sterility under high-temperature conditions and fertility under low-temperature conditions. OsTMS19 encodes a novel pentatricopeptide repeat (PPR) protein essential for pollen formation, in which a point mutation GTA(Val) to GCA(Ala) leads to ostms19 P/TGMS phenotype. It is highly expressed in the tapetum and localized to mitochondria. Under high temperature or long-day photoperiod conditions, excessive ROS accumulation in ostms19 anthers during pollen mitosis disrupts gene expression and intine formation, causing male sterility. Conversely, under low temperature or short-day photoperiod conditions, ROS can be effectively scavenged in anthers, resulting in fertility restoration. This indicates that ROS homeostasis is critical for fertility conversion. This relationship between ROS homeostasis and fertility conversion has also been observed in other tested rice P/TGMS lines. Therefore, we propose that ROS homeostasis is a general mechanism for the sterility-fertility conversion of rice P/TGMS lines.

Published
2024

3. Tip-leakage-flow excited unsteadiness and associated control

Author

Liu, Yabin, Wang, Zhong-Nan, Tan, Lei, Tucker, Paul Gary, and Möller, Felix M.

Subjects
Physics - Fluid Dynamics
Abstract

Tip leakage flow in turbomachinery inherently generates intense unsteady features, named self-excited unsteadiness, which has not been well understood. A Zonalised LES (ZLES) is employed around a linear cascade, with wall-modelled Large Eddy Simulation (LES) forced to be active in the tip region. The simulation is well validated and demonstrated the advantages of effectively reducing the computational effort while maintaining an equivalent prediction accuracy in the region of interest. The time-averaged and spatial-spectral characteristics of tip leakage vortex (TLV) structures are systematically discussed. The self-excited unsteady processes of TLV include unsteady vortex separation inside the tip gap, the tip leakage jet-mainstream interaction, the primary tip leakage vortex (PTLV) wandering motion and the induced separation near endwall. The Spectral Proper Orthogonal Decomposition (SPOD) is used to examine the dominant frequencies and their coherent structures. It is found that these unsteady features change from a single high-frequency mode to a multiple lower-frequencies mode due to the PTLV breakdown. The SPOD and correlation analyses reveal that the self-excited unsteadiness is mainly induced by the interactions between unsteady vortex separation, tip leakage jet, and mainstream. The associated unsteady fluctuations are convected along the tip leakage jet trajectory, causing the wandering motion of PTLV core. Based on the cause of the investigated unsteadiness, a micro-offset tip design is proposed and validated for effectively suppressing this unsteadiness, and associated turbulence generation and hence pressure fluctuations. This work improves the understanding of tip-leakage-flow dynamics and informs the control of the associated unsteady fluid oscillation and noise.

Published
2024
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5. Object-oriented backdoor attack against image captioning

Author

Li, Meiling, Zhong, Nan, Zhang, Xinpeng, Qian, Zhenxing, and Li, Sheng

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

Backdoor attack against image classification task has been widely studied and proven to be successful, while there exist little research on the backdoor attack against vision-language models. In this paper, we explore backdoor attack towards image captioning models by poisoning training data. Assuming the attacker has total access to the training dataset, and cannot intervene in model construction or training process. Specifically, a portion of benign training samples is randomly selected to be poisoned. Afterwards, considering that the captions are usually unfolded around objects in an image, we design an object-oriented method to craft poisons, which aims to modify pixel values by a slight range with the modification number proportional to the scale of the current detected object region. After training with the poisoned data, the attacked model behaves normally on benign images, but for poisoned images, the model will generate some sentences irrelevant to the given image. The attack controls the model behavior on specific test images without sacrificing the generation performance on benign test images. Our method proves the weakness of image captioning models to backdoor attack and we hope this work can raise the awareness of defending against backdoor attack in the image captioning field.

Published
2024

6. Model Copyright Protection in Buyer-seller Environment

Author

Guo, Yusheng, Zhong, Nan, Qian, Zhenxing, and Zhang, Xinpeng

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Training a deep neural network (DNN) requires a high computational cost. Buying models from sellers with a large number of computing resources has become prevailing. However, the buyer-seller environment is not always trusted. To protect the neural network models from leaking in an untrusted environment, we propose a novel copyright protection scheme for DNN using an input-sensitive neural network (ISNN). The main idea of ISNN is to make a DNN sensitive to the key and copyright information. Therefore, only the buyer with a correct key can utilize the ISNN. During the training phase, we add a specific perturbation to the clean images and mark them as legal inputs, while the other inputs are treated as illegal input. We design a loss function to make the outputs of legal inputs close to the true ones, while the illegal inputs are far away from true results. Experimental results demonstrate that the proposed scheme is effective, valid, and secure.

Published
2023

8. PatchCraft: Exploring Texture Patch for Efficient AI-generated Image Detection

Author

Zhong, Nan, Xu, Yiran, Li, Sheng, Qian, Zhenxing, and Zhang, Xinpeng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Recent generative models show impressive performance in generating photographic images. Humans can hardly distinguish such incredibly realistic-looking AI-generated images from real ones. AI-generated images may lead to ubiquitous disinformation dissemination. Therefore, it is of utmost urgency to develop a detector to identify AI generated images. Most existing detectors suffer from sharp performance drops over unseen generative models. In this paper, we propose a novel AI-generated image detector capable of identifying fake images created by a wide range of generative models. We observe that the texture patches of images tend to reveal more traces left by generative models compared to the global semantic information of the images. A novel Smash&Reconstruction preprocessing is proposed to erase the global semantic information and enhance texture patches. Furthermore, pixels in rich texture regions exhibit more significant fluctuations than those in poor texture regions. Synthesizing realistic rich texture regions proves to be more challenging for existing generative models. Based on this principle, we leverage the inter-pixel correlation contrast between rich and poor texture regions within an image to further boost the detection performance. In addition, we build a comprehensive AI-generated image detection benchmark, which includes 17 kinds of prevalent generative models, to evaluate the effectiveness of existing baselines and our approach. Our benchmark provides a leaderboard for follow-up studies. Extensive experimental results show that our approach outperforms state-of-the-art baselines by a significant margin. Our project: https://fdmas.github.io/AIGCDetect, Comment: Our project: https://fdmas.github.io/AIGCDetect/

Published
2023

9. Physical Invisible Backdoor Based on Camera Imaging

Author

Guo, Yusheng, Zhong, Nan, Qian, Zhenxing, and Zhang, Xinpeng

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

Backdoor attack aims to compromise a model, which returns an adversary-wanted output when a specific trigger pattern appears yet behaves normally for clean inputs. Current backdoor attacks require changing pixels of clean images, which results in poor stealthiness of attacks and increases the difficulty of the physical implementation. This paper proposes a novel physical invisible backdoor based on camera imaging without changing nature image pixels. Specifically, a compromised model returns a target label for images taken by a particular camera, while it returns correct results for other images. To implement and evaluate the proposed backdoor, we take shots of different objects from multi-angles using multiple smartphones to build a new dataset of 21,500 images. Conventional backdoor attacks work ineffectively with some classical models, such as ResNet18, over the above-mentioned dataset. Therefore, we propose a three-step training strategy to mount the backdoor attack. First, we design and train a camera identification model with the phone IDs to extract the camera fingerprint feature. Subsequently, we elaborate a special network architecture, which is easily compromised by our backdoor attack, by leveraging the attributes of the CFA interpolation algorithm and combining it with the feature extraction block in the camera identification model. Finally, we transfer the backdoor from the elaborated special network architecture to the classical architecture model via teacher-student distillation learning. Since the trigger of our method is related to the specific phone, our attack works effectively in the physical world. Experiment results demonstrate the feasibility of our proposed approach and robustness against various backdoor defenses.

Published
2023

10. Maternal dominance contributes to subgenome differentiation in allopolyploid fishes.

Author

Xu, Min-Rui-Xuan, Liao, Zhen-Yang, Brock, Jordan, Du, Kang, Li, Guo-Yin, Chen, Zhi-Qiang, Wang, Ying-Hao, Gao, Zhong-Nan, Agarwal, Gaurav, Wei, Kevin, Shao, Feng, Pang, Shuai, Platts, Adrian, van de Velde, Jozefien, Lin, Hong-Min, Teresi, Scott, Niederhuth, Chad, Xu, Jin-Gen, Yu, Guo-Hua, Yang, Jian-Yuan, Dai, Si-Fa, Nelson, Andrew, Braasch, Ingo, Zhang, Xiao-Gu, Schartl, Manfred, Edger, Patrick, Han, Min-Jin, Zhang, Hua-Hao, and Bird, Kevin

Subjects
Animals, Evolution, Molecular, Polyploidy, Genome, Epigenesis, Genetic, Carps, Genome, Plant
Abstract

Teleost fishes, which are the largest and most diverse group of living vertebrates, have a rich history of ancient and recent polyploidy. Previous studies of allotetraploid common carp and goldfish (cyprinids) reported a dominant subgenome, which is more expressed and exhibits biased gene retention. However, the underlying mechanisms contributing to observed subgenome dominance remains poorly understood. Here we report high-quality genomes of twenty-one cyprinids to investigate the origin and subsequent subgenome evolution patterns following three independent allopolyploidy events. We identify the closest extant relatives of the diploid progenitor species, investigate genetic and epigenetic differences among subgenomes, and conclude that observed subgenome dominance patterns are likely due to a combination of maternal dominance and transposable element densities in each polyploid. These findings provide an important foundation to understanding subgenome dominance patterns observed in teleost fishes, and ultimately the role of polyploidy in contributing to evolutionary innovations.

Published
2023

11. An epigenetically mediated double negative cascade from EFD to HB21 regulates anther development

Author

Cheng Zhang, Ao-Tong Xiong, Meng-Yi Ren, Yan-Yun Zhao, Min-Jia Huang, Long-Cheng Huang, Zheng Zhang, Yun Wang, Quan-Quan Zheng, Jing Fan, Jing-Jing Guan, and Zhong-Nan Yang

Subjects
Science
Abstract

Abstract Epigenetic modifications are crucial for plant development. EFD ( E xine F ormation D efect) encodes a SAM-dependent methyltransferase that is essential for the pollen wall pattern formation and male fertility in Arabidopsis. In this study, we find that the expression of DRM2, a de novo DNA methyltransferase in plants, complements for the defects in efd, suggesting its potential de novo DNA methyltransferase activity. Genetic analysis indicates that EFD functions through HB21, as the knockout of HB21 fully restores fertility in efd mutants. DNA methylation and histone modification analyses reveal that EFD represses the transcription of HB21 through epigenetic mechanisms. Additionally, we demonstrate that HB21 directly represses the expression of genes crucial for pollen formation and anther dehiscence, including CalS5, RPG1/SWEET8, CYP703A2 and NST2. Collectively, our findings unveil a double negative regulatory cascade mediated by epigenetic modifications that coordinates anther development, offering insights into the epigenetic regulation of this process.

Published
2024
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17. Imperceptible Backdoor Attack: From Input Space to Feature Representation

Author

Zhong, Nan, Qian, Zhenxing, and Zhang, Xinpeng

Subjects
Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Backdoor attacks are rapidly emerging threats to deep neural networks (DNNs). In the backdoor attack scenario, attackers usually implant the backdoor into the target model by manipulating the training dataset or training process. Then, the compromised model behaves normally for benign input yet makes mistakes when the pre-defined trigger appears. In this paper, we analyze the drawbacks of existing attack approaches and propose a novel imperceptible backdoor attack. We treat the trigger pattern as a special kind of noise following a multinomial distribution. A U-net-based network is employed to generate concrete parameters of multinomial distribution for each benign input. This elaborated trigger ensures that our approach is invisible to both humans and statistical detection. Besides the design of the trigger, we also consider the robustness of our approach against model diagnose-based defences. We force the feature representation of malicious input stamped with the trigger to be entangled with the benign one. We demonstrate the effectiveness and robustness against multiple state-of-the-art defences through extensive datasets and networks. Our trigger only modifies less than 1\% pixels of a benign image while the modification magnitude is 1. Our source code is available at https://github.com/Ekko-zn/IJCAI2022-Backdoor., Comment: IJCAI 2022

Published
2022

21. Maternal dominance contributes to subgenome differentiation in allopolyploid fishes

Author

Min-Rui-Xuan Xu, Zhen-Yang Liao, Jordan R. Brock, Kang Du, Guo-Yin Li, Zhi-Qiang Chen, Ying-Hao Wang, Zhong-Nan Gao, Gaurav Agarwal, Kevin H-C Wei, Feng Shao, Shuai Pang, Adrian E. Platts, Jozefien van de Velde, Hong-Min Lin, Scott J. Teresi, Kevin Bird, Chad E. Niederhuth, Jin-Gen Xu, Guo-Hua Yu, Jian-Yuan Yang, Si-Fa Dai, Andrew Nelson, Ingo Braasch, Xiao-Gu Zhang, Manfred Schartl, Patrick P. Edger, Min-Jin Han, and Hua-Hao Zhang

Subjects
Science
Abstract

Abstract Teleost fishes, which are the largest and most diverse group of living vertebrates, have a rich history of ancient and recent polyploidy. Previous studies of allotetraploid common carp and goldfish (cyprinids) reported a dominant subgenome, which is more expressed and exhibits biased gene retention. However, the underlying mechanisms contributing to observed ‘subgenome dominance’ remains poorly understood. Here we report high-quality genomes of twenty-one cyprinids to investigate the origin and subsequent subgenome evolution patterns following three independent allopolyploidy events. We identify the closest extant relatives of the diploid progenitor species, investigate genetic and epigenetic differences among subgenomes, and conclude that observed subgenome dominance patterns are likely due to a combination of maternal dominance and transposable element densities in each polyploid. These findings provide an important foundation to understanding subgenome dominance patterns observed in teleost fishes, and ultimately the role of polyploidy in contributing to evolutionary innovations.

Published
2023
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26. Effects of Lianhuaqingwen Capsules in adults with mild-to-moderate coronavirus disease 2019: an international, multicenter, double-blind, randomized controlled trial

Author

Zheng, Jin-ping, Ling, Yun, Jiang, Liang-shuang, Mootsikapun, Piroon, Lu, Hong-zhou, Chayakulkeeree, Methee, Zhang, Li-xiu, Arttawejkul, Pureepat, Hu, Feng-yu, Truong, Thi Ngoc Lan, Perez, Roxan A., Gu, Xing, Sun, Hui-min, Jiang, Jian-jie, Liu, Ren-jie, Ding, Zhen, Zhan, Yang-qing, Yang, Zi-feng, Guan, Wei-jie, and Zhong, Nan-shan

Published
2023
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41. Toward computing sensitivities of average quantities in turbulent flows

Author

Chandramoorthy, Nisha, Wang, Zhong-Nan, Wang, Qiqi, and Tucker, Paul

Subjects
Computer Science - Computational Engineering, Finance, and Science, Nonlinear Sciences - Chaotic Dynamics
Abstract

Chaotic dynamical systems such as turbulent flows are characterized by an exponential divergence of infinitesimal perturbations to initial conditions. Therefore, conventional adjoint/tangent sensitivity analysis methods that are successful with RANS simulations fail in the case of chaotic LES/DNS. In this work, we discuss the limitations of current approaches, including ensemble-based and shadowing-based sensitivity methods, that were proposed as alternatives to conventional sensitivity analysis. We propose a new alternative, called the space-split sensitivity (S3) algorithm, that is computationally efficient and addresses these limitations. In this work, the derivation of the S3 algorithm is presented in the special case where the system converges to a stationary distribution that can be expressed with a probability density function everywhere in phase-space. Numerical examples of low-dimensional chaotic maps are discussed where S3 computation shows good agreement with finite-difference results, indicating potential for the development of the method in more generality., Comment: 10 pages; Center for turbulence research summer program 2018

Published
2019

47. A Double-Blind Randomized Placebo-Controlled Phase 3 Trial of Tobramycin Inhalation Solution in Adults With Bronchiectasis With Pseudomonas aeruginosa Infection

Author

Guan, Wei-jie, Xu, Jin-fu, Luo, Hong, Xu, Xing-xiang, Song, Yuan-lin, Ma, Wan-li, Liang, Zong-an, Liu, Xue-dong, Zhang, Guo-jun, Zhang, Xiao-ju, Li, Rong-kai, Zhu, Shu-yang, Zhang, Yi-jie, Cai, Xing-jun, Wei, Li-ping, Tian, Dong-bo, Zhao, Hui, Chen, Ping-yan, Qu, Jie-ming, and Zhong, Nan-shan

Published
2023
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49. Coordinated variable-based guidance method and experimental verification for multi-UAVs

Author

Zhong-nan TANG, Hong-bo XIN, Yu-jie WANG, Qing-yang CHEN, Peng WANG, and Xi-xiang YANG

Subjects
multi-uavs, cooperative attack, space–time coordination, coordinated variables, segmented track, flight experiment, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171
Abstract

With the gradual establishment of regional cooperative air defense systems by the world’s military powers, the success rate of a single-aircraft penetration operation is greatly reduced, and the concept of many-to-one cooperative operation has been widely valued. As a new type of lethal aerial weapon, suicide unmanned aerial vehicles (UAVs) have played an important role in many local wars recently. Compared with traditional missiles, suicide UAVs can hover in a combat area for a long time, waiting for potential targets. Moreover, a suicide UAV cannot be easily detected via an early warning system and can approach targets covertly. Further, the manufacturing cost of a suicide UAV is low, and it can form a large-scale swarm for a surprise attack. Therefore, in the foreseeable future, a multi-UAV cooperative attack is likely to subvert existing combat styles. According to the operational characteristics and requirements of multi-UAV cooperative attacks, a general guidance scheme for the cooperative attack of multi-UAVs is proposed. Based on the theory that proportional navigation law has trajectory uniqueness under specific variable constraints, the guidance phase is divided into coordination and terminal phases by selecting coordinated variables. The improved Dubins method is used in the track control of the coordination phase to realize the space–time synchronous convergence of coordination variables. The 3D space guidance is decoupled into longitudinal- and lateral-plane guidance in the terminal phase, and the impact time of the swarm is consistent based on the proportional guidance with the same coefficient. A track segment control realizes the space–time cooperation of the swarm considering the target defense range constraint. Numerical simulation and actual flight test results show that the scheme has real-time online planning ability, can realize an omnidirectional saturation attack under the space–time cooperation of a large-scale UAV swarm, and has high impact time and space precision.

Published
2022
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