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Your search keyword '"Jia, Chengyu"' showing total 13 results
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13 results on '"Jia, Chengyu"'

1. Local Features Meet Stochastic Anonymization: Revolutionizing Privacy-Preserving Face Recognition for Black-Box Models

Author

Liu, Yuanwei, Jia, Chengyu, Xiao, Ruqi, Jia, Xuemai, Wei, Hui, Jiang, Kui, and Wang, Zheng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The task of privacy-preserving face recognition (PPFR) currently faces two major unsolved challenges: (1) existing methods are typically effective only on specific face recognition models and struggle to generalize to black-box face recognition models; (2) current methods employ data-driven reversible representation encoding for privacy protection, making them susceptible to adversarial learning and reconstruction of the original image. We observe that face recognition models primarily rely on local features ({e.g., face contour, skin texture, and so on) for identification. Thus, by disrupting global features while enhancing local features, we achieve effective recognition even in black-box environments. Additionally, to prevent adversarial models from learning and reversing the anonymization process, we adopt an adversarial learning-based approach with irreversible stochastic injection to ensure the stochastic nature of the anonymization. Experimental results demonstrate that our method achieves an average recognition accuracy of 94.21\% on black-box models, outperforming existing methods in both privacy protection and anti-reconstruction capabilities.

Published
2024

4. Is Multi-Modal Necessarily Better? Robustness Evaluation of Multi-modal Fake News Detection

Author

Chen, Jinyin, Jia, Chengyu, Zheng, Haibin, Chen, Ruoxi, and Fu, Chenbo

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computers and Society, Computer Science - Social and Information Networks
Abstract

The proliferation of fake news and its serious negative social influence push fake news detection methods to become necessary tools for web managers. Meanwhile, the multi-media nature of social media makes multi-modal fake news detection popular for its ability to capture more modal features than uni-modal detection methods. However, current literature on multi-modal detection is more likely to pursue the detection accuracy but ignore the robustness of the detector. To address this problem, we propose a comprehensive robustness evaluation of multi-modal fake news detectors. In this work, we simulate the attack methods of malicious users and developers, i.e., posting fake news and injecting backdoors. Specifically, we evaluate multi-modal detectors with five adversarial and two backdoor attack methods. Experiment results imply that: (1) The detection performance of the state-of-the-art detectors degrades significantly under adversarial attacks, even worse than general detectors; (2) Most multi-modal detectors are more vulnerable when subjected to attacks on visual modality than textual modality; (3) Popular events' images will cause significant degradation to the detectors when they are subjected to backdoor attacks; (4) The performance of these detectors under multi-modal attacks is worse than under uni-modal attacks; (5) Defensive methods will improve the robustness of the multi-modal detectors.

Published
2022

8. The transparent CuI/InGaZnO4 pn junction toward enhanced photovoltaic response via potential regulation of ultrathin NiO transition layer.

Author

Liu, Dawei, Wang, Rui, Jia, Chengyu, Wang, Dingwei, Zhao, Zhiguo, Pan, Jiaqi, and Shi, Lei

Abstract

The transparent device in ultrathin NiO layer modified CuI/InGaZnO4 pn junction is prepared via sputtering-in situ iodization method. The CuI/NiO/InGaZnO4 exhibits transmittance of ~ 85–90%, photovoltaic enhancement of ~ 1.3 × 103-folds, stable output in 15 days. It can be mainly attributed to the ultrathin NiO layer. Besides appropriate Fermi level can alleviate potential gradient, the ultrathin NiO layer, with surface optimization and p-type carrier injection via Cu+/Cu2+, Ni2+/Ni3+-interstitial oxygen synergism, as well as high transparency by wide band gap, can improve the photo-generated carrier kinetic equilibrium for achieving PCE-transparency balance, while exhibiting good stability via the all inorganic structures, making them being competitive in transparent devices. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Comprehensive Evaluation and Scheme Optimization for Power Transmission and Transformation Projects with the Adoption of Carbon Reduction Technologies.

Author

Zhao, Shuyuan, Chen, Heng, Jia, Chengyu, Wang, Yinan, Xin, Cheng, and Jiang, Xue

Subjects
ANALYTIC hierarchy process, NET present value, TOPSIS method, CARBON
Abstract

To investigate the economic impact of carbon reduction technology on power transmission and transformation projects, carbon reduction technologies adapted to power transmission and transformation projects were investigated, and the evaluation indicator system for cost-benefit in power transmission and transformation projects was established based on AHP (Analytic Hierarchy Process) and EWM (Entropy Weight Method). Taking 110 kV and 220 kV transmission and transformation projects in a province located in northwest China as an example, a sensitivity analysis was carried out for the weight of each carbon reduction technology. Additionally, based on the evaluation indicator system, eight alternative carbon reduction schemes were proposed, and the net present value and scheme scores were analyzed with TOPSIS (Technique for Order of Preference by Similarity to Ideal Solution). The results showed that in the criterion layer of the 110 kV case, the highest proportion of weight is "high-efficiency transformer", accounting for 34.12%, and in the indicator layer, the highest proportion of weight is " parasitic losses", accounting for 12.35%. After conducting error analysis on the 110 kV and 220 kV cases, it was found that the errors were within an acceptable range both in the criterion layer and index layer. Moreover, it is expected to achieve greater economic benefits through lower costs according to Scheme VI, and due to the limitations of carbon reduction technologies and the lack of a relevant policy system, it is difficult to achieve the goal of covering costs with benefits for the eight schemes studied. [ABSTRACT FROM AUTHOR]

Published
2024
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