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Zhao, Li, Jiao, Yan, Chen, Jie, Zhao, Ruixia.  2021.  Image Style Transfer Based on Generative Adversarial Network. 2021 International Conference on Computer Network, Electronic and Automation (ICCNEA). :191–195.
Image style transfer refers to the transformation of the style of image, so that the image details are retained to the maximum extent while the style is transferred. Aiming at the problem of low clarity of style transfer images generated by CycleGAN network, this paper improves the CycleGAN network. In this paper, the network model of auto-encoder and variational auto-encoder is added to the structure. The encoding part of the auto-encoder is used to extract image content features, and the variational auto-encoder is used to extract style features. At the same time, the generating network of the model in this paper uses first to adjust the image size and then perform the convolution operation to replace the traditional deconvolution operation. The discriminating network uses a multi-scale discriminator to force the samples generated by the generating network to be more realistic and approximate the target image, so as to improve the effect of image style transfer.
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Song, Baolin, Jiang, Hao, Zhao, Li, Huang, Chengwei.  2017.  A Bimodal Biometric Verification System Based on Deep Learning. Proceedings of the International Conference on Video and Image Processing. :89–93.

In order to improve the limitation of single-mode biometric identification technology, a bimodal biometric verification system based on deep learning is proposed in this paper. A modified CNN architecture is used to generate better facial feature for bimodal fusion. The obtained facial feature and acoustic feature extracted by the acoustic feature extraction model are fused together to form the fusion feature on feature layer level. The fusion feature obtained by this method are used to train a neural network of identifying the target person who have these corresponding features. Experimental results demonstrate the superiority and high performance of our bimodal biometric in comparison with single-mode biometrics for identity authentication, which are tested on a bimodal database consists of data coherent from TED-LIUM and CASIA-WebFace. Compared with using facial feature or acoustic feature alone, the classification accuracy of fusion feature obtained by our method is increased obviously.

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Jianyu, Wang, Chunming, Wu, Shouling, Ji, Qinchen, Gu, Zhao, Li.  2017.  Fraud Detection via Coding Nominal Attributes. Proceedings of the 2017 2Nd International Conference on Multimedia Systems and Signal Processing. :42–45.

Research on advertisement has mainly focused on how to accurately predict the click-through rate (CTR). Much less is known about fraud detection and malicious behavior defense. Previous studies usually use statistics, design threshold and manually make strategies, which cannot find potential fraud behavior effectively and suffer from new attacks. In this paper, we make the first step to understand the type of malicious activities on large-scale online advertising platforms. By analyzing each feature comprehensively, we propose a novel coding approach to transform nominal attributes into numeric while maintaining the most effective information of the original data for fraud detection. Next, we code important features such as IP and cookie in our dataset and train machine learning methods to detect fraud traffic automatically. Experimental results on real datasets demonstrate that the proposed fraud detection method performs well considering both the accuracy and efficiency. Finally, we conclude how to design a defense system by considering which methods could be used for the anti-spam gaming in the future.