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Your search keyword '"Yan, Tianxing"' showing total 24 results
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24 results on '"Yan, Tianxing"'

1. GCAM: Gaussian and causal-attention model of food fine-grained recognition

Author

Zhuang, Guohang, Hu, Yue, Yan, Tianxing, and Gao, JiaZhan

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

Currently, most food recognition relies on deep learning for category classification. However, these approaches struggle to effectively distinguish between visually similar food samples, highlighting the pressing need to address fine-grained issues in food recognition. To mitigate these challenges, we propose the adoption of a Gaussian and causal-attention model for fine-grained object recognition.In particular, we train to obtain Gaussian features over target regions, followed by the extraction of fine-grained features from the objects, thereby enhancing the feature mapping capabilities of the target regions. To counteract data drift resulting from uneven data distributions, we employ a counterfactual reasoning approach. By using counterfactual interventions, we analyze the impact of the learned image attention mechanism on network predictions, enabling the network to acquire more useful attention weights for fine-grained image recognition. Finally, we design a learnable loss strategy to balance training stability across various modules, ultimately improving the accuracy of the final target recognition. We validate our approach on four relevant datasets, demonstrating its excellent performance across these four datasets.We experimentally show that GCAM surpasses state-of-the-art methods on the ETH-FOOD101, UECFOOD256, and Vireo-FOOD172 datasets. Furthermore, our approach also achieves state-of-the-art performance on the CUB-200 dataset., Comment: 23 pages, 11 figures

Published
2024

6. 3D Face Reconstruction Based on ResNet Feature Extraction and CBAM.

Author

Yan, Tianxing, Zhao, Yuhang, Xue, Zhichao, and Yilihamu, Yaermaimaiti

Subjects
*FEATURE extraction, *ALGORITHMS, *PIXELS, *SCARCITY, *ATTENTION
Abstract

In view of the scarcity, high cost and lack of diversity of three-dimensional (3D) face datasets, this paper designs an end-to-end self-supervised learning 3D face reconstruction network, which uses single 2D face image as input. The model bypasses the 3D face datasets and only uses the 2D face datasets for training to achieve high-precision 3D face reconstruction without any 3D face prior. First, the improved ResNet50 feature extraction module is introduced to extract and characterize the input image by deep convolutional network. Then, a lightweight convolutional block attention module is added to the face prediction subnetwork. On the one hand, channel attention extracts different information included in the image, and on the other hand spatial attention finds the location of the information. So, the serialized attention operation could accurately find the features required for different parameter predictions, further improving face reconstruction parameters’ prediction accuracy. Finally, training, ablation and comparison experiments were conducted on CelebFaces Attributes, basel face model and Photoface datasets, and the combined loss function of pixel loss and perception loss was selected. The pixel loss function was calculated at the pixel microscopic level, and the perception loss function was calculated at the image macroscopic convolution level. The combination of the two could complement each other. Compared with the historical optimal results of the same network structure, the scale-invariant depth error and mean angle deviation of the proposed algorithm are improved by 5.2% and 8.2%, respectively. Experimental results strongly prove the effectiveness of the algorithm. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Dependence Modelling for Heavy-Tailed Multi-Peril Insurance Losses.

Author

Yan, Tianxing, Lu, Yi, and Jeong, Himchan

Subjects
INSURANCE, BUSINESS records
Abstract

The Danish fire loss dataset records commercial fire losses under three insurance coverages: building, contents, and profits. Existing research has primarily focused on the heavy-tail behaviour of the losses but ignored the relationship among different insurance coverages. In this paper, we aim to model the aggregate loss for all three coverages. To study the pairwise dependence of claims from all types of coverage, an independent model, a hierarchical model, and some copula-based models are proposed for the frequency component. Meanwhile, we applied composite distributions to capture the heavy-tailed severity component. It is shown that consideration of dependence for the multi-peril frequencies (i) significantly enhances model goodness-of-fit and (ii) provides more accurate risk measures of the aggregated losses for all types of coverage in total. [ABSTRACT FROM AUTHOR]

Published
2024
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13. Multimodal sentiment analysis based on improved correlation representation network

Author

Yaermaimaiti, Yilihamu, Yan, Tianxing, Zhuang, Guohang, and Kari, Tusongjiang

Abstract

Multimodal sentiment analysis (MSA) refers to extracting emotional information from language, acoustic, and visual sequences. Due to the gap between multimodal features, previous work did not take full advantage of multimodal correlations, resulting in limited improvement in fusion strategies. To this end, we propose a multimodal correlation representation network (MCRN) to extract multimodal features by a dual output transformer. The first output of the transformer is used by depth canonical correlation analysis (DCCA) to model the correlation between multimodal data. Then the secondary output of the transformer uses the attention mechanism to fuse multi-modality, and the final output of the model is emotional intensity. In addition, in the second output stage, we designed a single-mode output loss to balance the differences between subtasks. Extensive experiments suggest that our model reaches state-of-the-art performance in most of the existing methods on multimodal opinion-level sentiment intensity (MOSI) dataset and multimodal opinion sentiment and emotion intensity (MOSEI) dataset.

Published
2024
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22. Identification and characterization of chicken circovirus from commercial broiler chickens in China.

Author

Li, Gen, Yuan, Shiyu, Yan, Tianxing, Shan, Hu, and Cheng, Ziqiang

Subjects
CIRCOVIRUS diseases, BROILER chickens, CHICKENS, CHICKEN diseases, REPORTING of diseases, GASTROENTERITIS, CIRCOVIRUSES
Abstract

Circoviruses are found in many species, including mammals, birds, lower vertebrates and invertebrates. To date, there are no reports of circovirus‐induced diseases in chickens. In this study, we identified a new strain of chicken circovirus (CCV) by PacBio third‐generation sequencing samples from chickens with acute gastroenteritis in a Shandong commercial broiler farm in China. The complete genome of CCV was verified by inverse PCR. Genomic analysis revealed that CCV codes two inverse open reading frames (ORFs), and a potential stem‐loop structure was present at the 5′ end with a structure typical of a circular virus. Phylogenetic tree analysis showed that CCV formed an independent branch between mammalian and avian circovirus, and homology analysis indicated that the homology of CCV with 21 other known circoviruses was less than 40%. Thus, this CCV strain represents a new species in the genus Circovirus. The infection rate of CCV in 12 chickens with diarrhoea was 100%, but no CCV was found in healthy chickens, thereby indicating that the novel CCV strain is highly associated with acute infectious gastroenteritis in chickens. The emergence of a novel CCV in commercial broiler chickens is highly concerning for the broiler industry. [ABSTRACT FROM AUTHOR]

Published
2020
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24. Gyrovirus: current status and challenge.

Author

Yan T, Wang Z, Li R, Zhang D, Song Y, and Cheng Z

Abstract

Gyrovirus (GyV) is small, single-stranded circular DNA viruses that has recently been assigned to the family Anelloviridae . In the last decade, many GyVs that have an apparent pan-tropism at the host level were identified by high-throughput sequencing (HTS) technology. As of now, they have achieved global distribution. Several species of GyVs have been demonstrated to be pathogenic to poultry, particularly chicken anemia virus (CAV), causing significant economic losses to the global poultry industry. Although GyVs are highly prevalent in various birds worldwide, their direct involvement in the etiology of specific diseases and the reasons for their ubiquity and host diversity are not fully understood. This review summarizes current knowledge about GyVs, with a major emphasis on their morphofunctional properties, epidemiological characteristics, genetic evolution, pathogenicity, and immunopathogenesis. Additionally, the association between GyVs and various diseases, as well as its potential impact on the poultry industry, have been discussed. Future prevention and control strategies have also been explored. These insights underscore the importance of conducting research to establish a virus culture system, optimize surveillance, and develop vaccines for GyVs., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Yan, Wang, Li, Zhang, Song and Cheng.)

Published
2024
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