Your search keyword '"Nie, Shibo"' showing total 9 results

1. DF^2AM: Dual-level Feature Fusion and Affinity Modeling for RGB-Infrared Cross-modality Person Re-identification

Author

Yin, Junhui, Ma, Zhanyu, Xie, Jiyang, Nie, Shibo, Liang, Kongming, and Guo, Jun

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

RGB-infrared person re-identification is a challenging task due to the intra-class variations and cross-modality discrepancy. Existing works mainly focus on learning modality-shared global representations by aligning image styles or feature distributions across modalities, while local feature from body part and relationships between person images are largely neglected. In this paper, we propose a Dual-level (i.e., local and global) Feature Fusion (DF^2) module by learning attention for discriminative feature from local to global manner. In particular, the attention for a local feature is determined locally, i.e., applying a learned transformation function on itself. Meanwhile, to further mining the relationships between global features from person images, we propose an Affinities Modeling (AM) module to obtain the optimal intra- and inter-modality image matching. Specifically, AM employes intra-class compactness and inter-class separability in the sample similarities as supervised information to model the affinities between intra- and inter-modality samples. Experimental results show that our proposed method outperforms state-of-the-arts by large margins on two widely used cross-modality re-ID datasets SYSU-MM01 and RegDB, respectively.

Published

2021

2. Epilepsy Detection Based on Graph Convolutional Neural Network and Transformer

Author

Nie Shibo

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Epilepsy detection is a critical medical task, but traditional methods face challenges in accuracy and reliability due to the difficulty of EEG data acquisition and the limitation of the number of sample seizures. To overcome these challenges, this paper proposes a new model for epilepsy detection that combines Graph Convolutional Neural Network (Graph Convolutional Network, GCN) and Transformer, aiming to significantly improve the accuracy and sensitivity of detection. The core of the model adopts GCN, which utilizes its powerful inter-node relationship capturing capability and graph feature learning mechanism. However, due to the limitation of traditional GCN in integrating global features, this model incorporates the Transformer structure to enhance global feature aggregation and reduce irrelevant feature interactions. After multiple rounds of testing of the GHB-MIT dataset, the model demonstrated excellent performance, with an average sensitivity of 92.97%, specificity of 94.60%, and accuracy of 94.59%, which was significantly better than the traditional method. Further comparison with the latest literature also confirms the advantages of the present method. In summary, the epilepsy detection model we developed based on graph convolutional neural network and Transformer not only shows significant improvement in accuracy and sensitivity, but also provides more accurate and reliable technical support for epilepsy diagnosis, which provides a valuable reference for research in related fields.

Published

2024

3. Dual-granularity feature alignment for cross-modality person re-identification

Author

Yin, Junhui, Ma, Zhanyu, Xie, Jiyang, Nie, Shibo, Liang, Kongming, and Guo, Jun

Published

2022

4. Sound Field Visualization of Specified Frequency by Combining Scanning System with Lock-in Amplifier.

Author

Yang, Jiahao, Li, Pan, Yin, Guanjun, Nie, Shibo, Tian, Ye, and Guo, Jianzhong

Published

2024

5. Reflection Artifacts Removal of Photoacoustic Imaging in Complex Medium.

Author

Nie, Shibo, Li, Pan, Qi, Yuexin, Yang, Jiahao, Tian, Ye, Yin, Guanjun, and Guo, Jianzhong

Published

2024

6. Optimization on artifacts in photoacoustic images based on spectrum analyses and signal extraction.

Author

Nie, Shibo, Yin, Guanjun, Li, Pan, and Guo, Jianzhong

Abstract

Photoacoustic (PA) imaging is a promising technology for functional imaging of biological tissues, offering optical contrast and acoustic penetration depth. However, the presence of signal aliasing from multiple PA sources within the same imaging object can introduce artifacts and significantly impact the quality of the PA tomographic images. In this study, an optimized method is proposed to suppress these artifacts and enhance image quality effectively. By leveraging signal time-frequency spectrum, signals from each PA source can be extracted. Subsequently, the images are reconstructed using these extracted signals and fused together to obtain an optimized image. To verify this proposed method, PA imaging experiments were conducted on two phantoms and two in vitro samples and the distribution relative error and root mean square error of the images obtained through conventional and optimized methods were calculated. The results demonstrate that the proposed method successfully suppresses the artifacts and substantially improves the image quality. [ABSTRACT FROM AUTHOR]

Published

2024

7. Variation of Acoustic Transmission Spectrum during the Muscle Fatigue Process

Author

Li, Pan, primary, Yin, Guanjun, additional, Nie, Shibo, additional, and Guo, Jianzhong, additional

Published

2023

8. Multi-modal Human-machine Conversation System for Real Physical World

Author

Chen, Yitao, primary, Nie, Shibo, additional, Guan, Mandan, additional, Wang, Jie, additional, Du, Ruoyi, additional, Chang, Dongliang, additional, Liang, Kongming, additional, and Ma, Zhanyu, additional

Published

2022

9. SSKD: Self-Supervised Knowledge Distillation for Cross Domain Adaptive Person Re-Identification

Author

Liu, Weidong, primary, Nie, Shibo, additional, Yin, Junhui, additional, Wang, Rui, additional, Gao, Donghui, additional, and Jin, Ling, additional

Published

2021