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244 results on '"Yang, Haiguang"'

1. When Deep Learning Meets Multi-Task Learning in SAR ATR: Simultaneous Target Recognition and Segmentation

Author

Wang, Chenwei, Pei, Jifang, Wang, Zhiyong, Huang, Yulin, Wu, Junjie, Yang, Haiguang, and Yang, Jianyu

Subjects
Electrical Engineering and Systems Science - Image and Video Processing
Abstract

With the recent advances of deep learning, automatic target recognition (ATR) of synthetic aperture radar (SAR) has achieved superior performance. By not being limited to the target category, the SAR ATR system could benefit from the simultaneous extraction of multifarious target attributes. In this paper, we propose a new multi-task learning approach for SAR ATR, which could obtain the accurate category and precise shape of the targets simultaneously. By introducing deep learning theory into multi-task learning, we first propose a novel multi-task deep learning framework with two main structures: encoder and decoder. The encoder is constructed to extract sufficient image features in different scales for the decoder, while the decoder is a tasks-specific structure which employs these extracted features adaptively and optimally to meet the different feature demands of the recognition and segmentation. Therefore, the proposed framework has the ability to achieve superior recognition and segmentation performance. Based on the Moving and Stationary Target Acquisition and Recognition (MSTAR) dataset, experimental results show the superiority of the proposed framework in terms of recognition and segmentation.

Published
2023
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8. Elucidating key immunological biomarkers and immune microenvironment dynamics in aging‐related intracranial aneurysm through integrated multi‐omics analysis.

Author

Wang, Kai, Xiao, Yangyang, Zhang, Wenjia, Yang, Haiguang, Li, Chaoqun, Wang, Jia, and Li, Guoshu

Subjects
INTRACRANIAL aneurysms, MONOCYTES, KILLER cells, MULTIOMICS, CELL communication, CELL analysis, MALE models
Abstract

Background: The exact cause of intracranial aneurysms (IA) is still unclear. However, pro‐inflammatory factors are known to contribute to IA progression. The specific changes in the immune microenvironment of IAs remain largely unexplored. Methods: This study analyzed single‐cell sequencing data from a male mouse model of brain aneurysm, focusing on samples before and after elastase‐induced Willis aneurysms. The data helped identify eight distinct cell subpopulations: fibroblasts, macrophages, NK cells, endothelial cells, B cells, granulocytes, and monocytes. The study also involved bulk RNA sequencing of 97 IA samples, utilizing ssGSEA and CIBERSORT algorithms for analysis. Intercellular communication among these cells was inferred to understand the immune dynamics in IA. Results: The study found that fibroblasts and macrophages are predominant in various disease states of IA. Notably, the onset of IA was marked by a significant increase in fibroblasts and a decrease in macrophages. There was a marked increase in cellular interactions, especially involving macrophages, at the onset of the disease. Through enrichment analysis, 12 potential immunogenic biomarkers were identified. Of these, Rgs1 emerged as a critical molecule in IA formation, confirmed through secondary validation in a single‐cell sequencing dataset. Conclusion: This comprehensive analysis of immune cell composition and intercellular communication in IA tissues highlights the significant roles of macrophages and the molecule Rgs1. These findings shed light on the physiological and pathological conditions of IA, offering new insights into its immune microenvironment. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Joint Localization and Tracking Method for BiSAR-GMTI via Transmitter–Receiver Trajectories Extraction and Inversion

Author

Li, Junao, Li, Zhongyu, Yang, Haiguang, Yang, Qing, Wang, Yahui, Wu, Junjie, and Yang, Jianyu

Abstract

Localization and tracking are important components for ground-moving target indication (GMTI). The traditional range-Doppler (RD) localization model is always applied to locate stationary targets in bistatic synthetic aperture radar (BiSAR). However, for moving targets, this localization model is no longer applicable due to the strong coupling of position and velocity with Doppler frequency. To address the severe challenge, this article proposes a joint moving target localization and tracking method for BiSAR-GMTI via transmitter–receiver trajectories extraction and inversion. The key innovation is the derivation of closed-form localization results for moving targets, which is beneficial for the quantitative analysis of localization error. The proposed method is structured into three main parts. First, to accurately capture the range history trajectory information, a segmented fitting extraction and inversion framework is designed. Second, to estimate the moving target’s initial state and demonstrate localization observability, joint range localization equations are established where the closed-form localization result of the moving target is derived. Finally, by defining the appropriate state transition equation and observation equation, and incorporating particle filtering (PF), the position measurement errors of bistatic platforms are weakened, and accurate tracking of moving targets is realized. The proposed method only utilizes range information, mitigating localization errors caused by Doppler estimation inaccuracies effectively. Simulation experiments and real data both demonstrate the localization and tracking accuracy of moving targets.

Published
2024
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46. Shape-dependent close-edge 2D-MoS2 nanobelts

Author

Wang, Xiaofeng, primary, Yang, Haiguang, additional, Feng, Huimin, additional, Wang, Lei, additional, Chen, Shengyao, additional, Zhou, Zhican, additional, Wang, Shu, additional, and Liu, Qian, additional

Published
2020
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