Mengxi Jiang scite author profile

Mengxi Jiang

4Publications

14Citation Statements Received

103Citation Statements Given

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209

103

Affiliations

Xiamen University of Technology, Xiamen University, Fuzhou University

Publications

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DC-GNet: Deep Mesh Relation Capturing Graph Convolution Network for 3D Human Shape Reconstruction

Zhou

Jiang

Cai

et al. 2021

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In this paper, we aim to reconstruct a full 3D human shape from a single image. Previous vertex-level and parameter regression approaches reconstruct 3D human shape based on a pre-defined adjacency matrix to encode positive relations between nodes. The deep topological relations for the surface of the 3D human body are not carefully exploited. Moreover, the performance of most existing approaches often suffer from domain gap when handling more occlusion cases in real-world scenes.In this work, we propose a Deep Mesh Relation Capturing Graph Convolution Network, DC-GNet, with a shape completion task for 3D human shape reconstruction. Firstly, we propose to capture deep relations within mesh vertices, where an adaptive matrix encoding both positive and negative relations is introduced. Secondly, we propose a shape completion task to learn prior about various kinds of occlusion cases. Our approach encodes mesh structure from more subtle relations between nodes in a more distant region. Furthermore, our shape completion module alleviates the performance degradation issue in the outdoor scene. Extensive experiments on several benchmarks show that our approach outperforms the previous 3D human pose and shape estimation approaches. CCS CONCEPTS• Computing methodologies → Computer vision.

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Reweighted sparse representation with residual compensation for 3D human pose estimation from a single RGB image

Jiang

Zhang

et al. 2019

Neurocomputing

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Towards recurrent neural network with multi-path feature fusion for signal modulation recognition

et al. 2022

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A Survey of Applications of Deep Learning in Radio Signal Modulation Recognition

et al. 2022

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With the continuous development of communication technology, the wireless communication environment becomes more and more complex with various intentional and unintentional signals. Radio signals are modulated in different ways. The traditional radio modulation recognition technology cannot recognize the modulation modes accurately. Consequently, the communication system has embraced Deep Learning (DL) models as they can automatically recognize the modulation modes and have better accuracy. This paper systematically summarizes the related contents of radio Automatic Modulation Recognition (AMR) based on DL over the last seven years. First, we summarize the current research status of modulation recognition and the necessity of AMR research based on DL. Then, we review current radio AMR methods based on DL. In addition, we also propose a network model of AMR based on Convolutional Neural Network (CNN) and prove its effectiveness. Finally, we highlight existing challenges and research directions of radio AMR based on DL.

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Mengxi Jiang

DC-GNet: Deep Mesh Relation Capturing Graph Convolution Network for 3D Human Shape Reconstruction

Reweighted sparse representation with residual compensation for 3D human pose estimation from a single RGB image

Towards recurrent neural network with multi-path feature fusion for signal modulation recognition

A Survey of Applications of Deep Learning in Radio Signal Modulation Recognition

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