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基于双分支深度图卷积网络的指静脉识别研究OA

Research on Finger-vein Recognition Based on Deep Graph Convolutional Network with Dual-Branch

中文摘要英文摘要

基于图卷积神经网络(GCNN)的指静脉识别方法不仅可以解决传统指静脉识别方法识别率较低的问题,还可以解决其计算量大的问题.针对目前指静脉图模型结构不稳定和匹配效率因模型增大而下降的问题,采用SLIC(Simple Linear Iterative Clustering)超像素分割算法来构建加权图并改变GCNN提取加权图的图级特征.为了有效抓取图数据中的高阶特征并避免过平滑,建立一种双分支多交互的深度图卷积网络(GCN),旨在提升节点对高阶特征的掌握能力.首先根据节点特征对图结构进行调整;然后结合原始和重构后的图结构,构建了双分支网络架构以充分挖掘高阶特征;最后设计一种通道信息互动机制,以促进不同分支间的信息交流,从而提高特征的多样性.实验结果显示,在多个标准数据集上进行指静脉识别任务时,该网络能减少单张图片识别时间,提高识别效率,并有效减轻过平滑现象,相较于单分支的GCN,在识别精度上平均取得了超过1.5百分点的性能提升.

This study presents a finger-vein recognition method based on a Graph Convolutional Neural Network(GCNN)to overcome the low recognition rates and high computational cost of traditional methods.The study aims to address issues of graph structure instability and degraded matching efficiency in current finger-vein graph models.For this purpose,a Simple Linear Iterative Clustering(SLIC)superpixel segmentation algorithm is utilized to construct a weighted graph,based on which the GCNN is adapted for graph-level feature extraction.A dual-branch multi-interaction deep Graph Convolutional Network(GCN)is proposed to enhance the node's capability to represent higher-order features,to effectively capture these features in the graph data while avoiding oversmoothing.This study first adjusts the graph structure based on node features.Subsequently,by integrating the original and reconstructed graph structures,a dual-branch network architecture is built to fully explore higher-order features.Furthermore,a feature channel interaction mechanism is designed to facilitate information exchange between different branches,thereby improving feature diversity.Experimental results on multiple standard datasets for finger-vein recognition show that the proposed network reduces recognition time per image,improves efficiency,and effectively alleviates oversmoothing.Compared with the single-branch GCN,it improves recognition accuracy by an average of over 1.5 percentage points.

程俊军;王明文

西南交通大学数学学院,四川成都 610000西南交通大学数学学院,四川成都 610000

信息技术与安全科学

指静脉识别图像分割算法图卷积神经网络交叉熵函数通道信息交互

finger-vein recognitionimage segmentation algorithmGraph Convolutional Neural Network(GCNN)cross-entropy functionchannel information interaction

《计算机工程》 2026 (3)

152-160,9

国家自然科学基金(62106206).

10.19678/j.issn.1000-3428.0070022

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