基于金字塔四元离散余弦变换的 ConvNet，用于可抵消人脸识别

IF 4.2 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Image and Vision Computing Pub Date : 2024-10-13 DOI:10.1016/j.imavis.2024.105301

Zhuhong Shao , Zuowei Zhang , Leding Li , Hailiang Li , Xuanyi Li , Bicao Li , Yuanyuan Shang , Bin Chen

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引用次数: 0

摘要

当前的人脸扫描时代可以快速便捷地实现身份验证，但人脸图像同时意味着敏感信息。在此背景下，我们利用基于四元变换的卷积网络引入了一种新型的可抵消人脸识别方法。首先，将不同模态（如 RGB、深度或近红外）的人脸图像编码成全四元数矩阵进行同步处理。根据设计的多分辨率四元数奇异值分解，我们可以得到金字塔表示。然后通过随机投影进行变换，使处理过程不可逆。即使特征模板受到破坏，也能生成新的模板。随后，我们开发了一个三流卷积网络来学习特征，其中预定义的滤波器源于四元二维离散余弦变换基础。在 TIII-D、NVIE 和 CASIA 数据集上进行的大量实验表明，所提出的方法不仅能获得具有竞争力的性能，还能满足可再分配和不可逆的要求。

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Pyramid quaternion discrete cosine transform based ConvNet for cancelable face recognition

The current face scanning era can quickly and conveniently attain identity authentication, but face images imply sensitive information simultaneously. Under such context, we introduce a novel cancelable face recognition methodology by using quaternion transform based convolutional network. Firstly, face images in different modalities (e.g., RGB and depth or near-infrared) are encoded into full quaternion matrix for synchronous processing. Based on the designed multiresolution quaternion singular value decomposition, we can obtain pyramid representation. Then they are transformed through random projection for making the process noninvertible. Even if the feature template is compromised, a new one can be generated. Subsequently, a three-stream convolutional network is developed to learn features, where predefined filters are stemmed from quaternion two-dimensional discrete cosine transform basis. Extensive experiments on the TIII-D, NVIE and CASIA datasets have demonstrated that the proposed method obtains competitive performance, also satisfies redistributable and irreversible.

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来源期刊

Image and Vision Computing 工程技术-工程：电子与电气

CiteScore

8.50

自引率

8.50%

发文量

143

审稿时长

7.8 months

期刊介绍： Image and Vision Computing has as a primary aim the provision of an effective medium of interchange for the results of high quality theoretical and applied research fundamental to all aspects of image interpretation and computer vision. The journal publishes work that proposes new image interpretation and computer vision methodology or addresses the application of such methods to real world scenes. It seeks to strengthen a deeper understanding in the discipline by encouraging the quantitative comparison and performance evaluation of the proposed methodology. The coverage includes: image interpretation, scene modelling, object recognition and tracking, shape analysis, monitoring and surveillance, active vision and robotic systems, SLAM, biologically-inspired computer vision, motion analysis, stereo vision, document image understanding, character and handwritten text recognition, face and gesture recognition, biometrics, vision-based human-computer interaction, human activity and behavior understanding, data fusion from multiple sensor inputs, image databases.