Face recognition as a kronecker product equation

2017 IEEE 7th International Workshop on Computational Advances in Multi-Sensor Adaptive Processing (CAMSAP) Pub Date : 2017-12-01 DOI:10.1109/CAMSAP.2017.8313140

Martijn Boussé, Nico Vervliet, Otto Debals, L. D. Lathauwer

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引用次数: 8

Abstract

Various parameters influence face recognition such as expression, pose, and illumination. In contrast to matrices, tensors can be used to naturally accommodate for the different modes of variation. The multilinear singular value decomposition (MLSVD) then allows one to describe each mode with a factor matrix and the interaction between the modes with a coefficient tensor. In this paper, we show that each image in the tensor satisfying an MLSVD model can be expressed as a structured linear system called a Kronecker Product Equation (KPE). By solving a similar KPE for a new image, we can extract a feature vector that allows us to recognize the person with high performance. Additionally, more robust results can be obtained by using multiple images of the same person under different conditions, leading to a coupled KPE. Finally, our method can be used to update the database with an unknown person using only a few images instead of an image for each combination of conditions. We illustrate our method for the extended Yale Face Database B, achieving better performance than conventional methods such as Eigenfaces and other tensor-based techniques.

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人脸识别的克罗内克积方程

各种参数影响人脸识别，如表情、姿势和照明。与矩阵相反，张量可以用来自然地适应不同的变化模式。然后，多线性奇异值分解(MLSVD)允许用因子矩阵描述每个模态，并用系数张量描述模态之间的相互作用。在本文中，我们证明了满足MLSVD模型的张量中的每个图像都可以表示为一个称为Kronecker积方程(KPE)的结构化线性系统。通过对新图像求解类似的KPE，我们可以提取一个特征向量，使我们能够识别出具有高性能的人。此外，使用同一人在不同条件下的多幅图像可以获得更鲁棒的结果，从而导致耦合的KPE。最后，我们的方法可以用于更新数据库，其中包含一个未知的人，仅使用少数图像而不是每个条件组合使用一个图像。我们为扩展的耶鲁人脸数据库B展示了我们的方法，获得了比传统方法(如特征面和其他基于张量的技术)更好的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2017 IEEE 7th International Workshop on Computational Advances in Multi-Sensor Adaptive Processing (CAMSAP)

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