Joint coupled representation and homogeneous reconstruction for multi- resolution small sample face recognition

Off-the-shelf dictionary learning algorithms have achieved satisfactory results in small sample face recognition applications. However, the achieved results depend on the facial images obtained at a single resolution. In practice, the resolution of the images captured on the same target is different because of the different shooting equipment and different shooting distances. These images of the same category at dif-ferent resolutions will pose a great challenge to these algorithms. In this paper, we propose a Joint Coupled Representation and Homogeneous Reconstruction (JCRHR) for multi-resolution small sample face recognition. In JCRHR, an analysis dictionary is introduced and combined with the synthetic dic-tionary for coupled representation learning, which better reveals the relationship between coding coef-ficients and samples. In addition, a coherence enhancement term is proposed to improve the coherent representation of the coding coefficients at different resolutions, which facilitates the reconstruction of the sample by its homogeneous atoms. Moreover, each sample at different resolutions is assigned a dif-ferent coding coefficient in the multi-dictionary learning process, so that the learned dictionary is more in line with the actual situation. Furthermore, a regularization term based on the fractional norm is drawn into the dictionary coupled learning to remove the redundant information in the dictionary, which can reduce the negative impacts of the redundant information. Comprehensive results demonstrate that the proposed JCRHR method achieves better results than the state-of-the-art methods, on several small sample face databases.(c) 2022 Elsevier B.V. All rights reserved.

Automated summary

In this paper, a Joint Coupled Representation and Homogeneous Reconstruction (JCRHR) method is proposed for multi-resolution small sample face recognition. The method improves the coherent representation of coding coefficients and the reconstruction effect of samples at different resolutions by introducing an analysis dictionary, a synthetic dictionary, and a coherence enhancement term. Experimental results demonstrate that the proposed JCRHR method outperforms existing methods on several small sample face databases.