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Article Dans Une Revue Neurocomputing Année : 2016

Color image classification via quaternion principal component analysis network

Résumé

The principal component analysis network (PCANet), which is one of the recently proposed deep learning architectures, achieves the state-of-the-art classification accuracy in various datasets and reveals a simple baseline for deep learning networks. However, the performance of PCANet may be degraded when dealing with color images due to the fact that the architecture of PCANet cannot properly utilize the spatial relationship between each color channel in three dimensional color image. In this paper, a quaternion principal component analysis network (QPCANet), which extends PCANet by using quaternion theory, is proposed for color image classification. Compared to PCANet, the proposed QPCANet takes into account the spatial distribution information of RGB channels in color images and ensures larger amount of intra-class invariance by using quaternion domain representation for color images. Experiments conducted on different color image datasets such as UC Merced Land Use, Georgia Tech face, CURet and Caltech-101 have revealed that the proposed QPCANet generally achieves higher classification accuracy than PCANet in color image classification task. The experimental results also verify that QPCANet has much better rotation invariance than PCANet when color image dataset contains lots of rotation information and demonstrate even a simple one-layer QPCANet may obtain satisfactory accuracy when compared with two-layer PCANet.
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Dates et versions

hal-01413815 , version 1 (17-12-2016)

Identifiants

Citer

Rui Zeng, Jiasong Wu, Zhuhong Shao, Yang Chen, Beijing Chen, et al.. Color image classification via quaternion principal component analysis network. Neurocomputing, 2016, 216, pp.416 - 428. ⟨10.1016/j.neucom.2016.08.006⟩. ⟨hal-01413815⟩
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