Dual-Constrained Deep Semi-Supervised Coupled Factorization Network with Enriched Prior
作者:Yan Zhang, Zhao Zhang, Yang Wang, Zheng Zhang, Li Zhang, Shuicheng Yan, Meng Wang
摘要
Nonnegativity based matrix factorization is usually powerful for learning the parts-based “shallow” representation, however it fails to discover deep hidden information within both the basis concept and representation spaces. In this paper, we therefore propose a new dual-constrained deep semi-supervised coupled factorization network (DS2CF-Net) for learning hierarchical representations. DS2CF-Net is formulated as the joint partial-label and structure-constrained deep factorization network using multi-layers of linear transformations, which coupled updates the basic concepts and new representations in each layer. An error correction mechanism with feature fusion strategy is also integrated between consecutive layers to improve the representation ability of features. To improve the discriminating abilities of both representation and coefficients in feature space, we clearly consider how to enrich the prior knowledge by the coefficients-based label prediction, and incorporate the enriched prior knowledge as the additional label and structure constraints. To be specific, the label constraint enables the intra-class samples to have the same coordinate in the feature space, while the structure constraint forces the coefficients in each layer to be block-diagonal so that the enriched prior knowledge are more accurate. Besides, we integrate the adaptive dual-graph learning to retain the locality structures of both the data manifold and feature manifold in each layer. Finally, a fine-tuning process is performed to refine the structure-constrained matrix and data weight matrix in each layer using the predicted labels for more accurate representations. Extensive simulations on public databases show that our method can obtain state-of-the-art performance.
论文关键词:Deep semi-supervised coupled factorization network, Representation learning, Dual constraints, Clustering, Enriched prior, Error correction, Fine-tuning of features
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论文官网地址:https://doi.org/10.1007/s11263-021-01524-1