Contrastive Multiview Low-Rank Latent Subspace Self-Representation and Classification Network

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Deyu Zeng, Tengyu Zhang, Zongze Wu, Wei Liu, Chris Ding, Weixiang Liu

Published: 2025, Last Modified: 24 Feb 2026IEEE Trans. Syst. Man Cybern. Syst. 2025EveryoneRevisionsBibTeXCC BY-SA 4.0
Abstract: Multiview data classification remains a challenging problem in machine learning, particularly in effectively integrating and representing data from different views. This article introduces contrastive multiview low-rank latent subspace self-representation and classification network (CMvLSCN), a novel end-to-end multiview discriminant learning framework that addresses classification from view, sample, and subspace levels. CMvLSCN employs contrastive learning to enhance interview consistency within categories while differentiating between categories. It imposes a low-rank latent self-representation structure on the unified subspace, capturing intrinsic data relationships. Additionally, sample-level contrastive constraints in the latent space further boost the representation’s discriminative power. Extensive experiments demonstrate CMvLSCN’s superior performance across various multiview classification tasks, notably maintaining robustness even with limited training data. Our code and datasets are publicly available on https://github.com/DeyuTsang/CMvLSCN