Latent Structure-Aware View Recovery for Incomplete Multi-View Clustering

• Published in: IEEE transactions on knowledge and data engineering pp. 1 - 15
• Main Authors: Liu, Cheng, Li, Rui, Che, Hangjun, Leung, Man-Fai, Wu, Si, Yu, Zhiwen, Wong, Hau-San
• Format: Journal Article
• Language: English
• Published: IEEE 19.08.2024
• Subjects: Accuracy; Computer science; Cross view graph diffusion regularization; Diffusion processes; Imputation; Incomplete multi-view clustering; Iterative methods; Latent structure-aware view recovery; Optimization; Representation learning
• ISSN: 1041-4347
• DOI: 10.1109/TKDE.2024.3445992

Incomplete multi-view clustering (IMVC) presents a significant challenge due to the need for effectively exploring complementary and consistent information within the context of missing views. One promising strategy to tackle this challenge is to recover missing views by inferring the missing samples. However, such approaches often fail to fully utilize discriminative structural information or adequately address consistency, as it requires such information to be known or learnable in advance, which contradicts the incomplete data setting. In this study, we propose a novel approach called Latent Structure-Aware view recovery (LaSA) for the IMVC task. Our objective is to recover missing views through discriminative latent representations by leveraging structural information. Specifically, our method offers a unified closed-form formulation that simultaneously performs missing data inference and latent representation learning, using a learned intrinsic graph as structural information. This formulation, incorporating graph structure information, enhances the inference of missing data while facilitating discriminative feature learning. Even when intrinsic graph is initially unknown due to incomplete data, our formulation allows for effective view recovery and intrinsic graph learning through an iterative optimization process. To further enhance performance, we introduce an iterative consistency diffusion process, which effectively leverages the consistency and complementary information across multiple views. Extensive experiments demonstrate the effectiveness of the proposed method compared to state-of-the-art approaches.