Bidirectional Attentive Multi-View Clustering

The key challenge of multi-view graph-based clustering is to mine consistent clustering structures from multiple graphs. Existing works seek clustering decisions from either multiple spectral embeddings or multiple affinity matrices, ignoring the interactions among them. To address this problem, we propose a Bidirectional Attentive Multi-view Clustering (BAMC) model to explore a consensus space w.r.t.spectral embedding and affinity matrix simultaneously, where they can promote each other to mine richer structural information from multiple graphs. BAMC is composed of a Spectral Embedding Learning (SEL) module, an Affinity Matrix Learning (AML) module, and a Bidirectional Attentive Clustering (BAC) module. SEL seeks consensus spectral embeddings by aligning the distributions of elements sampled from subspaces spanned by multiple spectral embeddings. AML learns a consensus affinity matrix from input affinity matrices. BAC guarantees consistency between the learned consensus spectral embeddings and the affinity matrix. To balance their effects, it also assigns adaptive weights to SEL and AML's objective functions. To solve the optimization problem involved in BAMC, we propose an efficient algorithm based on the Majority-Minimization framework with an ingenious surrogate problem. Extensive experiments on several synthetic and real-world datasets demonstrate the superb performance of BAMC.