Deep Determinantal Point Process for Large-Scale Multi-Label Classification

We study large-scale multi-label classification (MLC) on two recently released datasets: Youtube-8M and Open Images that contain millions of data instances and thousands of classes. The unprecedented problem scale poses great challenges for MLC. First, finding out the correct label subset out of exponentially many choices incurs substantial ambiguity and uncertainty. Second, the large data-size and class-size entail considerable computational cost. To address the first challenge, we investigate two strategies: capturing label-correlations from the training data and incorporating label co-occurrence relations obtained from external knowledge, which effectively eliminate semantically inconsistent labels and provide contextual clues to differentiate visually ambiguous labels. Specifically, we propose a Deep Determinantal Point Process (DDPP) model which seamlessly integrates a DPP with deep neural networks (DNNs) and supports end-to-end multi-label learning and deep representation learning. The DPP is able to capture label-correlations of any order with a polynomial computational cost, while the DNNs learn hierarchical features of images/videos and capture the dependency between input data and labels. To incorporate external knowledge about label co-occurrence relations, we impose a relational regularization over the kernel matrix in DDPP. To address the second challenge, we study an efficient low-rank kernel learning algorithm based on inducing point methods. Experiments on the two datasets demonstrate the efficacy and efficiency of the proposed methods.

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