Self-Supervised contrastive learning has emerged as a powerful method for obtaining high-quality representations from unlabeled data. However, feature suppression has recently been identified in standard contrastive learning ($e.g.$, SimCLR, CLIP): in a single end-to-end training stage, the contrastive model captures only parts of the shared information across contrasting views, while ignore the other potentially useful information. With feature suppression, contrastive models often fail to learn sufficient representations capable for various downstream tasks. To mitigate the feature suppression problem and ensure the contrastive model to learn comprehensive representations, we develop a novel Multistage Contrastive Learning (MCL) framework. Unlike standard contrastive learning that often result in feature suppression, MCL progressively learn new features that have not been explored in the previous stage, while maintaining the well-learned features. Extensive experiments conducted on various publicly available benchmarks validate the effectiveness of our proposed framework. In addition, we demonstrate that the proposed MCL can be adapted to a variety of popular contrastive learning backbones and boost their performance by learning features that could not be gained from standard contrastive learning procedures.
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