Litcius/Paper detail

Contrastive Quantization with Code Memory for Unsupervised Image Retrieval

Jinpeng Wang, Ziyun Zeng, Bin Chen, Tao Dai, Shu‐Tao Xia

2022Proceedings of the AAAI Conference on Artificial Intelligence43 citationsDOIOpen Access PDF

Abstract

The high efficiency in computation and storage makes hashing (including binary hashing and quantization) a common strategy in large-scale retrieval systems. To alleviate the reliance on expensive annotations, unsupervised deep hashing becomes an important research problem. This paper provides a novel solution to unsupervised deep quantization, namely Contrastive Quantization with Code Memory (MeCoQ). Different from existing reconstruction-based strategies, we learn unsupervised binary descriptors by contrastive learning, which can better capture discriminative visual semantics. Besides, we uncover that codeword diversity regularization is critical to prevent contrastive learning-based quantization from model degeneration. Moreover, we introduce a novel quantization code memory module that boosts contrastive learning with lower feature drift than conventional feature memories. Extensive experiments on benchmark datasets show that MeCoQ outperforms state-of-the-art methods. Code and configurations are publicly released.

Topics & Concepts

Computer scienceArtificial intelligenceQuantization (signal processing)Binary codeVector quantizationCode wordDiscriminative modelHash functionDeep learningImage retrievalPattern recognition (psychology)Binary numberDecoding methodsComputer visionAlgorithmImage (mathematics)MathematicsComputer securityArithmeticAdvanced Image and Video Retrieval TechniquesMultimodal Machine Learning ApplicationsDomain Adaptation and Few-Shot Learning