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Deep Position-Aware Hashing for Semantic Continuous Image Retrieval

Ruikui Wang, Ruiping Wang, Shishi Qiao, Shiguang Shan, Xilin Chen

202027 citationsDOI

Abstract

Preserving the semantic similarity is one of the most important goals of hashing. Most existing deep hashing methods employ pairs or triplets of samples in training stage, which only consider the semantic similarity within a minibatch and depict the local positional relationship in Hamming space, leading to intermittent semantic similarity preservation. In this paper, we propose Deep Position-Aware Hashing (DPAH) to ensure continuous semantic similarity in Hamming space by modeling global positional relationship. Specifically, we introduce a set of learnable class centers as the global proxies to represent the global information and generate discriminative binary codes by constraining the distance between data points and class centers. In addition, in order to reduce the information loss caused by relaxing the binary codes to real-values in optimization, we propose kurtosis loss (KT loss) to handle the distribution of real-valued features before thresholding to be double-peak, and then enable the real-valued features to be more binarylike. Comprehensive experiments on three datasets show that our DPAH outperforms state-of-the-art methods.

Topics & Concepts

Hamming spaceHash functionComputer scienceDiscriminative modelArtificial intelligenceSemantic similaritySimilarity (geometry)Hamming distanceBinary codeLocality-sensitive hashingPattern recognition (psychology)ThresholdingClass (philosophy)Image retrievalHamming codeBinary numberImage (mathematics)Hash tableAlgorithmMathematicsBlock codeDecoding methodsComputer securityArithmeticAdvanced Image and Video Retrieval TechniquesAdvanced Neural Network ApplicationsMultimodal Machine Learning Applications
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