SADIH: Semantic-Aware DIscrete Hashing


  • Zheng Zhang The University of Queensland
  • Guo-sen Xie Inception Institute of Artificial Intelligence
  • Yang Li The University of Queensland
  • Sheng Li University of Georgia
  • Zi Huang The University of Queensland



Due to its low storage cost and fast query speed, hashing has been recognized to accomplish similarity search in largescale multimedia retrieval applications. Particularly, supervised hashing has recently received considerable research attention by leveraging the label information to preserve the pairwise similarities of data points in the Hamming space. However, there still remain two crucial bottlenecks: 1) the learning process of the full pairwise similarity preservation is computationally unaffordable and unscalable to deal with big data; 2) the available category information of data are not well-explored to learn discriminative hash functions. To overcome these challenges, we propose a unified Semantic-Aware DIscrete Hashing (SADIH) framework, which aims to directly embed the transformed semantic information into the asymmetric similarity approximation and discriminative hashing function learning. Specifically, a semantic-aware latent embedding is introduced to asymmetrically preserve the full pairwise similarities while skillfully handle the cumbersome n×n pairwise similarity matrix. Meanwhile, a semantic-aware autoencoder is developed to jointly preserve the data structures in the discriminative latent semantic space and perform data reconstruction. Moreover, an efficient alternating optimization algorithm is proposed to solve the resulting discrete optimization problem. Extensive experimental results on multiple large-scale datasets demonstrate that our SADIH can clearly outperform the state-of-the-art baselines with the additional benefit of lower computational costs.




How to Cite

Zhang, Z., Xie, G.- sen, Li, Y., Li, S., & Huang, Z. (2019). SADIH: Semantic-Aware DIscrete Hashing. Proceedings of the AAAI Conference on Artificial Intelligence, 33(01), 5853-5860.



AAAI Technical Track: Machine Learning