通过利用稳健的跨模态一致性实现可扩展的无监督哈希算法

IF 7.5 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

IEEE Transactions on Big Data Pub Date : 2024-01-08 DOI:10.1109/TBDATA.2024.3350541

Xingbo Liu;Jiamin Li;Xiushan Nie;Xuening Zhang;Shaohua Wang;Yilong Yin

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引用次数: 0

摘要

无监督跨模态哈希因其在大规模数据检索和分析中的高效性和可扩展性而受到越来越多的关注。然而，现有的无监督跨模态散列方法主要侧重于学习共享特征嵌入，而忽略了不同模态之间的鲁棒性和一致性。为此，本研究提出了一种用于大规模跨模态检索的新型方法，即可扩展的无监督散列（SUH）。在所提出的方法中，利用多模态聚类和集合矩阵因式分解，可同时利用异构数据中的潜在语义信息和共同语义嵌入。此外，鲁棒规范被无缝集成到这两个过程中，使得 SUH 对异常值不敏感。基于从潜在语义信息和特征嵌入中利用的鲁棒一致性，哈希代码可以离散学习，以避免累积量化损失。在五个基准数据集上的实验结果证明了所提方法在不同场景下的有效性。

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Scalable Unsupervised Hashing via Exploiting Robust Cross-Modal Consistency

Unsupervised cross-modal hashing has received increasing attention because of its efficiency and scalability for large-scale data retrieval and analysis. However, existing unsupervised cross-modal hashing methods primarily focus on learning shared feature embedding, ignoring robustness and consistency across different modalities. To this end, this study proposes a novel method called scalable unsupervised hashing (SUH) for large-scale cross-modal retrieval. In the proposed method, latent semantic information and common semantic embedding within heterogeneous data are simultaneously exploited using multimodal clustering and collective matrix factorization, respectively. Furthermore, the robust norm is seamlessly integrated into the two processes, making SUH insensitive to outliers. Based on the robust consistency exploited from the latent semantic information and feature embedding, hash codes can be learned discretely to avoid cumulative quantitation loss. The experimental results on five benchmark datasets demonstrate the effectiveness of the proposed method under various scenarios.

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来源期刊

IEEE Transactions on Big Data Multiple-

CiteScore

11.80

自引率

2.80%

发文量

114

期刊介绍： The IEEE Transactions on Big Data publishes peer-reviewed articles focusing on big data. These articles present innovative research ideas and application results across disciplines, including novel theories, algorithms, and applications. Research areas cover a wide range, such as big data analytics, visualization, curation, management, semantics, infrastructure, standards, performance analysis, intelligence extraction, scientific discovery, security, privacy, and legal issues specific to big data. The journal also prioritizes applications of big data in fields generating massive datasets.