Proceedings of the 29th ACM International Conference on Multimedia 2021
DOI: 10.1145/3474085.3475598
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Graph Convolutional Multi-modal Hashing for Flexible Multimedia Retrieval

Abstract: Multi-modal hashing makes an important contribution to multimedia retrieval, where a key challenge is to encode heterogeneous modalities into compact hash codes. To solve this dilemma, graphbased multi-modal hashing methods generally define individual affinity matrix of each independent modality and apply linear algorithm for heterogeneous modalities fusion and compact hash learning. Several other methods construct graph Laplacian matrix based on semantic information to help learn discriminative hash code. How… Show more

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Cited by 36 publications
(2 citation statements)
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“…In particular, graph convolutional network hashing (GCNH) [ 38 ] introduces an asymmetric graph convolution layer that addresses the problems of scalability and out-of-sample extension when exploiting affinity graphs for hashing. Graph convolutional multi-modal hashing (GCMH) [ 39 ] proposes multiple modality-individual GCNs under semantic guidance to act on each modality independently to preserve intra-modality similarity, and then fuse the output representations into a fusion graph with an adaptive weighting scheme. Aggregation-based graph convolutional hashing (AGCH) [ 36 ] designed an elegant aggregation strategy that leverages multiple similarity measures to build an accurate semantic similarity matrix and employs graph convolutional neural networks to aggregate similarity information across modal data, which further mines the semantic relevance of different modal data.…”
Section: Related Workmentioning
confidence: 99%
“…In particular, graph convolutional network hashing (GCNH) [ 38 ] introduces an asymmetric graph convolution layer that addresses the problems of scalability and out-of-sample extension when exploiting affinity graphs for hashing. Graph convolutional multi-modal hashing (GCMH) [ 39 ] proposes multiple modality-individual GCNs under semantic guidance to act on each modality independently to preserve intra-modality similarity, and then fuse the output representations into a fusion graph with an adaptive weighting scheme. Aggregation-based graph convolutional hashing (AGCH) [ 36 ] designed an elegant aggregation strategy that leverages multiple similarity measures to build an accurate semantic similarity matrix and employs graph convolutional neural networks to aggregate similarity information across modal data, which further mines the semantic relevance of different modal data.…”
Section: Related Workmentioning
confidence: 99%
“…However, those pre-defined graphs cannot be adaptively learned during the training to better express the semantic structures. Different from the label-based reliable static association graph in the supervised methods [6,29], the "static graph" constructed based on the original data measurement in the unsupervised methods [25,46] actually introduces the bias in the original feature measurement.…”
Section: Introductionmentioning
confidence: 99%