Knowledge-embedded routing network for scene graph generation
Proceedings of the IEEE/CVF Conference on Computer Vision and …, 2019•openaccess.thecvf.com
To understand a scene in depth not only involves locating/recognizing individual objects, but
also requires to infer the relationships and interactions among them. However, since the
distribution of real-world relationships is seriously unbalanced, existing methods perform
quite poorly for the less frequent relationships. In this work, we find that the statistical
correlations between object pairs and their relationships can effectively regularize semantic
space and make prediction less ambiguous, and thus well address the unbalanced …
also requires to infer the relationships and interactions among them. However, since the
distribution of real-world relationships is seriously unbalanced, existing methods perform
quite poorly for the less frequent relationships. In this work, we find that the statistical
correlations between object pairs and their relationships can effectively regularize semantic
space and make prediction less ambiguous, and thus well address the unbalanced …
Abstract
To understand a scene in depth not only involves locating/recognizing individual objects, but also requires to infer the relationships and interactions among them. However, since the distribution of real-world relationships is seriously unbalanced, existing methods perform quite poorly for the less frequent relationships. In this work, we find that the statistical correlations between object pairs and their relationships can effectively regularize semantic space and make prediction less ambiguous, and thus well address the unbalanced distribution issue. To achieve this, we incorporate these statistical correlations into deep neural networks to facilitate scene graph generation by developing a Knowledge-Embedded Routing Network. More specifically, we show that the statistical correlations between objects appearing in images and their relationships, can be explicitly represented by a structured knowledge graph, and a routing mechanism is learned to propagate messages through the graph to explore their interactions. Extensive experiments on the large-scale Visual Genome dataset demonstrate the superiority of the proposed method over current state-of-the-art competitors.
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