Litcius/Paper detail

Joint Learning of Object Graph and Relation Graph for Visual Question Answering

Hao Li, Xu Li, Belhal Karimi, Jie Chen, Mingming Sun

20222022 IEEE International Conference on Multimedia and Expo (ICME)20 citationsDOI

Abstract

Modeling visual question answering (VQA) through scene graphs can significantly improve the reasoning accuracy and interpretability. However, existing models answer poorly for complex reasoning questions with attributes or relations, which causes false attribute selection or missing relation in Figure 1(a). It is because these models cannot balance all kinds of information in scene graphs, neglecting relation and attribute information. In this paper, we introduce a novel Dual Message-passing enhanced Graph Neural Net-work (DM-GNN), which can obtain a balanced represen-tation by properly encoding multi-scale scene graph infor-mation. Specifically, we (i) transform the scene graph into two graphs with diversified focuses on objects and relations; Then we design a dual structure to encode them, which in-creases the weights from relations (ii) fuse the encoder out-put with attribute features, which increases the weights from attributes; (iii) propose a message-passing mechanism to en-hance the information transfer between objects, relations and attributes. We conduct extensive experiments on datasets in-cluding GQA, VG, motif-VG and achieve new state of the art.

Topics & Concepts

InterpretabilityComputer scienceENCODEGraphArtificial intelligenceQuestion answeringRelation (database)Dual (grammatical number)Message passingTheoretical computer sciencePattern recognition (psychology)Data miningLiteratureProgramming languageGeneChemistryBiochemistryArtMultimodal Machine Learning ApplicationsAdvanced Graph Neural NetworksDomain Adaptation and Few-Shot Learning