GraphMFT: A Graph Attention based Multimodal Fusion Technique for Emotion Recognition in Conversation

Jiang Li, Xiaoping Wang, Guoqing Lv, Zhigang Zeng

Multimodal machine learning is an emerging area of research, which has received a great deal of scholarly attention in recent years. Up to now, there are few studies on multimodal conversational emotion recognition. Since Graph Neural Networks (GNNs) possess the powerful capacity of relational modeling, they have an inherent advantage in the field of multimodal learning. Multimodal data can be modeled as a graph, where each data object is regarded as a node, and both intra- and inter-modal dependencies existing between data objects can be regarded as edges. GNNs leverage the graph constructed from multimodal data to perform intra- and inter-modal information interaction, which effectively facilitates the integration and complementation of multimodal data. In this work, we propose a novel Graph attention based Multimodal Fusion Technique (GraphMFT) for emotion recognition in conversation. GraphMFT utilizes multiple graph attention networks improved to capture intra-modal contextual information and inter-modal complementary information. In addition, the proposed GraphMFT attempts to address the challenges of existing graph-based multimodal ERC models such as MMGCN. Empirical results on two public multimodal datasets reveal that our model outperforms the State-Of-The-Art (SOTA) approachs with the accuracies of 67.90% and 61.30%.

Knowledge Graph

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