Ruitao Yi scite author profile

Ruitao Yi

2Publications

23Citation Statements Received

63Citation Statements Given

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Carnegie Mellon University

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MTAG: Modal-Temporal Attention Graph for Unaligned Human Multimodal Language Sequences

Yang¹,

Wang²,

Yi³

et al. 2021

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Human communication is multimodal in nature; it is through multiple modalities such as language, voice, and facial expressions, that opinions and emotions are expressed. Data in this domain exhibits complex multi-relational and temporal interactions. Learning from this data is a fundamentally challenging research problem. In this paper, we propose Modal-Temporal Attention Graph (MTAG). MTAG is an interpretable graph-based neural model that provides a suitable framework for analyzing multimodal sequential data. We first introduce a procedure to convert unaligned multimodal sequence data into a graph with heterogeneous nodes and edges that captures the rich interactions across modalities and through time. Then, a novel graph fusion operation, called MTAG fusion, along with a dynamic pruning and read-out technique, is designed to efficiently process this modal-temporal graph and capture various interactions. By learning to focus only on the important interactions within the graph, MTAG achieves state-ofthe-art performance on multimodal sentiment analysis and emotion recognition benchmarks, while utilizing significantly fewer model parameters. 1

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MTAG: Modal-Temporal Attention Graph for Unaligned Human Multimodal Language Sequences

Yang

Wang

et al. 2020

Preprint

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Human communication is multimodal in nature; it is through multiple modalities, i.e., language, voice, and facial expressions, that opinions and emotions are expressed. Data in this domain exhibits complex multi-relational and temporal interactions. Learning from this data is a fundamentally challenging research problem. In this paper, we propose Multimodal Temporal Graph Attention Networks (MTGAT). MTGAT is an interpretable graph-based neural model that provides a suitable framework for analyzing this type of multimodal sequential data. We first introduce a procedure to convert unaligned multimodal sequence data into a graph with heterogeneous nodes and edges that captures the rich interactions between different modalities through time. Then, a novel graph operation, called Multimodal Temporal Graph Attention, along with a dynamic pruning and read-out technique is designed to efficiently process this multimodal temporal graph. By learning to focus only on the important interactions within the graph, our MTGAT is able to achieve state-of-the-art performance on multimodal sentiment analysis and emotion recognition benchmarks including IEMOCAP and CMU-MOSI, while utilizing significantly fewer computations.

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Ruitao Yi

MTAG: Modal-Temporal Attention Graph for Unaligned Human Multimodal Language Sequences

MTAG: Modal-Temporal Attention Graph for Unaligned Human Multimodal Language Sequences

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