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Improving Multimodal fusion via Mutual Dependency Maximisation

Pierre Colombo, Émile Chapuis, Matthieu Labeau, Chloé Clavel

2021Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing29 citationsDOIOpen Access PDF

Abstract

Multimodal sentiment analysis is a trending area of research, and the multimodal fusion is one of its most active topic. Acknowledging humans communicate through a variety of channels (i.e visual, acoustic, linguistic), multimodal systems aim at integrating different unimodal representations into a synthetic one. So far, a consequent effort has been made on developing complex architectures allowing the fusion of these modalities. However, such systems are mainly trained by minimising simple losses such as L 1 or cross-entropy. In this work, we investigate unexplored penalties and propose a set of new objectives that measure the dependency between modalities. We demonstrate that our new penalties lead to a consistent improvement (up to 4.3 on accuracy) across a large variety of state-of-the-art models on two well-known sentiment analysis datasets: CMU-MOSI and CMU-MOSEI. Our method not only achieves a new SOTA on both datasets but also produces representations that are more robust to modality drops. Finally, a by-product of our methods includes a statistical network which can be used to interpret the high dimensional representations learnt by the model.

Topics & Concepts

Computer scienceDependency (UML)Artificial intelligenceModalitiesVariety (cybernetics)Entropy (arrow of time)Machine learningSentiment analysisModality (human–computer interaction)Natural language processingQuantum mechanicsSocial sciencePhysicsSociologySentiment Analysis and Opinion MiningMusic and Audio ProcessingSpeech and Audio Processing
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