VERITE: a Robust benchmark for multimodal misinformation detection accounting for unimodal bias

Multimedia content has become ubiquitous on social media platforms, leading to the rise of multimodal misinformation (MM) and the urgent need for effective strategies to detect and prevent its spread. In recent years, the challenge of multimodal misinformation detection (MMD) has garnered significan...

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Bibliographic Details
Published inInternational journal of multimedia information retrieval Vol. 13; no. 1; p. 4
Main Authors Papadopoulos, Stefanos-Iordanis, Koutlis, Christos, Papadopoulos, Symeon, Petrantonakis, Panagiotis C.
Format Journal Article
LanguageEnglish
Published London Springer London 01.03.2024
Springer Nature B.V
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Summary:Multimedia content has become ubiquitous on social media platforms, leading to the rise of multimodal misinformation (MM) and the urgent need for effective strategies to detect and prevent its spread. In recent years, the challenge of multimodal misinformation detection (MMD) has garnered significant attention by researchers and has mainly involved the creation of annotated, weakly annotated, or synthetically generated training datasets, along with the development of various deep learning MMD models. However, the problem of unimodal bias has been overlooked, where specific patterns and biases in MMD benchmarks can result in biased or unimodal models outperforming their multimodal counterparts on an inherently multimodal task, making it difficult to assess progress. In this study, we systematically investigate and identify the presence of unimodal bias in widely used MMD benchmarks, namely VMU-Twitter and COSMOS. To address this issue, we introduce the “VERification of Image-TExt pairs” (VERITE) benchmark for MMD which incorporates real-world data, excludes “asymmetric multimodal misinformation” and utilizes “modality balancing”. We conduct an extensive comparative study with a transformer-based architecture that shows the ability of VERITE to effectively address unimodal bias, rendering it a robust evaluation framework for MMD. Furthermore, we introduce a new method—termed Crossmodal HArd Synthetic MisAlignment (CHASMA)—for generating realistic synthetic training data that preserve crossmodal relations between legitimate images and false human-written captions. By leveraging CHASMA in the training process, we observe consistent and notable improvements in predictive performance on VERITE; with a 9.2% increase in accuracy. We release our code at: https://github.com/stevejpapad/image-text-verification
ISSN:2192-6611
2192-662X
DOI:10.1007/s13735-023-00312-6