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Incorporating reliability in graph information propagation by fluid dynamics diffusion: a case of multimodal semisupervised deep learning

Andrea Marinoni (UiT the Arctic University of Norway); Marine Mercier (University of Cambridge); Qian Shi (Sun Yat-sen University); Sivasakthy Selvakumaran (University of Cambridge); Mark Girolami (University of Cambridge)

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07 Jun 2023

Classic graph neural networks show some limitations in information extraction performance when applied to multimodal datasets. This is primarily due to such datasets having high volume, variety, and variability. In this paper, we propose structuring graph neural networks on a new graph representation based on fluid dynamics diffusion that allows us to incorporate the reliability of the features used to characterise each sample within the graph structure itself. This approach aims to address some of the major limitations of the classic graph-based learning structures, so to improve accuracy and robustness of the estimates. We show how this approach can help to strongly improve the quality of the analysis of classic graph neural networks. Experimental results are reported to support this point.

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