Classification of developmental and brain disorders via graph convolutional aggregation
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by
Ibrahim Salim, A. Ben Hamza
2023
Abstract
While graph convolution based methods have become the de-facto standard for
graph representation learning, their applications to disease prediction tasks
remain quite limited, particularly in the classification of neurodevelopmental
and neurodegenerative brain disorders. In this paper, we introduce an
aggregator normalization graph convolutional network by leveraging aggregation
in graph sampling, as well as skip connections and identity mapping. The
proposed model learns discriminative graph node representations by
incorporating both imaging and non-imaging features into the graph nodes and
edges, respectively, with the aim of augmenting predictive capabilities and
providing a holistic perspective on the underlying mechanisms of brain
disorders. Skip connections enable the direct flow of information from the
input features to later layers of the network, while identity mapping helps
maintain the structural information of the graph during feature learning. We
benchmark our model against several recent baseline methods on two large
datasets, Autism Brain Imaging Data Exchange (ABIDE) and Alzheimer's Disease
Neuroimaging Initiative (ADNI), for the prediction of autism spectrum disorder
and Alzheimer's disease, respectively. Experimental results demonstrate the
competitive performance of our approach in comparison with recent baselines in
terms of several evaluation metrics, achieving relative improvements of 50% and
13.56% in classification accuracy over graph convolutional networks on ABIDE
and ADNI, respectively.
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