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GRAPH CONVOLUTIONAL NETWORKS WITH AUTOENCODER-BASED COMPRESSION AND MULTI-LAYER GRAPH LEARNING

Lorenzo Giusti, Claudio Battiloro, Paolo Di Lorenzo, Sergio Barbarossa

  • SPS
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    Length: 00:12:45
09 May 2022

The aim of this work is to propose a novel architecture and training strategy for graph convolutional networks (GCN). The proposed architecture, named as Autoencoder-Aided GCN (AA-GCN), compresses the convolutional features in an information-rich embedding at multiple hidden layers, exploiting the presence of autoencoders before the point-wise non-linearities. Then, we propose a novel end-to-end training procedure that learns different graph representations per each layer, jointly with the GCN weights and auto-encoder parameters. As a result, the proposed strategy improves the computational scalability of the GCN, learning the best graph representations at each layer in a totally data-driven fashion. Several numerical results on synthetic and real data illustrate how our architecture and training procedure compare favorably with other state of the art solutions, both in terms of robustness and learning performance.

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