Graph Colouring Meets Deep Learning: Effective Graph Neural Network Models for Combinatorial Problems

March 11, 2019 ยท Declared Dead ยท ๐Ÿ› IEEE International Conference on Tools with Artificial Intelligence

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Authors Henrique Lemos, Marcelo Prates, Pedro Avelar, Luis Lamb arXiv ID 1903.04598 Category cs.LG: Machine Learning Cross-listed cs.LO, cs.NE, stat.ML Citations 97 Venue IEEE International Conference on Tools with Artificial Intelligence Last Checked 4 months ago
Abstract
Deep learning has consistently defied state-of-the-art techniques in many fields over the last decade. However, we are just beginning to understand the capabilities of neural learning in symbolic domains. Deep learning architectures that employ parameter sharing over graphs can produce models which can be trained on complex properties of relational data. These include highly relevant NP-Complete problems, such as SAT and TSP. In this work, we showcase how Graph Neural Networks (GNN) can be engineered -- with a very simple architecture -- to solve the fundamental combinatorial problem of graph colouring. Our results show that the model, which achieves high accuracy upon training on random instances, is able to generalise to graph distributions different from those seen at training time. Further, it performs better than the Neurosat, Tabucol and greedy baselines for some distributions. In addition, we show how vertex embeddings can be clustered in multidimensional spaces to yield constructive solutions even though our model is only trained as a binary classifier. In summary, our results contribute to shorten the gap in our understanding of the algorithms learned by GNNs, as well as hoarding empirical evidence for their capability on hard combinatorial problems. Our results thus contribute to the standing challenge of integrating robust learning and symbolic reasoning in Deep Learning systems.
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