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ASGN: An Active Semi-supervised Graph Neural Network for Molecular Property Prediction

Zhongkai Hao, Chengqiang Lu, Zhenya Huang, Hao Wang, Zheyuan Hu, Qi Liu, Enhong Chen, Cheekong Lee

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Abstract

Molecular property prediction (e.g., energy) is an essential problem in chemistry and biology. Unfortunately, many supervised learning methods usually suffer from the problem of scarce labeled molecules in the chemical space, where such property labels are generally obtained by Density Functional Theory (DFT) calculation which is extremely computational costly. An effective solution is to incorporate the unlabeled molecules in a semi-supervised fashion. However, learning semi-supervised representation for large amounts of molecules is challenging, including the joint representation issue of both molecular essence and structure, the conflict between representation and property leaning. Here we propose a novel framework called Active Semi-supervised Graph Neural Network (ASGN) by incorporating both labeled and unlabeled molecules. Specifically, ASGN adopts a teacher-student framework. In the teacher model, we propose a novel semi-supervised learning method to learn general representation that jointly exploits information from molecular structure and molecular distribution. Then in the student model, we target at property prediction task to deal with the learning loss conflict. At last, we proposed a novel active learning strategy in terms of molecular diversities to select informative data during the whole framework learning. We conduct extensive experiments on several public datasets. Experimental results show the remarkable performance of our ASGN framework.

Topics & Concepts

Property (philosophy)Molecular graphComputer scienceRepresentation (politics)Artificial intelligenceGraphArtificial neural networkCorrelativeMachine learningFeature learningTask (project management)Labeled dataTheoretical computer scienceExploitActive learning (machine learning)Graph theorySemi-supervised learningMulti-task learningTraining setExternal Data RepresentationSupervised learningDeep learningPattern recognition (psychology)Computational Drug Discovery MethodsMachine Learning in Materials ScienceAdvanced Graph Neural Networks
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