Lernen von Repräsentationen für atomistische Systeme mit tiefen neuronalen Netzen
- Schütt, Kristof
DOIAbstract
Learning Representations of Atomistic Systems with Deep Neural Networks Deep Learning has been shown to learn efficient representations for structured data such as image, text or audio. However, with the rise of applying machine learning to quantum chemistry, research has been largely focused on the development of hand-crafted descriptors of atomistic systems. In this thesis, we propose novel neural network architectures that are able to learn efficient representations of molecules and materials. We demonstrate the capabilities of our models by accurately predicting chemical properties across compositional and configurational space on a variety of datasets. Beyond that, we perform a study of the quantum-mechanical properties of C20-fulleren...
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