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Wednesday 25 October 2017, 14:15-15:15
Liquid State Theory Meets Deep Learning and Molecular Informatics
- đ¤ Speaker: Dr Alpha Lee, University of Cambridge, Department of Physics đ Website
- đ Date & Time: Wednesday 25 October 2017, 14:15 - 15:15
- đ Venue: Department of Chemistry, Cambridge, Unilever lecture theatre
Abstract
A large class of problems in machine learning pertains to making sense of high dimensional and unlabelled data. The challenge lies in separating direct variable-variable interactions (e.g. cause and effect) and transitive correlations, as well as removing noise due to insufficient number of samples relative to the number of variables. In this talk, I will discuss an Ornstein-Zernike-like approach for data analysis that disentangles correlations in datasets using ideas from the theory of liquids. The Ornstein-Zernike closure is parameterised by deep learning, and a framework inspired by random matrix theory is used to remove finite sampling noise. I will illustrate this approach by applying it to problems such as ligand-based virtual screening and predicting protein function from sequence covariation.
Series This talk is part of the Theory - Chemistry Research Interest Group series.
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