Drug Discovery under Covariate Shift with Domain-Informed Prior Distributions over Functions
Jul 24, 2023
Speakers
Leo Klarner
Speaker · 0 followers
Tim G. J. Rudner
Speaker · 0 followers
Michael Reutlinger
Speaker · 0 followers
Torsten Schindler
Speaker · 0 followers
Garett M. Morris
Speaker · 0 followers
Charlotte M. Deane
Speaker · 0 followers
Yee Whye Teh
Speaker · 0 followers
About
Accelerating the discovery of novel and more effective therapeutics is a major pharmaceutical problem in which deep learning plays an increasingly important role. However, drug discovery tasks are often characterized by a scarcity of labeled data and significant covariate shift—settings that are challenging for standard deep learning methods. In this paper, we address this challenge by developing a probabilistic model that is able to encode prior knowledge about the data-generating process into a prior distribution over functions, allowing researchers to explicitly specify relevant information about the modeled domain. We evaluate this method on a novel, high-quality antimalarial dataset that facilitates the robust comparison of models in an extrapolative regime and demonstrate that integrating explicit prior knowledge of drug-like chemical space into the modeling process substantially improves both the predictive accuracy and the uncertainty estimates of deep learning algorithms, significantly outperforming a range of strong baselines.Accelerating the discovery of novel and more effective therapeutics is a major pharmaceutical problem in which deep learning plays an increasingly important role. However, drug discovery tasks are often characterized by a scarcity of labeled data and significant covariate shift—settings that are challenging for standard deep learning methods. In this paper, we address this challenge by developing a probabilistic model that is able to encode prior knowledge about the data-generating process into…
Like the format? Trust SlidesLive to capture your next event!
Professional recording and live streaming, delivered globally.
Sharing
Recommended Videos
Presentations on similar topic, category or speaker
Dual Propagation: Accelerating Contrastive Hebbian Learning with Dyadic Neurons
Watch later
Spotlight Talks 1
Watch later
Detecting Tidal Features using Self-Supervised Machine Learning
Watch later
Diffusion Models for Black-Box Optimization
Watch later
CoCo: A Coupled Contrastive Framework for Unsupervised Domain Adaptive Graph Classification
Watch later
Nan Yin, …