D Wang scite author profile

Artificial intelligence (AI) models usually require large amounts of high quality training data, which is in striking contrast to the situation of small and biased data faced by current drug discovery pipelines. The concept of federated learning has been proposed to utilize distributed data from different sources without leaking sensitive information of these data. This emerging decentralized machine learning paradigm is expected to dramatically improve the success of AI-powered drug discovery. We here simulate the federated learning process with 7 aqueous solubility datasets from different sources, among which there are overlapping molecules with high or low biases in the recorded values. Beyond the benefit of gaining more data, we also demonstrate federated training has a regularization effect making it superior than centralized training on the pooled datasets with high biases. Further, federated model customization for each client can effectively help us deal with the highly biased data in drug discovery and achieve better generalization performance. Our work demonstrates the application of federated learning in predicting drug related properties, but also highlights its promising role in addressing the small data and biased data dilemma in drug discovery.

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Research on planar SOFC stack

Wen

Wang

et al. 2002

Solid State Ionics

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D Wang

Material research for planar SOFC stack

Facing small and biased data dilemma in drug discovery with federated learning

Research on planar SOFC stack

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