Tackling Interference Induced by Data Training Loops in A/B Tests: A Weighted Training Approach

Nian Si

Papers from arXiv.org

Abstract: In modern recommendation systems, the standard pipeline involves training machine learning models on historical data to predict user behaviors and improve recommendations continuously. However, these data training loops can introduce interference in A/B tests, where data generated by control and treatment algorithms, potentially with different distributions, are combined. To address these challenges, we introduce a novel approach called weighted training. This approach entails training a model to predict the probability of each data point appearing in either the treatment or control data and subsequently applying weighted losses during model training. We demonstrate that this approach achieves the least variance among all estimators that do not cause shifts in the training distributions. Through simulation studies, we demonstrate the lower bias and variance of our approach compared to other methods.

Date: 2023-10, Revised 2024-04
New Economics Papers: this item is included in nep-big and nep-cmp
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