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ShapShift: Explaining Model Prediction Shifts with Subgroup Conditional Shapley Values

Machine Learning 2026-04-14 v1 Artificial Intelligence Machine Learning

Abstract

Changes in input distribution can induce shifts in the average predictions of machine learning models. Such prediction shifts may impact downstream business outcomes (e.g. a bank's loan approval rate), so understanding their causes can be crucial. We propose \ours{}: a Shapley value method for attributing prediction shifts to changes in the conditional probabilities of interpretable subgroups of data, where these subgroups are defined by the structure of decision trees. We initially apply this method to single decision trees, providing exact explanations based on conditional probability changes at split nodes. Next, we extend it to tree ensembles by selecting the most explanatory tree and accounting for residual effects. Finally, we propose a model-agnostic variant using surrogate trees grown with a novel objective function, allowing application to models like neural networks. While exact computation can be intensive, approximation techniques enable practical application. We show that \ours{} provides simple, faithful, and near-complete explanations of prediction shifts across model classes, aiding model monitoring in dynamic environments.

Keywords

Cite

@article{arxiv.2604.11200,
  title  = {ShapShift: Explaining Model Prediction Shifts with Subgroup Conditional Shapley Values},
  author = {Tom Bewley and Salim I. Amoukou and Emanuele Albini and Saumitra Mishra and Manuela Veloso},
  journal= {arXiv preprint arXiv:2604.11200},
  year   = {2026}
}
R2 v1 2026-07-01T12:05:56.425Z