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Exploring Large Action Sets with Hyperspherical Embeddings using von Mises-Fisher Sampling

Machine Learning 2025-07-02 v1 Information Retrieval

Abstract

This paper introduces von Mises-Fisher exploration (vMF-exp), a scalable method for exploring large action sets in reinforcement learning problems where hyperspherical embedding vectors represent these actions. vMF-exp involves initially sampling a state embedding representation using a von Mises-Fisher distribution, then exploring this representation's nearest neighbors, which scales to virtually unlimited numbers of candidate actions. We show that, under theoretical assumptions, vMF-exp asymptotically maintains the same probability of exploring each action as Boltzmann Exploration (B-exp), a popular alternative that, nonetheless, suffers from scalability issues as it requires computing softmax values for each action. Consequently, vMF-exp serves as a scalable alternative to B-exp for exploring large action sets with hyperspherical embeddings. Experiments on simulated data, real-world public data, and the successful large-scale deployment of vMF-exp on the recommender system of a global music streaming service empirically validate the key properties of the proposed method.

Cite

@article{arxiv.2507.00518,
  title  = {Exploring Large Action Sets with Hyperspherical Embeddings using von Mises-Fisher Sampling},
  author = {Walid Bendada and Guillaume Salha-Galvan and Romain Hennequin and Théo Bontempelli and Thomas Bouabça and Tristan Cazenave},
  journal= {arXiv preprint arXiv:2507.00518},
  year   = {2025}
}

Comments

42nd International Conference on Machine Learning (ICML 2025)

R2 v1 2026-07-01T03:41:05.320Z