English

Sparse Linear Bandits with Blocking Constraints

Machine Learning 2025-05-30 v2

Abstract

We investigate the high-dimensional sparse linear bandits problem in a data-poor regime where the time horizon is much smaller than the ambient dimension and number of arms. We study the setting under the additional blocking constraint where each unique arm can be pulled only once. The blocking constraint is motivated by practical applications in personalized content recommendation and identification of data points to improve annotation efficiency for complex learning tasks. With mild assumptions on the arms, our proposed online algorithm (BSLB) achieves a regret guarantee of O~((1+βk)2k23T23)\widetilde{\mathsf{O}}((1+\beta_k)^2k^{\frac{2}{3}} \mathsf{T}^{\frac{2}{3}}) where the parameter vector has an (unknown) relative tail βk\beta_k -- the ratio of 1\ell_1 norm of the top-kk and remaining entries of the parameter vector. To this end, we show novel offline statistical guarantees of the lasso estimator for the linear model that is robust to the sparsity modeling assumption. Finally, we propose a meta-algorithm (C-BSLB) based on corralling that does not need knowledge of optimal sparsity parameter kk at minimal cost to regret. Our experiments on multiple real-world datasets demonstrate the validity of our algorithms and theoretical framework.

Keywords

Cite

@article{arxiv.2410.20041,
  title  = {Sparse Linear Bandits with Blocking Constraints},
  author = {Adit Jain and Soumyabrata Pal and Sunav Choudhary and Ramasuri Narayanam and Harshita Chopra and Vikram Krishnamurthy},
  journal= {arXiv preprint arXiv:2410.20041},
  year   = {2025}
}

Comments

37 Pages, 5 Theorems

R2 v1 2026-06-28T19:36:24.966Z