English

Can Tabular Foundation Models Guide Exploration in Robot Policy Learning?

Robotics 2026-05-01 v1 Machine Learning

Abstract

Policy optimization in high-dimensional continuous control for robotics remains a challenging problem. Predominant methods are inherently local and often require extensive tuning and carefully chosen initial guesses for good performance, whereas more global and less initialization-sensitive search methods typically incur high rollout costs. We propose TFM-S3, a tabular hybrid local-global method for improving global exploration in robot policy learning with limited rollout cost. We interleave high-frequency local updates with intermittent rounds of global search. In each search round, we construct a dynamically updated low-dimensional policy subspace via SVD and perform iterative surrogate-guided refinement within this space. A pretrained tabular foundation model predicts candidate returns from a small context set, enabling large-scale screening with limited rollout cost. Experiments on continuous control benchmarks show that TFM-S3 consistently accelerates early-stage convergence and improves final performance compared to TD3 and population-based baselines under an identical rollout budget. These results demonstrate that foundation models are a powerful new tool for creating sample-efficient policy learning methods for continuous control in robotics.

Keywords

Cite

@article{arxiv.2604.27667,
  title  = {Can Tabular Foundation Models Guide Exploration in Robot Policy Learning?},
  author = {Buqing Ou and Frederike Dümbgen},
  journal= {arXiv preprint arXiv:2604.27667},
  year   = {2026}
}

Comments

8 pages, 6 figures

R2 v1 2026-07-01T12:43:17.656Z