English

Loss Bounds for Approximate Influence-Based Abstraction

Artificial Intelligence 2021-02-24 v3

Abstract

Sequential decision making techniques hold great promise to improve the performance of many real-world systems, but computational complexity hampers their principled application. Influence-based abstraction aims to gain leverage by modeling local subproblems together with the 'influence' that the rest of the system exerts on them. While computing exact representations of such influence might be intractable, learning approximate representations offers a promising approach to enable scalable solutions. This paper investigates the performance of such approaches from a theoretical perspective. The primary contribution is the derivation of sufficient conditions on approximate influence representations that can guarantee solutions with small value loss. In particular we show that neural networks trained with cross entropy are well suited to learn approximate influence representations. Moreover, we provide a sample based formulation of the bounds, which reduces the gap to applications. Finally, driven by our theoretical insights, we propose approximation error estimators, which empirically reveal to correlate well with the value loss.

Keywords

Cite

@article{arxiv.2011.01788,
  title  = {Loss Bounds for Approximate Influence-Based Abstraction},
  author = {Elena Congeduti and Alexander Mey and Frans A. Oliehoek},
  journal= {arXiv preprint arXiv:2011.01788},
  year   = {2021}
}

Comments

13 pages, 9 figures

R2 v1 2026-06-23T19:53:20.762Z