English

Chance-Constrained Active Inference

Machine Learning 2021-07-28 v2 Machine Learning Neural and Evolutionary Computing

Abstract

Active Inference (ActInf) is an emerging theory that explains perception and action in biological agents, in terms of minimizing a free energy bound on Bayesian surprise. Goal-directed behavior is elicited by introducing prior beliefs on the underlying generative model. In contrast to prior beliefs, which constrain all realizations of a random variable, we propose an alternative approach through chance constraints, which allow for a (typically small) probability of constraint violation, and demonstrate how such constraints can be used as intrinsic drivers for goal-directed behavior in ActInf. We illustrate how chance-constrained ActInf weights all imposed (prior) constraints on the generative model, allowing e.g., for a trade-off between robust control and empirical chance constraint violation. Secondly, we interpret the proposed solution within a message passing framework. Interestingly, the message passing interpretation is not only relevant to the context of ActInf, but also provides a general purpose approach that can account for chance constraints on graphical models. The chance constraint message updates can then be readily combined with other pre-derived message update rules, without the need for custom derivations. The proposed chance-constrained message passing framework thus accelerates the search for workable models in general, and can be used to complement message-passing formulations on generative neural models.

Keywords

Cite

@article{arxiv.2102.08792,
  title  = {Chance-Constrained Active Inference},
  author = {Thijs van de Laar and Ismail Senoz and Ayça Özçelikkale and Henk Wymeersch},
  journal= {arXiv preprint arXiv:2102.08792},
  year   = {2021}
}
R2 v1 2026-06-23T23:14:59.874Z