English

Probabilistic Safety Guarantee for Stochastic Control Systems Using Average Reward MDPs

Systems and Control 2025-11-12 v1 Machine Learning Robotics Systems and Control Optimization and Control

Abstract

Safety in stochastic control systems, which are subject to random noise with a known probability distribution, aims to compute policies that satisfy predefined operational constraints with high confidence throughout the uncertain evolution of the state variables. The unpredictable evolution of state variables poses a significant challenge for meeting predefined constraints using various control methods. To address this, we present a new algorithm that computes safe policies to determine the safety level across a finite state set. This algorithm reduces the safety objective to the standard average reward Markov Decision Process (MDP) objective. This reduction enables us to use standard techniques, such as linear programs, to compute and analyze safe policies. We validate the proposed method numerically on the Double Integrator and the Inverted Pendulum systems. Results indicate that the average-reward MDPs solution is more comprehensive, converges faster, and offers higher quality compared to the minimum discounted-reward solution.

Keywords

Cite

@article{arxiv.2511.08419,
  title  = {Probabilistic Safety Guarantee for Stochastic Control Systems Using Average Reward MDPs},
  author = {Saber Omidi and Marek Petrik and Se Young Yoon and Momotaz Begum},
  journal= {arXiv preprint arXiv:2511.08419},
  year   = {2025}
}

Comments

Submitted to the Learning for Dynamics & Control (L4DC) 2026 conference

R2 v1 2026-07-01T07:32:26.949Z