English

Certifiable Reachability Learning Using a New Lipschitz Continuous Value Function

Systems and Control 2025-02-18 v5 Systems and Control

Abstract

We propose a new reachability learning framework for high-dimensional nonlinear systems, focusing on reach-avoid problems. These problems require computing the reach-avoid set, which ensures that all its elements can safely reach a target set despite disturbances within pre-specified bounds. Our framework has two main parts: offline learning of a newly designed reachavoid value function, and post-learning certification. Compared to prior work, our new value function is Lipschitz continuous and its associated Bellman operator is a contraction mapping, both of which improve the learning performance. To ensure deterministic guarantees of our learned reach-avoid set, we introduce two efficient post-learning certification methods. Both methods can be used online for real-time local certification or offline for comprehensive certification. We validate our framework in a 12-dimensional crazyflie drone racing hardware experiment and a simulated 10-dimensional highway take-over example.

Keywords

Cite

@article{arxiv.2408.07866,
  title  = {Certifiable Reachability Learning Using a New Lipschitz Continuous Value Function},
  author = {Jingqi Li and Donggun Lee and Jaewon Lee and Kris Shengjun Dong and Somayeh Sojoudi and Claire Tomlin},
  journal= {arXiv preprint arXiv:2408.07866},
  year   = {2025}
}
R2 v1 2026-06-28T18:13:19.908Z