Robust Adaptive Discrete-Time Control Barrier Certificate
Abstract
This work develops a robust adaptive control strategy for discrete-time systems using Control Barrier Functions (CBFs) to ensure safety under parametric model uncertainty and disturbances. A key contribution of this work is establishing a barrier function certificate in discrete time for general online parameter estimation algorithms. This barrier function certificate guarantees positive invariance of the safe set despite disturbances and parametric uncertainty without access to the true system parameters. In addition, real-time implementation and inherent robustness guarantees are provided. The proposed robust adaptive safe control framework demonstrates that the parameter estimation module can be designed separately from the CBF-based safety filter, simplifying the development of safe adaptive controllers for discrete-time systems. The resulting safe control approach guarantees that the system remains within the safe set while adapting to model uncertainties, making it a promising strategy for discrete-time safety-critical systems.
Cite
@article{arxiv.2508.08153,
title = {Robust Adaptive Discrete-Time Control Barrier Certificate},
author = {Changrui Liu and Anil Alan and Shengling Shi and Bart De Schutter},
journal= {arXiv preprint arXiv:2508.08153},
year = {2026}
}
Comments
11 pages with updated simulations and illustrative figures. The conditions used for verifying barrier functions and online safe control are separated, which is a crucial and overlooked point in the literature on adaptive safe control. The paper is submitted to Automatica