We consider the problem of designing controllers to guarantee safety in a class of nonlinear systems under uncertainties in the system dynamics and/or the environment. We define a class of uncertain control barrier functions (CBFs), and formulate the safe control design problem as a chance-constrained optimization problem with uncertain CBF constraints. We leverage the scenario approach for chance constrained optimization to develop a risk-tunable control design that provably guarantees the satisfaction of CBF safety constraints up to a user-defined probabilistic risk bound, and provides a trade-off between the sample complexity and risk tolerance. We demonstrate the performance of this approach through simulations on a quadcopter navigation problem with obstacle avoidance constraints.
@article{arxiv.2309.10251,
title = {Safe Control Design through Risk-Tunable Control Barrier Functions},
author = {Vipul K. Sharma and S. Sivaranjani},
journal= {arXiv preprint arXiv:2309.10251},
year = {2023}
}
Comments
Accepted to the IEEE Conference on Decision and Control (CDC) 2023