A Risk-Aware Control: Integrating Worst-Case CVaR with Control Barrier Function
Abstract
This paper proposes a risk-aware control approach to enforce safety for discrete-time nonlinear systems subject to stochastic uncertainties. We derive some useful results on the worst-case Conditional Value-at-Risk (CVaR) and define a discrete-time risk-aware control barrier function using the worst-case CVaR. On this basis, we present optimization-based control approaches that integrate the worst-case CVaR into the control barrier function, taking into account both safe set and tail risk considerations. In particular, three types of safe sets are discussed in detail: half-space, polytope, and ellipsoid. It is shown that control inputs for the half-space and polytopic safe sets can be obtained via quadratic programs, while control inputs for the ellipsoidal safe set can be computed via a semidefinite program. Through numerical examples of an inverted pendulum, we compare its performance with existing methods and demonstrate the effectiveness of our proposed controller.
Keywords
Cite
@article{arxiv.2308.14265,
title = {A Risk-Aware Control: Integrating Worst-Case CVaR with Control Barrier Function},
author = {Masako Kishida},
journal= {arXiv preprint arXiv:2308.14265},
year = {2023}
}
Comments
under review