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Safety-Critical Control using Optimal-decay Control Barrier Function with Guaranteed Point-wise Feasibility

Jun Zeng, Bike Zhang, Zhongyu Li, Koushil Sreenath

202154 citationsDOI

Abstract

Safety is one of the fundamental problems in robotics. Recently, a quadratic program based control barrier function (CBF) method has emerged as a way to enforce safety-critical constraints. Together with control Lyapunov function (CLF), it forms a safety-critical control strategy, named CLF-CBF-QP, which can mediate between achieving the control objective and ensuring safety, while being executable in real-time. However, once additional constraints such as input constraints are introduced, the CLF-CBF-QP may encounter infeasibility. In order to address the challenge arises due to the infeasibility, we propose an optimal-decay form for safety-critical control wherein the decay rate of the CBF is optimized point-wise in time so as to guarantee point-wise feasibility when the state lies inside the safe set. The proposed control design is numerically validated using an adaptive cruise control example.

Topics & Concepts

Cruise controlControl theory (sociology)ExecutableComputer scienceControl-Lyapunov functionFunction (biology)Lyapunov functionControl (management)Mathematical optimizationQuadratic programmingSet (abstract data type)Control engineeringLyapunov redesignMathematicsEngineeringArtificial intelligenceNonlinear systemEvolutionary biologyOperating systemProgramming languageBiologyChaoticPhysicsLyapunov exponentQuantum mechanicsAdvanced Control Systems OptimizationFormal Methods in VerificationFault Detection and Control Systems