Jan Schilliger scite author profile

Tractable safety-ensuring algorithms for cyberphysical systems are important in critical applications. Approaches based on Control Barrier Functions assume continuous enforcement, which is not possible in an online fashion. This paper presents two tractable algorithms to ensure forward invariance of discrete-time controlled cyber-physical systems. Both approaches are based on Control Barrier Functions to provide strict mathematical safety guarantees. The first algorithm exploits Lipschitz continuity and formulates the safety condition as a robust program which is subsequently relaxed to a set of affine conditions. The second algorithm is inspired by tube-NMPC and uses an affine Control Barrier Function formulation in conjunction with an auxiliary controller to guarantee safety of the system. We combine an approximate NMPC controller with the second algorithm to guarantee strict safety despite approximated constraints and show its effectiveness experimentally on a mini-Segway.

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Control Barrier Functions for Cyber-Physical Systems and Applications to NMPC

Schilliger¹,

Lew²,

Richards³

et al. 2021

Preprint

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Jan Schilliger

Data-Based Modeling for the Crank Angle Resolved CI Combustion Process

Control Barrier Functions for Cyber-Physical Systems and Applications to NMPC

Control Barrier Functions for Cyber-Physical Systems and Applications to NMPC

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