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Published June 3, 2022 | public
Journal Article

Safety and Efficiency in Robotics: The Control Barrier Functions Approach

Abstract

This article aims at presenting an introductory overview of the theoretical framework of control barrier functions (CBFs) and of their application to the design of safety-related controllers for robotic systems. The article starts by describing the basic concepts of CBFs and how they can be used to build optimization problems embedding CBF-based constraints, whose solutions correspond to the control input enforcing the desired safety properties into the behavior of the controlled system. Simple examples, understandable for readers with a basic background in control theory and accompanied with source code for their simulation, are used to highlight the appealing features of the CBF-based approach. Then, more complex formulations applicable to robotic manipulators are introduced, recalling recent literature results allowing users to implement a robust design methodology. Finally, it is shown that CBFs are suitable for the implementation of safe human–robot collaboration in a realistic industrial scenario by means of the experimental validation in an industrial setup for collaborative robotics.

Additional Information

© 2022 IEEE. The authors would like to thank FANUC America Corporation; Tetsuaki Kato, the general manager of the FANUC Advanced Research Laboratory; and Jason Tsai, the advisor of the FANUC Advanced Research Laboratory.

Additional details

Created:
August 22, 2023
Modified:
October 23, 2023