Control Barrier Function Based Quadratic Programs for Safety Critical Systems
California Institute of Technology · University of Michigan–Ann Arbor
Abstract
Safety critical systems involve the tight coupling between potentially conflicting control objectives and safety constraints. As a means of creating a formal framework for controlling systems of this form, and with a view toward automotive applications, this paper develops a methodology that allows safety conditions-expressed as control barrier functions-to be unified with performance objectives-expressed as control Lyapunov functions-in the context of real-time optimization-based controllers. Safety conditions are specified in terms of forward invariance of a set, and are verified via two novel generalizations of barrier functions; in each case, the existence of a barrier function satisfying Lyapunov-like…
Citation impact
- FWCI
- 31.31
- Percentile
- 100%
- References
- 53
Authors
4- ADAaron D. AmesCorresponding
California Institute of Technology
- XXXiangru Xu
University of Michigan–Ann Arbor
- JWJessy W. Grizzle
University of Michigan–Ann Arbor
- PTPaulo Tabuada
Topics & keywords
- Cruise control
- Context (archaeology)
- Control theory (sociology)
- Lyapunov function
- Quadratic equation
- Automotive industry
- Control system
- Life-critical system