Safety Barrier Certificates for Collisions-Free Multirobot Systems
Georgia Institute of Technology · California Institute of Technology
Abstract
This paper presents safety barrier certificates that ensure scalable and provably collision-free behaviors in multirobot systems by modifying the nominal controllers to formally satisfy safety constraints. This is achieved by minimizing the difference between the actual and the nominal controllers subject to safety constraints. The resulting computation of the safety controllers is done through a quadratic programming problem that can be solved in real-time and in this paper, we describe a series of problems of increasing complexity. Starting with a centralized formulation, where the safety controller is computed across all agents simultaneously, we show how one can achieve a natural decentralization whereby…
Citation impact
- FWCI
- 12.48
- Percentile
- 100%
- References
- 37
Authors
3Topics & keywords
- Robot
- Scalability
- Computer science
- Mobile robot
- Controller (irrigation)
- Collision avoidance
- Control engineering
- Quadratic programming