Real-life control systems are hierarchies of interacting layers; often consisting of a planning layer, a trajectory generation layer, and a trajectory-following layer. Independently designing the layers without taking the interactions between layers into account makes it difficult to obtain safety guarantees when executing a high-level plan. In this paper we combine ideas from safety-critical control and high-level policy synthesis to develop a principled connection between a high-level planner in a low-dimensional space, and a low-level safety-critical controller acting in the full state space. We introduce a new type of simulation relation and show that barrier functions can be used to abstract a high-dimensional system via the relation. ...
Barrier functions (also called certificates) have been an important tool for the verification of hyb...
In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the co...
Control barrier functions (CBFs) are a powerful tool to guarantee safety of autonomous systems, yet ...
Real-life control systems are hierarchies of interacting layers; often consisting of a planning laye...
Complex systems, such as autonomous vehicles and missile guidance systems, use hierarchical control ...
This paper provides an introduction and overview of recent work on control barrier functions and the...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
In this letter we present a multi-rate control architecture for safety critical systems. We consider...
This paper presents a methodology for constructing Control Barrier Functions (CBFs) that proactively...
In this thesis, we explore different methods to enhance the safety and robustness for autonomous sys...
Safety critical systems involve the tight coupling between potentially conflicting control objective...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Controller synthesis for nonlinear systems is considered with the following ob-jective: no trajector...
Controller synthesis for nonlinear systems is considered with the following objective: No trajectory...
We consider the problem of extracting safe environments and controllers for reach-avoid objectives f...
Barrier functions (also called certificates) have been an important tool for the verification of hyb...
In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the co...
Control barrier functions (CBFs) are a powerful tool to guarantee safety of autonomous systems, yet ...
Real-life control systems are hierarchies of interacting layers; often consisting of a planning laye...
Complex systems, such as autonomous vehicles and missile guidance systems, use hierarchical control ...
This paper provides an introduction and overview of recent work on control barrier functions and the...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
In this letter we present a multi-rate control architecture for safety critical systems. We consider...
This paper presents a methodology for constructing Control Barrier Functions (CBFs) that proactively...
In this thesis, we explore different methods to enhance the safety and robustness for autonomous sys...
Safety critical systems involve the tight coupling between potentially conflicting control objective...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Controller synthesis for nonlinear systems is considered with the following ob-jective: no trajector...
Controller synthesis for nonlinear systems is considered with the following objective: No trajectory...
We consider the problem of extracting safe environments and controllers for reach-avoid objectives f...
Barrier functions (also called certificates) have been an important tool for the verification of hyb...
In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the co...
Control barrier functions (CBFs) are a powerful tool to guarantee safety of autonomous systems, yet ...