In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the concept of zeroing barrier functions and guarantees set forward invariance by checking their higher order derivatives. The proposed formulation guarantees asymptotic stability of the forward invariant set, which is highly favorable for robustness with respect to model perturbations. No forward completeness assumption is needed in our setting in contrast to existing high order barrier function methods. For the case of controlled dynamical systems, we relax the requirement of uniform relative degree and propose a singularity-free control scheme that yields a locally Lipschitz control signal and guarantees safety. Furthermore, the proposed formula...
Real-life control systems are hierarchies of interacting layers; often consisting of a planning laye...
This paper presents a new control approach for guaranteed safety (remaining in a safe set) subject t...
This paper shows that a barrier certificate exists for any safe dynamical system. Specifically, we p...
In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the co...
© 2015, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights res...
We propose a novel (Type-II) zeroing control barrier function (ZCBF) for safety-critical control, wh...
We propose a novel (Type-II) zeroing control barrier function (ZCBF) for safety-critical control, wh...
International audienceIn this paper, we present barrier function-based adaptive controllers for fast...
arXiv admin note: text overlap with arXiv:2208.10829This paper proposes a general framework to analy...
International audienceThis work proposes a general framework to analyze robust safety for continuous...
In this brief paper we introduce a robust-safety notion for differential inclusions, and we propose ...
This paper provides an introduction and overview of recent work on control barrier functions and the...
This paper presents converse theorems for robust safety in terms of barrier functions for continuous...
International audienceThis paper presents converse theorems for safety in terms of barrier functions...
This letter presents a new notion of input-to-state safe control barrier functions (ISSf-CBFs), whic...
Real-life control systems are hierarchies of interacting layers; often consisting of a planning laye...
This paper presents a new control approach for guaranteed safety (remaining in a safe set) subject t...
This paper shows that a barrier certificate exists for any safe dynamical system. Specifically, we p...
In this paper, we propose a notion of high-order (zeroing) barrier functions that generalizes the co...
© 2015, IFAC (International Federation of Automatic Control) Hosting by Elsevier Ltd. All rights res...
We propose a novel (Type-II) zeroing control barrier function (ZCBF) for safety-critical control, wh...
We propose a novel (Type-II) zeroing control barrier function (ZCBF) for safety-critical control, wh...
International audienceIn this paper, we present barrier function-based adaptive controllers for fast...
arXiv admin note: text overlap with arXiv:2208.10829This paper proposes a general framework to analy...
International audienceThis work proposes a general framework to analyze robust safety for continuous...
In this brief paper we introduce a robust-safety notion for differential inclusions, and we propose ...
This paper provides an introduction and overview of recent work on control barrier functions and the...
This paper presents converse theorems for robust safety in terms of barrier functions for continuous...
International audienceThis paper presents converse theorems for safety in terms of barrier functions...
This letter presents a new notion of input-to-state safe control barrier functions (ISSf-CBFs), whic...
Real-life control systems are hierarchies of interacting layers; often consisting of a planning laye...
This paper presents a new control approach for guaranteed safety (remaining in a safe set) subject t...
This paper shows that a barrier certificate exists for any safe dynamical system. Specifically, we p...