Control Barrier Functions have been extensively studied to ensure guaranteed safety during inter-robot interactions. In this paper, we introduce the Parametric-Control Barrier Function (Parametric-CBF), a novel variant of the traditional Control Barrier Function to extend its expressivity in describing different safe behaviors among heterogeneous robots. A parametric-CBF based framework is presented to enable the ego robot to model the neighboring robots behavior and further improve the coordination efficiency during interaction while enjoying formally provable safety guarantees. We demonstrate the usage of Parametric-CBF in behavior prediction and adaptive safe control in the ramp merging scenario
One of the most fundamental challenges when designing controllers for dynamic systems is the adjustm...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
Future real-world applications will consist of robots and human workers collaborating with each othe...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
A fundamental prerequisite to achieve a successful human-robot cooperation is human safety, which be...
This paper presents a formal framework for collision avoidance in multi-robot systems, wherein an ex...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Control barrier functions (CBFs) have recently emerged as a means to ensure safety of controlled dyn...
In this paper we present the implementation of a Control Barrier Function (CBF) using a quadratic pr...
This paper presents safety barrier certificates that ensure scalable and provably collision-free beh...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
This letter considers the problem of obstacle avoidance for multiple robotic agents moving in an env...
In this paper, we develop a novel and safe control design approach that takes demonstrations provide...
Copyright ©2015 IFACDOI: 10.1016/j.ifacol.2015.11.154Multi-agent robotics involves the coordinat...
One of the most fundamental challenges when designing controllers for dynamic systems is the adjustm...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
Future real-world applications will consist of robots and human workers collaborating with each othe...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
A fundamental prerequisite to achieve a successful human-robot cooperation is human safety, which be...
This paper presents a formal framework for collision avoidance in multi-robot systems, wherein an ex...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Control barrier functions (CBFs) have recently emerged as a means to ensure safety of controlled dyn...
In this paper we present the implementation of a Control Barrier Function (CBF) using a quadratic pr...
This paper presents safety barrier certificates that ensure scalable and provably collision-free beh...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
This letter considers the problem of obstacle avoidance for multiple robotic agents moving in an env...
In this paper, we develop a novel and safe control design approach that takes demonstrations provide...
Copyright ©2015 IFACDOI: 10.1016/j.ifacol.2015.11.154Multi-agent robotics involves the coordinat...
One of the most fundamental challenges when designing controllers for dynamic systems is the adjustm...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
Future real-world applications will consist of robots and human workers collaborating with each othe...