Over the decades, kinematic controllers have proven to be practically useful for applications like set-point and trajectory tracking in robotic systems. To this end, we formulate a novel safety-critical paradigm by extending the methodology of control barrier functions (CBFs) to kinematic equations governing robotic systems. We demonstrate a purely kinematic implementation of a velocity-based CBF, and subsequently introduce a formulation that guarantees safety at the level of dynamics. This is achieved through a new form of CBFs that incorporate kinetic energy with the classical forms, thereby minimizing model dependence and conservativeness. The approach is then extended to underactuated systems. This method and the purely kinematic implem...
A change in the paradigm of Human-Robot Interaction has allowed to place robots nearby human operato...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
If robots are to be introduced into the human world as assistants to aid a person in the completion ...
Over the decades, kinematic controllers have proven to be practically useful for applications like s...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Kinesthetic teaching allows human operators to reprogram part of a robot’s trajectory by manually gu...
This paper presents a framework for the safety-critical control of robotic systems, when safety is d...
Control barrier functions (CBFs) ensure safety of controlled dynamical systems, by restricting the c...
Safety constraints are ubiquitous in many robotic applications. For instance, aerial robots such as ...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
This paper provides an introduction and overview of recent work on control barrier functions and the...
A fundamental prerequisite to achieve a successful human-robot cooperation is human safety, which be...
Control Barrier Functions (CBFs) have gained rapid popularity in the recent years as a method to ver...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
A change in the paradigm of Human-Robot Interaction has allowed to place robots nearby human operato...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
If robots are to be introduced into the human world as assistants to aid a person in the completion ...
Over the decades, kinematic controllers have proven to be practically useful for applications like s...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
Kinesthetic teaching allows human operators to reprogram part of a robot’s trajectory by manually gu...
This paper presents a framework for the safety-critical control of robotic systems, when safety is d...
Control barrier functions (CBFs) ensure safety of controlled dynamical systems, by restricting the c...
Safety constraints are ubiquitous in many robotic applications. For instance, aerial robots such as ...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Control barrier functions (CBFs) are one of the many used approaches for achieving safety in robot a...
This paper provides an introduction and overview of recent work on control barrier functions and the...
A fundamental prerequisite to achieve a successful human-robot cooperation is human safety, which be...
Control Barrier Functions (CBFs) have gained rapid popularity in the recent years as a method to ver...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
A change in the paradigm of Human-Robot Interaction has allowed to place robots nearby human operato...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
If robots are to be introduced into the human world as assistants to aid a person in the completion ...