The increasing complexity of modern robotic systems and the environments they operate in necessitates the formal consideration of safety in the presence of imperfect measurements. In this paper we propose a rigorous framework for safety-critical control of systems with erroneous state estimates. We develop this framework by leveraging Control Barrier Functions (CBFs) and unifying the method of Backup Sets for synthesizing control invariant sets with robustness requirements -- the end result is the synthesis of Measurement-Robust Control Barrier Functions (MR-CBFs). This provides theoretical guarantees on safe behavior in the presence of imperfect measurements and improved robustness over standard CBF approaches. We demonstrate the efficacy ...
Advances in computer vision and machine learning enable robots to perceive their surroundings in pow...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
There are two main approaches to safety-critical control. The first one relies on computation of con...
Modern nonlinear control theory seeks to develop feedback controllers that endow systems with proper...
Modern nonlinear control theory seeks to endow systems with properties of stability and safety, and ...
There is currently a clear gap between control-theoretical results and the reality of robotic implem...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
To bring complex systems into real world environments in a safe manner, they will have to be robust ...
This paper presents a framework for the safety-critical control of robotic systems, when safety is d...
The problem of safely learning and controlling a dynamical system - i.e., of stabilizing an original...
This paper addresses the problem of safety-critical control of autonomous robots, considering the ub...
Safety is one of the most important properties of control systems. Sensor faults and attacks and act...
Control barrier functions (CBF) are widely used in safety-critical controllers. However, the constru...
This paper provides an introduction and overview of recent work on control barrier functions and the...
Advances in computer vision and machine learning enable robots to perceive their surroundings in pow...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
There are two main approaches to safety-critical control. The first one relies on computation of con...
Modern nonlinear control theory seeks to develop feedback controllers that endow systems with proper...
Modern nonlinear control theory seeks to endow systems with properties of stability and safety, and ...
There is currently a clear gap between control-theoretical results and the reality of robotic implem...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
Safe motion control in unknown environments is one of the challenging tasks in robotics, such as aut...
To bring complex systems into real world environments in a safe manner, they will have to be robust ...
This paper presents a framework for the safety-critical control of robotic systems, when safety is d...
The problem of safely learning and controlling a dynamical system - i.e., of stabilizing an original...
This paper addresses the problem of safety-critical control of autonomous robots, considering the ub...
Safety is one of the most important properties of control systems. Sensor faults and attacks and act...
Control barrier functions (CBF) are widely used in safety-critical controllers. However, the constru...
This paper provides an introduction and overview of recent work on control barrier functions and the...
Advances in computer vision and machine learning enable robots to perceive their surroundings in pow...
Control design for nonlinear dynamical systems is an essential field of study in a world growing eve...
There are two main approaches to safety-critical control. The first one relies on computation of con...