Control Barrier Functions (CBFs) have been demonstrated to be a powerful tool for safety-critical controller design for nonlinear systems. Existing design paradigms do not address the gap between theory (controller design with continuous time models) and practice (the discrete time sampled implementation of the resulting controllers); this can lead to poor performance and violations of safety for hardware instantiations. We propose an approach to close this gap by synthesizing sampled-data counterparts to these CBF-based controllers using approximate discrete time models and Sampled-Data Control Barrier Functions (SD-CBFs). Using properties of a system's continuous time model, we establish a relationship between SD-CBFs and a notion of prac...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
This paper considers the general problem of transitioning theoretically safe controllers to hardware...
A sampled data model falls somewhere between continuous and discrete time models: The plant evolves ...
Sampled-data (SD) systems, which are composed of both discrete- and continuous-time components, are ...
In this paper, we propose a novel predictive safety filter that is robust to bounded perturbations a...
This paper presents a methodology for constructing Control Barrier Functions (CBFs) that proactively...
Adaptive control has focused on online control of dynamic systems in the presence of parametric unce...
This work presents a safe control design approach that integrates the disturbance observer (DOB) and...
Two approaches for sampled-data control design are: a) synthesizing a controller based on a discrete...
We present a Monte Carlo simulation framework for analysing the risk involved in deploying real-time...
We develop a novel form of differentiable predictive control (DPC) with safety and robustness guaran...
Abstract. Most research in control of nonlinear systems is devoted to continuous time systems, the d...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
This paper considers the general problem of transitioning theoretically safe controllers to hardware...
A sampled data model falls somewhere between continuous and discrete time models: The plant evolves ...
Sampled-data (SD) systems, which are composed of both discrete- and continuous-time components, are ...
In this paper, we propose a novel predictive safety filter that is robust to bounded perturbations a...
This paper presents a methodology for constructing Control Barrier Functions (CBFs) that proactively...
Adaptive control has focused on online control of dynamic systems in the presence of parametric unce...
This work presents a safe control design approach that integrates the disturbance observer (DOB) and...
Two approaches for sampled-data control design are: a) synthesizing a controller based on a discrete...
We present a Monte Carlo simulation framework for analysing the risk involved in deploying real-time...
We develop a novel form of differentiable predictive control (DPC) with safety and robustness guaran...
Abstract. Most research in control of nonlinear systems is devoted to continuous time systems, the d...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
The authors present robust stability bounds for sampled data systems. The bounds are derived for the...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...