In this paper, we present a novel notion of input- to-state safety (ISSf) for general nonlinear systems which can be useful for certifying system’s safety under the influence of external bounded input (or disturbance) signals. We provide sufficient conditions for ISSf using barrier function/certificate which are analogous to the input-to-state stability Lyapunov function
Adaptive control has focused on online control of dynamic systems in the presence of parametric unce...
This paper introduces an approach for synthesizing feasible safety indices to derive safe control la...
Safety is one of the most important properties of control systems. Sensor faults and attacks and act...
In this paper, we present a novel notion of input- to-state safety (ISSf) for general nonlinear syst...
In this paper, we study robustness analysis of systems' safety with respect to external input (or di...
In this paper, we propose a new robustness notion that is applicable for certifying systems' safety ...
This letter presents a new notion of input-to-state safe control barrier functions (ISSf-CBFs), whic...
To bring complex systems into real world environments in a safe manner, they will have to be robust ...
Barrier functions (also called certificates) have been an important tool for the verification of hyb...
We consider the problem of ensuring the safety of nonlinear control systems under adversarial signal...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
Adaptive control has focused on online control of dynamic systems in the presence of parametric unce...
This paper introduces an approach for synthesizing feasible safety indices to derive safe control la...
Safety is one of the most important properties of control systems. Sensor faults and attacks and act...
In this paper, we present a novel notion of input- to-state safety (ISSf) for general nonlinear syst...
In this paper, we study robustness analysis of systems' safety with respect to external input (or di...
In this paper, we propose a new robustness notion that is applicable for certifying systems' safety ...
This letter presents a new notion of input-to-state safe control barrier functions (ISSf-CBFs), whic...
To bring complex systems into real world environments in a safe manner, they will have to be robust ...
Barrier functions (also called certificates) have been an important tool for the verification of hyb...
We consider the problem of ensuring the safety of nonlinear control systems under adversarial signal...
The safety of robotic systems is paramount to their continued emergence into our lives. From collabo...
This work provides formal safety guarantees for control systems with disturbance. A disturbance obse...
We propose a novel nonlinear control method for solving the problem of stabilization with guaranteed...
Adaptive control has focused on online control of dynamic systems in the presence of parametric unce...
This paper introduces an approach for synthesizing feasible safety indices to derive safe control la...
Safety is one of the most important properties of control systems. Sensor faults and attacks and act...