In this work, probabilistic reachability over a finite horizon is investigated for a class of discrete time stochastic hybrid systems with control inputs. A suitable embedding of the reachability problem in a stochastic control framework reveals that it is amenable to two complementary interpretations, leading to dual algorithms for reachability computations. In particular, the set of initial conditions providing a certain probabilistic guarantee that the system will keep evolving within a desired ‘safe’ region of the state space is characterized in terms of a value function, and ‘maximally safe ’ Markov policies are determined via dynamic programming. These results are of interest not only for safety analysis and design, but also for solvi...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...
In this work, probabilistic reachability over a finite horizon is investigated for a class of discre...
In this work, probabilistic reachability over a finite horizon is investigated for a class of discre...
The stochastic hybrid systems constitute well established classes of realistic models of hybrid disc...
Abstract — This paper presents a framework for analyzing probabilistic safety and reachability probl...
We describe a framework for analyzing probabilistic reachability and safety problems for discrete ti...
We consider a reach–avoid specification for a stochastic hybrid dynamical system defined as reaching...
As automated control systems grow in prevalence and complexity, there is an increasing demand for v...
Many control problems can be formulated as driving a system to reach some target states while avoidi...
Reachability analysis of hybrid systems has been used as a safety verification tool to assess offlin...
We synthesize controllers for discrete-time stochastic hybrid systems such that the probability of s...
Stochastic reachability analysis (SRA) is a method of analyzing the behavior of control systems whic...
We present a dynamic programming based solution to a stochastic reachability problem for a controlle...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...
In this work, probabilistic reachability over a finite horizon is investigated for a class of discre...
In this work, probabilistic reachability over a finite horizon is investigated for a class of discre...
The stochastic hybrid systems constitute well established classes of realistic models of hybrid disc...
Abstract — This paper presents a framework for analyzing probabilistic safety and reachability probl...
We describe a framework for analyzing probabilistic reachability and safety problems for discrete ti...
We consider a reach–avoid specification for a stochastic hybrid dynamical system defined as reaching...
As automated control systems grow in prevalence and complexity, there is an increasing demand for v...
Many control problems can be formulated as driving a system to reach some target states while avoidi...
Reachability analysis of hybrid systems has been used as a safety verification tool to assess offlin...
We synthesize controllers for discrete-time stochastic hybrid systems such that the probability of s...
Stochastic reachability analysis (SRA) is a method of analyzing the behavior of control systems whic...
We present a dynamic programming based solution to a stochastic reachability problem for a controlle...
For stochastic hybrid systems, safety verification methods are very little supported mainly because ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...
We consider continuous time stochastic hybrid systems with no resets and continuous dynamics describ...