Add to ORKGIn this paper, we investigate the optimal robot path planning problem for high-level specifications described by co-safe linear temporal logic (LTL) formulae. We consider the scenario where the map geometry of the workspace is partially-known. Specifically, we assume that there are some unknown regions, for which the robot does not know their successor regions a priori unless it reaches these regions physically. In contrast to the standard game-based approach that optimizes the worst-case cost, in the paper, we propose to use regret as a new metric for planning in such a partially-known environment. The regret of a plan under a fixed but unknown environment is the difference between the actual cost incurred and the best-response cost the ro...
The specification of complex motion goals through temporal logics is increasingly favored in robotic...
AbstractPlanning in nondeterministic domains is typically intractable due to the large number of con...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
The task of planning trajectories for a mobile robot has received considerable attention in the rese...
Robot applications are increasingly based on teams of robots that collaborate to perform a desired m...
Complex mission specifications can be often specifiedthrough temporal logics, such as Linear Tempora...
This paper considers the problem of synthesizing correct-by-construction robotic controllers in envi...
This thesis considers the problem of a robot with complex dynamics navigating a partially discovered...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a framework for analyzing and computing motion plans for a robot that operates in an envi...
This paper considers the problem of motion planning for a hybrid robotic system with complex and non...
This paper considers the problem of informative path planning under temporal logic (TL) correctness ...
This paper considers the problem of finding the most informative path for a sensing robot under temp...
For most real-world problems the agent operates in only par-tially-known environments. Probabilistic...
The specification of complex motion goals through temporal logics is increasingly favored in robotic...
AbstractPlanning in nondeterministic domains is typically intractable due to the large number of con...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...
The task of planning trajectories for a mobile robot has received considerable attention in the rese...
Robot applications are increasingly based on teams of robots that collaborate to perform a desired m...
Complex mission specifications can be often specifiedthrough temporal logics, such as Linear Tempora...
This paper considers the problem of synthesizing correct-by-construction robotic controllers in envi...
This thesis considers the problem of a robot with complex dynamics navigating a partially discovered...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a method to calculate cost-optimal poli-cies for task specifications in co-safe linear te...
We present a framework for analyzing and computing motion plans for a robot that operates in an envi...
This paper considers the problem of motion planning for a hybrid robotic system with complex and non...
This paper considers the problem of informative path planning under temporal logic (TL) correctness ...
This paper considers the problem of finding the most informative path for a sensing robot under temp...
For most real-world problems the agent operates in only par-tially-known environments. Probabilistic...
The specification of complex motion goals through temporal logics is increasingly favored in robotic...
AbstractPlanning in nondeterministic domains is typically intractable due to the large number of con...
In the real world, robots operate with imperfect sensors providing uncertain and incomplete informat...