Add to ORKGAbstract-We develop a technique to automatically generate a control policy for a robot moving in an environment that includes elements with partially unknown, changing behavior. The robot is required to achieve an optimal surveillance mission, in which a certain request needs to be serviced repeatedly, while the expected time in between consecutive services is minimized. We define a fragment of Linear Temporal Logic (LTL) to describe such a mission and formulate the problem as a temporal logic game. Our approach is based on two main ideas. First, we extend results in automata learning to detect patterns of the partially unknown behavior of the elements in the environment. Second, we employ an automata-theoretic method to generate the contro...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Thesis (Ph.D.)--Boston UniversityIn traditional motion planning, the problem is simply specified as ...
This paper considers the problem of deploying a robot from a specification given as a tempo-ral logi...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
Technical Report which accompanies an ICRA2012 paperIn this paper, we consider the problem of deploy...
Abstract—In this paper, we consider the problem of deploy-ing a robot from a specification given as ...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
In this paper we present a method for automatically generating optimal robot paths satisfying high l...
Abstract — We present a method to generate a robot control strategy that maximizes the probability t...
In this paper we present a method for automatically generating optimal robot paths satisfying high-l...
In this paper we present a method for automatically generating optimal robot paths satisfying high-l...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
In this paper, we propose a method to infer temporal logic behaviour models of an a priori unknown s...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Thesis (Ph.D.)--Boston UniversityIn traditional motion planning, the problem is simply specified as ...
This paper considers the problem of deploying a robot from a specification given as a tempo-ral logi...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
Technical Report which accompanies an ICRA2012 paperIn this paper, we consider the problem of deploy...
Abstract—In this paper, we consider the problem of deploy-ing a robot from a specification given as ...
Abstract — In this paper, we consider the problem of deploy-ing a robot from a specification given a...
In this paper we present a method for automatically generating optimal robot paths satisfying high l...
Abstract — We present a method to generate a robot control strategy that maximizes the probability t...
In this paper we present a method for automatically generating optimal robot paths satisfying high-l...
In this paper we present a method for automatically generating optimal robot paths satisfying high-l...
This thesis is motivated by time and safety critical applications involving the use of autonomous ve...
In this paper, we propose a method to infer temporal logic behaviour models of an a priori unknown s...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Abstract — We present a computational framework for auto-matic deployment of a robot from a temporal...
Thesis (Ph.D.)--Boston UniversityIn traditional motion planning, the problem is simply specified as ...