AbstractWe consider problems involving robot motion planning in an initially unknown scene of obstacles. The two specific problems that we examine are mapping the scene and searching the scene for a recognizable target whose location is unknown. We use competitive analysis as a tool for comparing algorithms. In the case of convex polygonal obstacles, we show a tight Θ(min(k, √kα)) bound on the competitive factor for these problems, where α and k are the average aspect ratio and the number of objects, respectively. We also consider the competitive factor for the Nearest Neighbor heuristic
In this paper we study the problem of a robot searching for a visually recognizable target in an unk...
AbstractIn this paper we investigate parallel searches on m concurrent rays for a point target t loc...
We study exploration problems where a robot has to construct a complete map of an unknown environmen...
AbstractWe consider problems involving robot motion planning in an initially unknown scene of obstac...
With the advent of autonomous robots with two- and three-dimensional scanning capabilities, classica...
We consider a problem of motion planning under uncertainty. A robot can navigate freely in the plane...
Exploring a polygon with robots, when the robots do not have knowledge of the surroundings can be vi...
AbstractExploring a polygon with robots when the robots do not have knowledge of the surroundings ca...
Abstract. We consider the problem of a robot searching for an unknown, yet visually recognizable tar...
This paper integrates constraints from visual processing and robot navigation into the well-studied ...
This paper is concerned with on-line problems where a mobile robot of size D has to achieve a task i...
We consider a number of problems faced by a robot trying to navigate inside a simple polygon. Such ...
In this paper we study the problem of a robot searching for a visually recognizable target in an unk...
A strategy for working with incomplete information is called competitive if it solves each problem i...
Consider a robot that has to travel from a start location s to a target t in an environment with opa...
In this paper we study the problem of a robot searching for a visually recognizable target in an unk...
AbstractIn this paper we investigate parallel searches on m concurrent rays for a point target t loc...
We study exploration problems where a robot has to construct a complete map of an unknown environmen...
AbstractWe consider problems involving robot motion planning in an initially unknown scene of obstac...
With the advent of autonomous robots with two- and three-dimensional scanning capabilities, classica...
We consider a problem of motion planning under uncertainty. A robot can navigate freely in the plane...
Exploring a polygon with robots, when the robots do not have knowledge of the surroundings can be vi...
AbstractExploring a polygon with robots when the robots do not have knowledge of the surroundings ca...
Abstract. We consider the problem of a robot searching for an unknown, yet visually recognizable tar...
This paper integrates constraints from visual processing and robot navigation into the well-studied ...
This paper is concerned with on-line problems where a mobile robot of size D has to achieve a task i...
We consider a number of problems faced by a robot trying to navigate inside a simple polygon. Such ...
In this paper we study the problem of a robot searching for a visually recognizable target in an unk...
A strategy for working with incomplete information is called competitive if it solves each problem i...
Consider a robot that has to travel from a start location s to a target t in an environment with opa...
In this paper we study the problem of a robot searching for a visually recognizable target in an unk...
AbstractIn this paper we investigate parallel searches on m concurrent rays for a point target t loc...
We study exploration problems where a robot has to construct a complete map of an unknown environmen...