We study the problem of exploring an unknown environment using a single robot. The environment is large enough (and possibly dynamic) that constant motion by the robot is needed to cover the environment. We term this the dynamic coverage problem. We present an efficient minimalist algorithm which assumes that global information is not available to the robot (neither a map, nor GPS). Our algorithm uses markers which the robot drops off as signposts to aid exploration. We conjecture that our algorithm has a cover time better than O(n log n), where the n markers that are deployed form the vertices of a regular graph. We provide experimental evidence in support of this conjecture. We show empirically that the performance of our algorithm on gra...
Existing solutions to carrier-based sensor placement by a single robot in a bounded unknown Region o...
We consider the problem of planning, on the fly, a path whereby a robotic vehicle will cover every p...
There are some mobile-robot applications that require the complete coverage of an unstructured envir...
The traditional approach to measure the eciency of a (static) coverage task is the ratio of the inte...
Tasks such as street mapping and security surveillance seek a route that traverses a given space to ...
International audienceIn this paper we present a simple algorithm to make a quasi-optimal coverage o...
This thesis explores the problem of generating coverage paths—that is, paths that pass within some s...
Tasks such as street mapping and security surveillance seek a route that traverses a given space to ...
The present paper develops a novel strategy for the exploration of an unknown environment with a mul...
AbstractA robot has to visit all nodes and traverse all edges of an unknown undirected connected gra...
A robot has to visit all nodes and traverse all edges of an unknown undirected connected graph, usin...
In this paper, we propose a new on-line coverage algorithm, which we call deadline coverage. The alg...
The present paper develops a novel strategy for the exploration of an unknown environment with a mul...
This paper introduces a sensor based coverage algorithm and an overview of a mobile robot sys-tem fo...
Coverage is widely known in the field of sensor networks as the task of deploying sensors to complet...
Existing solutions to carrier-based sensor placement by a single robot in a bounded unknown Region o...
We consider the problem of planning, on the fly, a path whereby a robotic vehicle will cover every p...
There are some mobile-robot applications that require the complete coverage of an unstructured envir...
The traditional approach to measure the eciency of a (static) coverage task is the ratio of the inte...
Tasks such as street mapping and security surveillance seek a route that traverses a given space to ...
International audienceIn this paper we present a simple algorithm to make a quasi-optimal coverage o...
This thesis explores the problem of generating coverage paths—that is, paths that pass within some s...
Tasks such as street mapping and security surveillance seek a route that traverses a given space to ...
The present paper develops a novel strategy for the exploration of an unknown environment with a mul...
AbstractA robot has to visit all nodes and traverse all edges of an unknown undirected connected gra...
A robot has to visit all nodes and traverse all edges of an unknown undirected connected graph, usin...
In this paper, we propose a new on-line coverage algorithm, which we call deadline coverage. The alg...
The present paper develops a novel strategy for the exploration of an unknown environment with a mul...
This paper introduces a sensor based coverage algorithm and an overview of a mobile robot sys-tem fo...
Coverage is widely known in the field of sensor networks as the task of deploying sensors to complet...
Existing solutions to carrier-based sensor placement by a single robot in a bounded unknown Region o...
We consider the problem of planning, on the fly, a path whereby a robotic vehicle will cover every p...
There are some mobile-robot applications that require the complete coverage of an unstructured envir...