AbstractThe subject of this paper is the analysis of a randomized preprocessing scheme that has been used for query processing in robot path planning. The attractiveness of the scheme stems from its general applicability to virtually any path-planning problem, and its empirically observed success. In this paper we initiate a theoretical basis for explaining this empirical success. Under a simple assumption about the configuration space, we show that it is possible to perform preprocessing following which queries can be answered quickly. En route, we consider related problems on graph connectivity in the evasiveness model and art-gallery theorems
When planning actions to take on behalf of its human operator, a robot might be uncertain about its ...
In robotics, path planning refers to the process of establishing paths for robots to move from initi...
In this paper, we investigate methods for enabling a human operator and an automatic motion planner ...
The subject of this paper is the analysis of a randomized preprocessing scheme that has been used fo...
Several randomized path planners have been proposed during the last few years. Their at-tractiveness...
Several randomized path planners have been proposed during the last few years. Their attractiveness ...
Robot path planning is a critical feature of autonomous systems. Rapidly-exploring Random Trees (RRT...
A simple and efficient randomized algorithm is presented for solving single-query path planning prob...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
Presented article is studying the issue of path navigating for numerous robots. Our presented approa...
We present a path planning algorithm for a six-degree-of-freedom (6 DOF) polyhedral robot moving in ...
The Probabilistic RoadMap planner (PRM) has been applied with success to multiple planning problems ...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Sampling based planners have been successful in path planning of robots with many degrees of freedom...
We propose the combination of techniques that solve multiple queries for motion planning problems wi...
When planning actions to take on behalf of its human operator, a robot might be uncertain about its ...
In robotics, path planning refers to the process of establishing paths for robots to move from initi...
In this paper, we investigate methods for enabling a human operator and an automatic motion planner ...
The subject of this paper is the analysis of a randomized preprocessing scheme that has been used fo...
Several randomized path planners have been proposed during the last few years. Their at-tractiveness...
Several randomized path planners have been proposed during the last few years. Their attractiveness ...
Robot path planning is a critical feature of autonomous systems. Rapidly-exploring Random Trees (RRT...
A simple and efficient randomized algorithm is presented for solving single-query path planning prob...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
Presented article is studying the issue of path navigating for numerous robots. Our presented approa...
We present a path planning algorithm for a six-degree-of-freedom (6 DOF) polyhedral robot moving in ...
The Probabilistic RoadMap planner (PRM) has been applied with success to multiple planning problems ...
Sampling-based motion planning is a powerful tool in solving the motion planning problem for a varie...
Sampling based planners have been successful in path planning of robots with many degrees of freedom...
We propose the combination of techniques that solve multiple queries for motion planning problems wi...
When planning actions to take on behalf of its human operator, a robot might be uncertain about its ...
In robotics, path planning refers to the process of establishing paths for robots to move from initi...
In this paper, we investigate methods for enabling a human operator and an automatic motion planner ...