Add to ORKGWe present a new approach to the multi-robot path planning problem, where a number of robots are to change their positions through feasible motions in the same static environment. Rather than the usual decoupled planning, we use a coordinated approach. As a result we can show that the method is probabilistically complete, that is, any solvable problem will be solved within a nite amount of time. A data-structure storing multi-robot motions is built in two steps. First, a roadmap is constructed for just one robot. For this we use the Probabilistic Path Planner, which guarantees that the approach can be easily applied to di erent robot types. In the second step, a number of these simple roadmaps are combined into a roadmap for the composite r...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
Presented article is studying the issue of path navigating for numerous robots. Our presented approa...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
Multi-robot path planning is abstracted as the problem of computing a set of non-colliding paths on ...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
This paper develops an effective, cooperative, and probabilistically-complete multi-robot motion pla...
This paper describes a method for coordinating the motions of a group of robotsfollowing predefined ...
A novel multi-robot path planning approach is presented in this paper. Based on the standard Dijkstr...
<p>Planning optimal paths for large numbers of robots is computationally expensive. In this thesis, ...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
This paper describes a method for coordinating the motions of a group of robots following predefined...
This paper addresses the problem of planning paths for multiple mobile robots moving in the same env...
<p>shwalli SH, Karim A, scott john turner</p> <p>International Journal of Computer Applications 11/2...
Abstract: This paper addresses the challenging problem of finding collision-free trajectories for ma...
Planning collision-free paths for multiple robots traversing a shared space is a problem that grows ...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
Presented article is studying the issue of path navigating for numerous robots. Our presented approa...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...
Multi-robot path planning is abstracted as the problem of computing a set of non-colliding paths on ...
Multi-robot path planning involves moving multiple robots from their unique starting positions to t...
This paper develops an effective, cooperative, and probabilistically-complete multi-robot motion pla...
This paper describes a method for coordinating the motions of a group of robotsfollowing predefined ...
A novel multi-robot path planning approach is presented in this paper. Based on the standard Dijkstr...
<p>Planning optimal paths for large numbers of robots is computationally expensive. In this thesis, ...
This thesis consists of three papers concerned with the basic path planning problem for robots movin...
This paper describes a method for coordinating the motions of a group of robots following predefined...
This paper addresses the problem of planning paths for multiple mobile robots moving in the same env...
<p>shwalli SH, Karim A, scott john turner</p> <p>International Journal of Computer Applications 11/2...
Abstract: This paper addresses the challenging problem of finding collision-free trajectories for ma...
Planning collision-free paths for multiple robots traversing a shared space is a problem that grows ...
An optimization variant of a problem of path planning for multiple robots is addressed in this work....
Presented article is studying the issue of path navigating for numerous robots. Our presented approa...
This paper addresses the challenging problem of finding collision-free trajectories for many robots ...