Add to ORKGInternational audienceThis paper addresses the problem of improving the performance of the Rapidly-exploring Random Tree (RRT) algorithm by parallelizing it. For scalability reasons we do so on a distributed-memory architecture, using the message-passing paradigm. We present three parallel versions of RRT along with the technicalities involved in their implementation. We also evaluate the algorithms and study how they behave on different motion planning problems
This thesis presents a new parallelized real-time path planning process. This process is an extensio...
This paper proposes an improved RRT algorithm, which overcomes the problems of non-optimal path and ...
This work presents a scalable framework for parallelizing sampling based motion planning algorithms....
International audienceThis paper addresses the problem of improving the performance of the Rapidly-e...
Abstract—This paper addresses the problem of improving the performance of the Rapidly-exploring Rand...
International audienceThis paper addresses the problem of parallelizing the Rapidly-exploring Random...
International audienceThis paper addresses the problem of parallelizing the Rapidly-exploring Random...
This paper addresses the problem of improving the performance of the Rapidly-exploring Random Tree (...
This paper addresses the problem of parallelizing the Rapidly-exploring Random Tree (RRT) algorithm ...
sampling-based motion planning methods, has been very suc-cessful in solving motion planning problem...
A motion planning algorithm aims to calculate one obstacle-free trajectory which meets the dynamical...
Rapidly-Exploring Random Trees (RRTs) have been successful at finding feasible solutions for high-di...
been successful at finding feasible solutions for many types of problems. With motion planning becom...
Abstract: We present a new algorithm, named RSRT, for Rapidly-exploring Random Trees (RRT) based on ...
This dissertation focuses on scalable parallel algorithms for irregular communication, random data a...
This thesis presents a new parallelized real-time path planning process. This process is an extensio...
This paper proposes an improved RRT algorithm, which overcomes the problems of non-optimal path and ...
This work presents a scalable framework for parallelizing sampling based motion planning algorithms....
International audienceThis paper addresses the problem of improving the performance of the Rapidly-e...
Abstract—This paper addresses the problem of improving the performance of the Rapidly-exploring Rand...
International audienceThis paper addresses the problem of parallelizing the Rapidly-exploring Random...
International audienceThis paper addresses the problem of parallelizing the Rapidly-exploring Random...
This paper addresses the problem of improving the performance of the Rapidly-exploring Random Tree (...
This paper addresses the problem of parallelizing the Rapidly-exploring Random Tree (RRT) algorithm ...
sampling-based motion planning methods, has been very suc-cessful in solving motion planning problem...
A motion planning algorithm aims to calculate one obstacle-free trajectory which meets the dynamical...
Rapidly-Exploring Random Trees (RRTs) have been successful at finding feasible solutions for high-di...
been successful at finding feasible solutions for many types of problems. With motion planning becom...
Abstract: We present a new algorithm, named RSRT, for Rapidly-exploring Random Trees (RRT) based on ...
This dissertation focuses on scalable parallel algorithms for irregular communication, random data a...
This thesis presents a new parallelized real-time path planning process. This process is an extensio...
This paper proposes an improved RRT algorithm, which overcomes the problems of non-optimal path and ...
This work presents a scalable framework for parallelizing sampling based motion planning algorithms....