We present a novel approach to parallel motion planning for robot manipulators in 3D workspaces. The approach is based on a randomized parallel search algorithm and focuses on solving the path planning problem for industrial robot arms working in a reasonably cluttered workspace.The path planning system works in the discretized configuration space, which needs not to be represented explicitly. The parallel search is conducted by a number of rule-based sequential search processes, which work to find a path connecting the initial configuration to the goal via a number of randomly generated subgoal configurations. Since the planning performs only on-line collision tests with proper pr...
Despite the increasing interest on parallel mechanisms during the last years, few researchers have a...
Motion planning is the problem of finding a valid path for a robot from a start position to a goal p...
The motion planning problem means the computation of a collision-free motion for a movable object am...
We have presented a novel approach to parallel motion planning for robot manipulators in 3D workspac...
The paper presents a novel approach to parallel motion planning for robot manipulators in 3D workspa...
In this paper we show that parallel search techniques derived from their sequential counterparts can...
We present a method to plan collision free paths for robots with any number of degrees of freedom in...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel path planning for industrial robot arms with six degr...
We present a method to plan collision free paths for robots with any number of degrees of freedom in...
A multi-pass distributed localized search technique to solve the problem of path planning of hyper-r...
Path planning for parallel manipulators, especially for manipulators greater than three degrees of f...
Motion planning for robotic arms is important for real, physical world applica-tions. The planning f...
Despite the increasing interest on parallel mechanisms during the last years, few researchers have a...
Motion planning is the problem of finding a valid path for a robot from a start position to a goal p...
The motion planning problem means the computation of a collision-free motion for a movable object am...
We have presented a novel approach to parallel motion planning for robot manipulators in 3D workspac...
The paper presents a novel approach to parallel motion planning for robot manipulators in 3D workspa...
In this paper we show that parallel search techniques derived from their sequential counterparts can...
We present a method to plan collision free paths for robots with any number of degrees of freedom in...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel motion planning for industrial robot arms with six de...
This paper presents a new approach to parallel path planning for industrial robot arms with six degr...
We present a method to plan collision free paths for robots with any number of degrees of freedom in...
A multi-pass distributed localized search technique to solve the problem of path planning of hyper-r...
Path planning for parallel manipulators, especially for manipulators greater than three degrees of f...
Motion planning for robotic arms is important for real, physical world applica-tions. The planning f...
Despite the increasing interest on parallel mechanisms during the last years, few researchers have a...
Motion planning is the problem of finding a valid path for a robot from a start position to a goal p...
The motion planning problem means the computation of a collision-free motion for a movable object am...