Add to ORKGThe planning of collision-free motions of a handarm system to reach a grasp or preshape configuration is not a simple issue due to the high number of involved degrees of freedom. This paper presents an efficient sampling-based path planner that copes with this issue by considering a reduced search space. The dimension of this space is not fixed but it is iteratively increased according to the difficulty of the task at hand. Initially the search space is 1-dimensional along the line defined by the initial and goal hand configurations (by construction those configurations always belong to the search space), and then its dimension is increased by iteratively adding principal motion directions (that couple the finger motions), trying in this wa...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Traditionally, grasp and arm motion planning are considered as separate tasks. This might lead to p...
Collision-Free Path and Motion Planning for Anthropometric Figures This paper describes a collision ...
The planning of collision-free motions of a handarm system to reach a grasp or preshape configuratio...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding co...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper copes with the problem of finding a collision-free path for a hand-arm robotic system fro...
This paper copes with the problem of finding a collision-free path for a hand-arm robotic system fro...
The paper deals with the problem of motion planning of anthropomorphical mechanical hands avoiding c...
The paper deals with the problem of motion planning of anthropomorphical mechanical hands avoiding c...
Presentado al ISAM 2011 celebrado en Tampere (Finlandia) del 25 al 27 de mayo.This paper copes with ...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
The planning of collision-free paths for a handarm robotic system is a difficult issue due to the la...
This paper proposes a new method for grasping an object positioned in a cluttered workspace. The gra...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Traditionally, grasp and arm motion planning are considered as separate tasks. This might lead to p...
Collision-Free Path and Motion Planning for Anthropometric Figures This paper describes a collision ...
The planning of collision-free motions of a handarm system to reach a grasp or preshape configuratio...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding co...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper copes with the problem of finding a collision-free path for a hand-arm robotic system fro...
This paper copes with the problem of finding a collision-free path for a hand-arm robotic system fro...
The paper deals with the problem of motion planning of anthropomorphical mechanical hands avoiding c...
The paper deals with the problem of motion planning of anthropomorphical mechanical hands avoiding c...
Presentado al ISAM 2011 celebrado en Tampere (Finlandia) del 25 al 27 de mayo.This paper copes with ...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
The planning of collision-free paths for a handarm robotic system is a difficult issue due to the la...
This paper proposes a new method for grasping an object positioned in a cluttered workspace. The gra...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
© 2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Traditionally, grasp and arm motion planning are considered as separate tasks. This might lead to p...
Collision-Free Path and Motion Planning for Anthropometric Figures This paper describes a collision ...