This paper addresses the problem of obtaining the required motions for a humanoid robot to perform grasp actions trying to mimic the coordinated hand–arm movements humans do. The first step is the data acquisition and analysis, which consists in capturing human movements while grasping several everyday objects (covering four possible grasp types), mapping them to the robot and computing the hand motion synergies for the pre-grasp and grasp phases (per grasp type). Then, the grasp and motion synthesis step is done, which consists in generating potential grasps for a given object using the four family types, and planning the motions using a bi-directional multi-goal sampling-based planner, which efficiently guides the motion planning followin...
Abstract—This paper presents a multi-skill motion planner which is able to sequentially synchronize ...
Many of the robotic grasping researches have been focusing on stationary objects. And for dynamic mo...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper addresses the problem of obtaining the required motions for a humanoid robot to perform g...
© 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 paper presents ...
Traditionally, grasp and arm motion planning are considered as separate tasks. This paper presents a...
Since the first prototype robot “WABOT-1” was created in 1973, how to build humanoid robots has been...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
This paper presents a novel robot grasping planning approach that extracts grasp strategies (grasp t...
As robots are starting to become part of our daily lives, they must be able to cooperate in a natura...
Abstract—In this paper we present a framework for grasp planning with a humanoid robot arm and a fiv...
The use of anthropomorphic mechanical hands allows the execution of complex manipulation tasks and, ...
This thesis investigates the questions of where to grasp and how to grasp a given object with an art...
Abstract—This paper presents a multi-skill motion planner which is able to sequentially synchronize ...
Abstract—This paper presents a multi-skill motion planner which is able to sequentially synchronize ...
Many of the robotic grasping researches have been focusing on stationary objects. And for dynamic mo...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper addresses the problem of obtaining the required motions for a humanoid robot to perform g...
© 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 paper presents ...
Traditionally, grasp and arm motion planning are considered as separate tasks. This paper presents a...
Since the first prototype robot “WABOT-1” was created in 1973, how to build humanoid robots has been...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
This paper presents a novel robot grasping planning approach that extracts grasp strategies (grasp t...
As robots are starting to become part of our daily lives, they must be able to cooperate in a natura...
Abstract—In this paper we present a framework for grasp planning with a humanoid robot arm and a fiv...
The use of anthropomorphic mechanical hands allows the execution of complex manipulation tasks and, ...
This thesis investigates the questions of where to grasp and how to grasp a given object with an art...
Abstract—This paper presents a multi-skill motion planner which is able to sequentially synchronize ...
Abstract—This paper presents a multi-skill motion planner which is able to sequentially synchronize ...
Many of the robotic grasping researches have been focusing on stationary objects. And for dynamic mo...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...