Add to ORKGAbstract Pivoting manipulation has such advantages as dexterity and safety over other methods to move bulky or heavy objects. In this paper we aim to show that a polyhedral object can be displaced to arbitrary position and orientation on a plane (i.e. such a pivoting system is controllable). More than that we show it is small time controllable, i.e. the reachable space from a starting point contains always a neighbor no matter how cluttered the environment is. As a consequence of this analysis, we propose a steering method to plan a manipulation path to be performed by a humanoid robot: rst we use a classical nonholonomic path planner that accounts for the robot motion constraints, and then we transform that path into a sequence of pivotin...
tion of bulky objects by a humanoid robot. We adopt a Preliminary results related to this paper have...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audienceIn this paper we address whole-body manipulation of bulky objects by a humanoi...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
In this article, we present a method of whole-body manipulation of large objects by a humanoid robot...
International audienceA method of regrasp planning for humanoid robot manipulation is proposed. We a...
Abstract—A method of regrasp planning for humanoid robot manipulation is proposed. We adopt pivoting...
tion of bulky objects by a humanoid robot. We adopt a Preliminary results related to this paper have...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audiencePivoting manipulation has such advantages as dexterity and safety over other m...
International audienceIn this paper we address whole-body manipulation of bulky objects by a humanoi...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
This manuscript highlights the ability of a humanoid robot to perform a task hard to achieve by othe...
In this article, we present a method of whole-body manipulation of large objects by a humanoid robot...
International audienceA method of regrasp planning for humanoid robot manipulation is proposed. We a...
Abstract—A method of regrasp planning for humanoid robot manipulation is proposed. We adopt pivoting...
tion of bulky objects by a humanoid robot. We adopt a Preliminary results related to this paper have...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
International audienceIn this paper we present motion planning for tasks that require whole body mot...