Add to ORKGThis paper deals with whole-body motion planning and dynamic control for humanoid from two aspects: locomotion including manipulation and reaching. In the first part, we address a problem of simultaneous locomotion and manipulation planning that combines a geometric and kinematic motion planner with a dynamic humanoid motion generator. The second part deals with whole-body reaching tasks by using a generalized inverse kinematics (IK) method to fully exploit the high redundancy of the humanoid robot. Through experiments using humanoid platform HRP-2 No. 14 installed at LAAS-CNRS, we first verify the validity of each method. An integrated experiment is then presented that unifies the both results via visual perception to execute an object-fet...
International audienceThis paper deals with manipulation task planning for a humanoid robot while st...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Autonomous behaviors in humanoid robots are generally implemented by considering the robot as two se...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
Abstract — Humanoid service robots performing complex object manipulation tasks need to plan whole-b...
We propose a locomotion framework for bipedal robots consisting of a new motion planning method, dub...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
International audienceThis paper deals with manipulation task planning for a humanoid robot while st...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Autonomous behaviors in humanoid robots are generally implemented by considering the robot as two se...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
International audienceIn this paper we present motion planning for tasks that require whole body mot...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
Abstract — Humanoid service robots performing complex object manipulation tasks need to plan whole-b...
We propose a locomotion framework for bipedal robots consisting of a new motion planning method, dub...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
International audienceThis paper deals with manipulation task planning for a humanoid robot while st...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...