<div><p>In planning specific sequential motions of a humanoid, it is desired to transfer from one motion to another motion without stopping between motions. The problem of achieving continuous performance by connecting motions is referred to as motion synthesis in the robotic fields. To solve this problem, it is important to assign an appropriate transition motion that connects a prior motion to a posterior motion. In this research, we propose a new method of generating smooth transition motions under various constraints such as maintaining balance and collision avoidance. Our algorithm comprises two sequential processes based on optimization techniques. First, we assign transition instants of the motions with the formulation of a minimax p...
This work addresses the problem of whole-body motion planning for a humanoid robot that must execute...
International audienceCOCoMoPL [6] is a recently developed approach Combining Optimal Control, Movem...
In this paper, we present a novel methodology to obtain imitative and innovative postural movements ...
In this paper, we propose an effective planning method for whole-body motions of humanoid robots und...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
International audienceThis paper presents a general method for planning collision-free whole-body wa...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
International audienceSkilled human full-body movements are often planned in a highly predictive man...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Abstract—This paper addresses the problem of generating dynamic motion for a humanoid between two pr...
Abstract—This paper presents a new method to synthesize full body motion for controlling humanoid ro...
Designing and realizing artificial systems in human image have always been a fascinating idea for re...
This work addresses the problem of whole-body motion planning for a humanoid robot that must execute...
International audienceCOCoMoPL [6] is a recently developed approach Combining Optimal Control, Movem...
In this paper, we present a novel methodology to obtain imitative and innovative postural movements ...
In this paper, we propose an effective planning method for whole-body motions of humanoid robots und...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
International audienceThis paper presents a general method for planning collision-free whole-body wa...
This thesis introduces locomotion synthesis methods for humanoid characters. Motion synthesis is an ...
International audienceSkilled human full-body movements are often planned in a highly predictive man...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
We consider the problem of planning whole-body motions for humanoids that must execute loco-manipula...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Abstract—This paper addresses the problem of generating dynamic motion for a humanoid between two pr...
Abstract—This paper presents a new method to synthesize full body motion for controlling humanoid ro...
Designing and realizing artificial systems in human image have always been a fascinating idea for re...
This work addresses the problem of whole-body motion planning for a humanoid robot that must execute...
International audienceCOCoMoPL [6] is a recently developed approach Combining Optimal Control, Movem...
In this paper, we present a novel methodology to obtain imitative and innovative postural movements ...