A central challenging problem in humanoid robotics is to plan and execute dynamic tasks in changing environments, and at the same time keep the result convincing and realistic. Sampling-based online motion planners are particularly powerful for automatically generating collision-free motions in changing environments. However, without learning strategies, each task still has to be planned from scratch, preventing these algorithms from getting closer to realtime performance. Moreover, the nature of the random sampling strategy employed in these planners also results in extremely non human-like solutions. This document addresses these two issues by proposing to learn important features from previously planned solutions, or from real captured m...
Research on global path planning and navigation strategies for mobile robots has been well studied i...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
We consider a class of advanced motion planning problems including object manipulation, navigation a...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
This paper addresses the problem of generating whole-body motions for a humanoid robot that must exe...
This paper explores combining task and manipulation planning for humanoid robots. Existing methods t...
This thesis handles the motion planning problem for various robotic platforms. This is a fundamental...
This paper addresses the problem of generating whole-body motions for a humanoid robot that must exe...
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 ...
International audienceWe present a motion planning algorithm that computes rough trajectories used b...
In unstructured environments in people’s homes and workspaces, robots executing a task may need to a...
This paper explores autonomous locomotion, reaching, grasping and manipulation for the domain of Na...
To plan complex motions of robots with many degrees of freedom, our novel, very flexible framework b...
Abstract—This paper presents a reaching motion planning and execution framework tailored for explora...
Research on global path planning and navigation strategies for mobile robots has been well studied i...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
We consider a class of advanced motion planning problems including object manipulation, navigation a...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
This paper addresses the problem of generating whole-body motions for a humanoid robot that must exe...
This paper explores combining task and manipulation planning for humanoid robots. Existing methods t...
This thesis handles the motion planning problem for various robotic platforms. This is a fundamental...
This paper addresses the problem of generating whole-body motions for a humanoid robot that must exe...
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 ...
International audienceWe present a motion planning algorithm that computes rough trajectories used b...
In unstructured environments in people’s homes and workspaces, robots executing a task may need to a...
This paper explores autonomous locomotion, reaching, grasping and manipulation for the domain of Na...
To plan complex motions of robots with many degrees of freedom, our novel, very flexible framework b...
Abstract—This paper presents a reaching motion planning and execution framework tailored for explora...
Research on global path planning and navigation strategies for mobile robots has been well studied i...
International audienceWe investigate the problem of planning sequences of contacts that support acyc...
We consider a class of advanced motion planning problems including object manipulation, navigation a...