International audienceIn this paper we propose a new and integrated approach to solve planning problems with both symbolic and geometric aspects. Typical concerned domains are intricate manipulation and task planning problems involving multiple robots in three dimensional worlds. The approach involves a task planner that guides a probabilistic roadmap method used to capture the topology of the free space in various contexts. At each step of our hybrid planner aSyMov both symbolic and geometric data are taken into account. Specific predicates are used to link both aspects. Preliminary results obtained by a prototype implementation are shortly presented and discussed
International audienceThis chapter deals with the integration of different planners that solve probl...
Planners for real, possibly complex, robotic systems should not only reason about abstract actions, ...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
In this paper we propose a new and integrated approach to solve planning problems with both symbolic...
We propose an original approach to integrate symbolic task planning and geometric motion and manipul...
International audienceWe have developed an original planner, aSyMov, that has beenspecially...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
In this thesis report, we address the problem of planning for robotic systems by facing its full com...
Robot manipulation is a challenging task for planning as itinvolves a mixture of symbolic planning a...
International audienceWe propose in this paper a resolution scheme that is aimed to be relevant for ...
International audienceWe are combining symbolic and geometric planning to synthesize human-aware pla...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
International audienceThis paper presents a new geometrical formulation of the manipulation task pla...
This paper deals with motion planning for robots manipulating movable objects among obstacles. We pr...
Manipulation planning is a field of study with increasing interest, it combines manipulation skills ...
International audienceThis chapter deals with the integration of different planners that solve probl...
Planners for real, possibly complex, robotic systems should not only reason about abstract actions, ...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
In this paper we propose a new and integrated approach to solve planning problems with both symbolic...
We propose an original approach to integrate symbolic task planning and geometric motion and manipul...
International audienceWe have developed an original planner, aSyMov, that has beenspecially...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
In this thesis report, we address the problem of planning for robotic systems by facing its full com...
Robot manipulation is a challenging task for planning as itinvolves a mixture of symbolic planning a...
International audienceWe propose in this paper a resolution scheme that is aimed to be relevant for ...
International audienceWe are combining symbolic and geometric planning to synthesize human-aware pla...
This paper addresses the manipulation planning problem which deals with motion planning for robots m...
International audienceThis paper presents a new geometrical formulation of the manipulation task pla...
This paper deals with motion planning for robots manipulating movable objects among obstacles. We pr...
Manipulation planning is a field of study with increasing interest, it combines manipulation skills ...
International audienceThis chapter deals with the integration of different planners that solve probl...
Planners for real, possibly complex, robotic systems should not only reason about abstract actions, ...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...