Symbolic reasoners generate plans which are often not exploiting the robot capabilities and are sensitive to runtime disturbances. This work proposes a scheduler as an interface between a discrete, symbolic plan and a motion control based on constraint optimization. Acting as a local reasoner, the scheduler valuates a set of predicates to decide when an action will be executed. Given a task specification which describes how the action should be realized, the scheduler configures the controller at runtime. A demonstration will be provided considering an “open drawer” scenario
This paper uses Constraint-based Temporal Plan-ning (CTP) techniques to integrate deliberation and r...
International audienceWe have developed an original planner, aSyMov, that has beenspecially...
Combining symbolic and geometric reasoning in multiagent systems is a challenging task that involves...
Symbolic reasoners generate plans which are often not exploiting the robot capabilities and are sens...
\u3cp\u3eSchedulers assign starting times to events in a system such that a set of constraints is me...
This research aims to bridge the gap between symbolic plans and constraint-based motion specificatio...
Approaches to robot motion planning and control that involve tools such as automata, languages, temp...
One of the current methods for developing task control software for robots is a layering approach. T...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
In this work, we propose a constraint-based algorithm for combined trajectory generation and kinemat...
(c) 2007 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
I am interested in designing and analysing Automated Planning systems, with special em-Research Stat...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
This paper investigates issues in the integration of planning, scheduling, and plan execution in the...
This paper uses Constraint-based Temporal Plan-ning (CTP) techniques to integrate deliberation and r...
International audienceWe have developed an original planner, aSyMov, that has beenspecially...
Combining symbolic and geometric reasoning in multiagent systems is a challenging task that involves...
Symbolic reasoners generate plans which are often not exploiting the robot capabilities and are sens...
\u3cp\u3eSchedulers assign starting times to events in a system such that a set of constraints is me...
This research aims to bridge the gap between symbolic plans and constraint-based motion specificatio...
Approaches to robot motion planning and control that involve tools such as automata, languages, temp...
One of the current methods for developing task control software for robots is a layering approach. T...
140 pagesMost tasks we want robots to perform require interaction with the physical world via an unk...
In this work, we propose a constraint-based algorithm for combined trajectory generation and kinemat...
(c) 2007 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
I am interested in designing and analysing Automated Planning systems, with special em-Research Stat...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
This paper investigates issues in the integration of planning, scheduling, and plan execution in the...
This paper uses Constraint-based Temporal Plan-ning (CTP) techniques to integrate deliberation and r...
International audienceWe have developed an original planner, aSyMov, that has beenspecially...
Combining symbolic and geometric reasoning in multiagent systems is a challenging task that involves...