Robotic manipulation in semi-structured and changing environments requires systems with: a) perception and reasoning capabilities able to capture and understand the state of the environment; b) planning and replanning capabilities at both symbolic and geometric levels; c) automatic and robust execution capabilities. To cope with these issues, this paper presents a framework with the following features. First, it uses perception and ontology-based reasoning procedures to obtain the Planning Description Domain Language files that describe the manipulation problem at task level. This is used in the planning stage as well as during task execution in order to adapt to new situations, if required. Second, the proposed framework is able to plan at...
Autonomous mobile robotic agents are increasingly present in highly dynamic environments, thus makin...
Trabajo presentado en la IEEE International Conference on Robotics and Automation (ICRA), celebrado ...
Future service robots will need to perform a wide range of tasks using various objects. In order to ...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The execution of robotic manipulation tasks needs to be robust in front of failures or changes in th...
Autonomous service robots are conceived to work in semi-structured and complex human environments pe...
This paper describes the actions taken in developing a framework that aims to improve the motion pla...
The objective of the thesis is to create a framework where complex Task and Motion planning problems...
This thesis develops a series of modeling and reasoning tools for knowledge-oriented manipulation pl...
To cope with the growing complexity of manipulation tasks, the way to combine and access information...
Robotic manipulation involves actions where contacts occur between the robot and the objects. In thi...
Autonomous indoor service robots are supposed to accomplish tasks, like serve a cup, which involve m...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
The generation of adaptive and reflexive behavior is a challenging task in artificial intelligence ...
This thesis makes a contribution to autonomous robotic manipulation. The core is a novel constraint-...
Autonomous mobile robotic agents are increasingly present in highly dynamic environments, thus makin...
Trabajo presentado en la IEEE International Conference on Robotics and Automation (ICRA), celebrado ...
Future service robots will need to perform a wide range of tasks using various objects. In order to ...
© 2021 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The execution of robotic manipulation tasks needs to be robust in front of failures or changes in th...
Autonomous service robots are conceived to work in semi-structured and complex human environments pe...
This paper describes the actions taken in developing a framework that aims to improve the motion pla...
The objective of the thesis is to create a framework where complex Task and Motion planning problems...
This thesis develops a series of modeling and reasoning tools for knowledge-oriented manipulation pl...
To cope with the growing complexity of manipulation tasks, the way to combine and access information...
Robotic manipulation involves actions where contacts occur between the robot and the objects. In thi...
Autonomous indoor service robots are supposed to accomplish tasks, like serve a cup, which involve m...
International audienceWe propose a representation and a planning algorithm able to deal with problem...
The generation of adaptive and reflexive behavior is a challenging task in artificial intelligence ...
This thesis makes a contribution to autonomous robotic manipulation. The core is a novel constraint-...
Autonomous mobile robotic agents are increasingly present in highly dynamic environments, thus makin...
Trabajo presentado en la IEEE International Conference on Robotics and Automation (ICRA), celebrado ...
Future service robots will need to perform a wide range of tasks using various objects. In order to ...