Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several challenges because of the uncertainty conveyed by the human behavior. Tasks plan execution should be continuously monitored and updated based on the actual behavior of the human and the robot to maintain productivity and safety. We propose control-based approach based on two layers, i.e., task planning and action planning. Each layer reasons at a different level of abstraction: task planning considers high-level operations without taking into account their motion properties; action planning optimizes the execution of high-level operations based on current human state and geometric reasoning. The result is a hierarchical framework where the bott...
Human Robot cooperation brings several challenges to au-tonomous robotics such as adoption of a pro-...
The growing presence of household robots in inhabited environments arises the need for new robot tas...
International audience—Human-robot collaboration requires to equip the robot with explicit reasoning...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Dealing with the stochastic nature of human behaviour in Human-Robot Collaboration (HRC) remains a w...
In the evolving industrial landscape, Human-Robot Collaboration (HRC) has emerged as a significant t...
International audienceThe variety and complexity of tasks autonomous robots can tackle is constantly...
In the new collaborative robotic applications, hu- mans and robots cooperate to accomplish a common ...
In this thesis we address the problem of human robot interaction in industrial environments from col...
The co-presence of a robot and a human sharing some activities in an industrial setting constitutes ...
With the recent emergence of safe robots, the field of human robot interaction gained significant pr...
Human-robot interaction requires explicit reasoning on the hu-man environment and on the robot capac...
During the last decade, industrial collaborative robots have entered assembly cells supporting human...
International audienceHuman-robot interaction requires explicit reasoning on human environment and o...
Human Robot cooperation brings several challenges to au-tonomous robotics such as adoption of a pro-...
The growing presence of household robots in inhabited environments arises the need for new robot tas...
International audience—Human-robot collaboration requires to equip the robot with explicit reasoning...
Combining task and motion planning efficiently in human-robot collaboration (HRC) entails several ch...
In human-robot collaboration (HRC), the variability of the human behavior complicates the deployment...
Dealing with the stochastic nature of human behaviour in Human-Robot Collaboration (HRC) remains a w...
In the evolving industrial landscape, Human-Robot Collaboration (HRC) has emerged as a significant t...
International audienceThe variety and complexity of tasks autonomous robots can tackle is constantly...
In the new collaborative robotic applications, hu- mans and robots cooperate to accomplish a common ...
In this thesis we address the problem of human robot interaction in industrial environments from col...
The co-presence of a robot and a human sharing some activities in an industrial setting constitutes ...
With the recent emergence of safe robots, the field of human robot interaction gained significant pr...
Human-robot interaction requires explicit reasoning on the hu-man environment and on the robot capac...
During the last decade, industrial collaborative robots have entered assembly cells supporting human...
International audienceHuman-robot interaction requires explicit reasoning on human environment and o...
Human Robot cooperation brings several challenges to au-tonomous robotics such as adoption of a pro-...
The growing presence of household robots in inhabited environments arises the need for new robot tas...
International audience—Human-robot collaboration requires to equip the robot with explicit reasoning...