AbstractHuman-robot collaboration requires the two sides to coordinate their actions in order to better accomplish common goals. In such setups, the timing of actions may significantly affect collaborative performance. The present work proposes a new framework for planning multi-agent interaction that is based on the representation of tasks sharing a common starting and ending point, as petals in a composite daisy graph. Coordination is accomplished through temporal constraints linking the execution of tasks. The planner distributes tasks to the involved parties sequentially. In particular, by considering the properties of the available options at the given moment, the planner accomplishes locally optimal task assignments to agents. Optimal...
We address the problem of coordinating autonomous agents that have to come up with a joint plan and ...
The objective of our research effort is to enable robots to engage in complex collaborative tasks wi...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...
AbstractHuman-robot collaboration requires the two sides to coordinate their actions in order to bet...
Collaboration between humans and robots to accomplish different kinds of tasks has been recently stu...
Collaboration between humans and robots to accomplish different kinds of tasks has been recently stu...
https://aaai.org/ocs/index.php/ICAPS/ICAPS17/paper/view/15742International audienceCollaboration bet...
Combining symbolic and geometric reasoning in multiagent systems is a challenging task that involves...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
In the new collaborative robotic applications, hu- mans and robots cooperate to accomplish a common ...
This paper presents a hierarchical framework to solve the multi-robot temporal task planning problem...
Dealing with the stochastic nature of human behaviour in Human-Robot Collaboration (HRC) remains a w...
In this thesis we address the problem of human robot interaction in industrial environments from col...
Collaborative robotics is a new production paradigm for manufacturing systems. Typical applications ...
A good estimation of the actions' cost is key in task planning for human-robot collaboration. The du...
We address the problem of coordinating autonomous agents that have to come up with a joint plan and ...
The objective of our research effort is to enable robots to engage in complex collaborative tasks wi...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...
AbstractHuman-robot collaboration requires the two sides to coordinate their actions in order to bet...
Collaboration between humans and robots to accomplish different kinds of tasks has been recently stu...
Collaboration between humans and robots to accomplish different kinds of tasks has been recently stu...
https://aaai.org/ocs/index.php/ICAPS/ICAPS17/paper/view/15742International audienceCollaboration bet...
Combining symbolic and geometric reasoning in multiagent systems is a challenging task that involves...
This paper describes a framework for automatically generating optimal action-level behavior for a te...
In the new collaborative robotic applications, hu- mans and robots cooperate to accomplish a common ...
This paper presents a hierarchical framework to solve the multi-robot temporal task planning problem...
Dealing with the stochastic nature of human behaviour in Human-Robot Collaboration (HRC) remains a w...
In this thesis we address the problem of human robot interaction in industrial environments from col...
Collaborative robotics is a new production paradigm for manufacturing systems. Typical applications ...
A good estimation of the actions' cost is key in task planning for human-robot collaboration. The du...
We address the problem of coordinating autonomous agents that have to come up with a joint plan and ...
The objective of our research effort is to enable robots to engage in complex collaborative tasks wi...
In service robot applications, planning is often integrated with task allocation. Linear Temporal Lo...