Reactive Planning for Coordinated Handover of an Autonomous Aerial Manipulator
Reactive Planning for Coordinated Handover of an Autonomous Aerial Manipulator
In this paper, we present a coordinated and reactive human-aware motion planner for performing a handover task by an autonomous aerial manipulator (AAM). We present a method to determine the final state of the AAM for a handover task based on the current state of the human and the surrounding obstacles. We consider the visual field of the human and the effort to turn the head and see the AAM as well as the discomfort caused to the human. We apply these social constraints together with the kinematic constraints of the AAM to determine its coordinated motion along the trajectory.
Human robot Interaction, Computer systems organization, [SPI] Engineering Sciences [physics], Embedded and cyber-physical systems, Robotics, [INFO] Computer Science [cs]
Human robot Interaction, Computer systems organization, [SPI] Engineering Sciences [physics], Embedded and cyber-physical systems, Robotics, [INFO] Computer Science [cs]
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