Abstract
As the number of robots used in warehouses and manufacturing increases, so too does the need for robots to be able to manipulate objects, not only independently, but also in collaboration with humans and other robots. Our ability to effectively coordinate our actions with fellow humans encompasses several behaviours that are collectively referred to as joint action, and has inspired advances in human-robot interaction by leveraging our natural ability to interpret implicit cues. However, our capacity to efficiently coordinate on object manipulation tasks remains an advantageous process that is yet to be fully exploited in robotic applications. Humans achieve this form of coordination by combining implicit communication (where information is inferred) and explicit communication (direct communication through an established channel) in varying degrees according to the task at hand. Although these two forms of communication have previously been implemented in robotic systems, no system exists that integrates the two in a task-dependent adaptive manner. In this paper, we review existing work on joint action in human-robot interaction, and analyse the state-of-the-art in robot-robot interaction that could act as a foundation for future cooperative object manipulation approaches. We identify key mechanisms that must be developed in order for robots to collaborate more effectively, with other robots and humans, on object manipulation tasks in shared autonomy spaces.
Highlights
Humans have evolved as social creatures to coordinate effectively on a variety of tasks, from dancing to carrying a box between two individuals
Joint action is yet another valuable human behaviour that can be used as inspiration in robotic cooperative object manipulation tasks
If joint action were applied to object manipulation in cooperative robotic systems, its advantages—such as increased efficiency in task execution, robustness, and adaptiveness—could be translated to the robotic implementation
Summary
Humans have evolved as social creatures to coordinate effectively on a variety of tasks, from dancing to carrying a box between two individuals. These mechanisms combine to form an advantageous social process, enabling us to work efficiently with others in an adaptive way. Joint action is yet another valuable human behaviour that can be used as inspiration in robotic cooperative object manipulation tasks. If joint action were applied to object manipulation in cooperative robotic systems, its advantages—such as increased efficiency in task execution, robustness, and adaptiveness—could be translated to the robotic implementation
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