Towards Robust Estimation of Human Intention Hierarchy in Robot Teleoperation
Keywords: Intention Estimation, Human Robot Teleoperation, Human Intention Hierarchy
TL;DR: We introduce a novel architecture to reason about the hierarchical human intentions in human robot teleoperation.
Abstract: The past few decades have witnessed the widespread adoption of robot teleoperation across various real-world domains such as manufacturing and healthcare. It has been recognized as an effective approach to assist humans in remotely tackling tasks that pose significant challenges and risks when undertaken alone. To improve the efficiency of collaboration between human and robot in teleoperated systems, it is crucial for the robot to precisely infer human intentions. In this work, we introduce RoHIE, a novel architecture designed to reason about the intentions of the human partner at different levels of granularity. RoHIE leverages non-verbal observations that capture the motion and gaze information in shared autonomy, and learns a flexible intention hierarchy to categorize the relationship between low-level action primitives and higher-level task goals, thereby enabling robust inference. Moreover, by learning a compact representation in the embedding space, our framework captures the latent structural information of human behaviors from human partners' demonstrations, empowering the robot to robustly and accurately estimate the intention of new human companions. Finally, we rigorously validate the efficacy of our framework on a teleoperation dataset consisting of a variety of building block assembly tasks.
Submission Number: 40
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