Benjamin Caimano scite author profile

Recent robotics efforts have automated simple, repetitive tasks to increase execution speed and lessen an operator's cognitive load, allowing them to focus on higher-level objectives. However, an autonomous system will eventually encounter something unexpected, and if this exceeds the tolerance of automated solutions, there must be a way to fall back to teleoperation. Our solution is a largely autonomous system with the ability to determine when it is necessary to ask a human operator for guidance. We call this approach human-guided autonomy. Our design emphasizes human-on-the-loop control where an operator expresses a desired highlevel goal for which the reasoning component assembles an appropriate chain of subtasks. We introduce our work in the context of the DARPA Robotics Challenge (DRC) Finals. We describe the software architecture Team TROOPER developed and used to control an Atlas humanoid robot. We employ perception, planning, and control automation for execution of subtasks. If subtasks fail, or if changing environmental conditions invalidate the planned subtasks, the system automatically generates a new task chain. The operator is able to intervene at any stage of execution, to provide input and adjustment to any control layer, enabling operator involvement to increase as confidence in automation decreases.

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Trusted Remote Operation of Proximate Emergy Robots (TROOPER): DARPA Robotics Challenge

Gray¹,

Chevalier²,

DiLeo³

et al. 2015

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Benjamin Caimano

An Architecture for Human-Guided Autonomy: Team TROOPER at the DARPA Robotics Challenge Finals

Graduated automation for humanoid manipulation

An Architecture for Human‐Guided Autonomy: Team TROOPER at the DARPA Robotics Challenge Finals

Trusted Remote Operation of Proximate Emergy Robots (TROOPER): DARPA Robotics Challenge

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