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MANIPULATION

End-to-end dexterous manipulation with deliberate interactive estimation

Nicolas Hudson, Thomas M. Howard, Jeremy Ma, Abhinandan Jain, Max Bajracharya, Steven Myint, Calvin Kuo, Larry Matthies, Paul Backes, Paul D. N. Hebert, Thomas J. Fuchs, Joel W. Burdick

Year
2012
Citations
45

Abstract

This paper presents a model based approach to autonomous dexterous manipulation, developed as part of the DARPA Autonomous Robotic Manipulation (ARM) program. The developed autonomy system uses robot, object, and environment models to identify and localize objects, and well as plan and execute required manipulation tasks. Deliberate interaction with objects and the environment increases system knowledge about the combined robot and environmental state, enabling high precision tasks such as key insertion to be performed in a consistent framework. This approach has been demonstrated across a wide range of manipulation tasks, and in independent DARPA testing archived the most successfully completed tasks with the fastest average task execution of any evaluated team.

Keywords

Computer scienceTask (project management)Human–computer interactionRobotPlan (archaeology)Key (lock)Artificial intelligenceObject (grammar)PoseRobotic arm

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