R.S. Askew scite author profile

Abstract-NASA and General Motors have developed the second generation Robonaut, Robonaut 2 or R2, and it is scheduled to arrive on the International Space Station in late 2010 and undergo initial testing in early 2011. This state of the art, dexterous, anthropomorphic robotic torso has significant technical improvements over its predecessor making it a far more valuable tool for astronauts. Upgrades include: increased force sensing, greater range of motion, higher bandwidth and improved dexterity. R2's integrated mechatronics design results in a more compact and robust distributed control system with a faction of the wiring of the original Robonaut. Modularity is prevalent throughout the hardware and software along with innovative and layered approaches for sensing and control. The most important aspects of the Robonaut philosophy are clearly present in this latest model's ability to allow comfortable human interaction and in its design to perform significant work using the same hardware and interfaces used by people. The following describes the mechanisms, integrated electronics, control strategies and user interface that make R2 a promising addition to the Space Station and other environments where humanoid robots can assist people.

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Robonaut: NASA's space humanoid

Ambrose

et al. 2000

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The Robonaut 2 hand - designed to do work with tools

Bridgwater¹,

Ihrke

Diftler³

et al. 2012

147

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Abstract-The second generation Robonaut hand has many advantages over its predecessor. This mechatronic device is more dexterous and has improved force control and sensing giving it the capability to grasp and actuate a wider range of tools. It can achieve higher peak forces at higher speeds than the original.Developed as part of a partnership between General Motors and NASA, the hand is designed to more closely approximate a human hand.Having a more anthropomorphic design allows the hand to attain a larger set of useful grasps for working with human interfaces. Key to the hand's improved performance is the use of lower friction drive elements and a redistribution of components from the hand to the forearm, permitting more sensing in the fingers and palm where it is most important. The following describes the design, mechanical/electrical integration, and control features of the hand. Lessons learned during the development and initial operations along with planned refinements to make it more effective are presented.

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Deploying the NASA Valkyrie Humanoid for IED Response: An Initial Approach and Evaluation Summary

Jorgensen¹,

Lee

Paterson

et al. 2019

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As part of a feasibility study, this paper shows the NASA Valkyrie humanoid robot performing an endto-end improvised explosive device (IED) response task. To demonstrate and evaluate robot capabilities, sub-tasks highlight different locomotion, manipulation, and perception requirements: traversing uneven terrain, passing through a narrow passageway, opening a car door, retrieving a suspected IED, and securing the IED in a total containment vessel (TCV). For each sub-task, a description of the technical approach and the hidden challenges that were overcome during development are presented. The discussion of results, which explicitly includes existing limitations, is aimed at motivating continued research and development to enable practical deployment of humanoid robots for IED response. For instance, the data shows that operator pauses contribute to 50% of the total completion time, which implies that further work is needed on user interfaces for increasing task completion efficiency. * The authors are with the 1 NASA Johnson Space Center, 2 TRACLabs, the 3 Institute for Human Machine and Cognition (IHMC), 4 Jacobs Technology, 5 METECS, 6 CACI, and 7 The University of Texas at Austin.

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An experimental investigation of actuators for space robots

Ambrose

Askew²

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R.S. Askew

Robonaut 2 - The first humanoid robot in space

Robonaut: NASA's space humanoid

The Robonaut 2 hand - designed to do work with tools

Deploying the NASA Valkyrie Humanoid for IED Response: An Initial Approach and Evaluation Summary

An experimental investigation of actuators for space robots

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