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Two-Armed, Mobile, Sensate Research RobotThe Anthropomorphic Robotic Testbed (ART) is an experimental prototype of a partly anthropomorphic, humanoid-size, mobile robot. The basic ART design concept provides for a combination of two-armed coordination, tactility, stereoscopic vision, mobility with navigation and avoidance of obstacles, and natural-language communication, so that the ART could emulate humans in many activities. The ART could be developed into a variety of highly capable robotic assistants for general or specific applications. There is especially great potential for the development of ART-based robots as substitutes for live-in health-care aides for home-bound persons who are aged, infirm, or physically handicapped; these robots could greatly reduce the cost of home health care and extend the term of independent living. The ART is a fully autonomous and untethered system. It includes a mobile base on which is mounted an extensible torso topped by a head, shoulders, and two arms. All subsystems of the ART are powered by a rechargeable, removable battery pack. The mobile base is a differentially- driven, nonholonomic vehicle capable of a speed >1 m/s and can handle a payload >100 kg. The base can be controlled manually, in forward/backward and/or simultaneous rotational motion, by use of a joystick. Alternatively, the motion of the base can be controlled autonomously by an onboard navigational computer. By retraction or extension of the torso, the head height of the ART can be adjusted from 5 ft (1.5 m) to 6 1/2 ft (2 m), so that the arms can reach either the floor or high shelves, or some ceilings. The arms are symmetrical. Each arm (including the wrist) has a total of six rotary axes like those of the human shoulder, elbow, and wrist joints. The arms are actuated by electric motors in combination with brakes and gas-spring assists on the shoulder and elbow joints. The arms are operated under closed-loop digital control. A receptacle for an end effector is mounted on the tip of the wrist and contains a force-and-torque sensor that provides feedback for force (compliance) control of the arm. The end effector could be a tool or a robot hand, depending on the application.
Document ID
20110016829
Acquisition Source
Johnson Space Center
Document Type
Other - NASA Tech Brief
External Source(s)
http://www.techbriefs.com/index.php?option=com_staticxt&staticfile=/Briefs/june04/MSC-22985.html
Authors
Engelberger, J. F. (HelpMate Robotics, Inc. Danbury, CT, United States)
Roberts, W. Nelson (HelpMate Robotics, Inc. Danbury, CT, United States)
Ryan, David J. (HelpMate Robotics, Inc. Danbury, CT, United States)
Silverthorne, Andrew (HelpMate Robotics, Inc. Danbury, CT, United States)
Date Acquired
August 25, 2013
Publication Date
June 1, 2004
Publication Information
Publication: NASA Tech Briefs, June 2004
Subject Category
Man/System Technology And Life Support
Report/Patent Number
MSC-22985
Distribution Limits
Public
Copyright
Public Use Permitted.

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IDRelationTitle20110016826Collected WorksNASA Tech Briefs, June 2004
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