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Traction-drive force transmission for telerobotic joints (1989)

Williams, D. M. ; Kuban, D. P.

In: CASI

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Publication Date: 2013-08-31

Description: A mechanism which meets the requirements of a teleoperated manipulator and those of an autonomous robot is discussed. The mechanism is a traction-drive differential that uses variable preload mechanisms. The differential provides compact design, with dextrous motion range and torque density similar to geared systems. The traction drive offers high stiffness to backlash for good robotic performance. The variable-loading mechanism (VLM) minimizes the drive-train friction for improved teleoperation. This combination provides a mechanism to allow advanced manipulation with either teleoperated control or autonomous robotic operation. The design principles of both major components of the joint mechanism are described.

Keywords: MECHANICAL ENGINEERING

Type: NASA, Marshall Space Flight Center, The 23rd Aerospace Mechanisms Symposium; p 207-222

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2

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Traction-drive, seven-degree-of-freedom telerobot arm: A concept for manipulaton in space (1987)

Kuban, D. P. ; Williams, D. M.

In: CASI

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Publication Date: 2013-08-31

Description: As man seeks to expand his dominion into new environments, the demand increases for machines that perform useful functions in remote locations. This new concept for manipulation in space is based on knowledge and experience gained from manipulator systems developed to meet the needs of remote nuclear applications. It merges the best characteristics of teleoperation and robotic technologies. The design goals for the telerobot, a mechanical description, and technology areas that must be addressed for successful implementation are presented and discussed. The concept incorporates mechanical traction drives, redundant kinematics, and modular arm subelements to provide a backlash-free manipulator capable of obstacle avoidance.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: NASA-Lyndon B. Johnson Space Center, The 21st Aerospace Mechanisms Symposium; p 111-130

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3

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The laboratory telerobotic manipulator program (1989)

Babcock, S. M. ; Glassell, R. L. ; Kuban, D. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: New opportunities for the application of telerobotic systems to enhance human intelligence and dexterity in the hazardous environment of space are presented by the NASA Space Station Program. Because of the need for significant increases in extravehicular activity and the potential increase in hazards associated with space programs, emphasis is being heightened on telerobotic systems research and development. The Laboratory Telerobotic Manipulator (LTM) program is performed to develop and demonstrate ground-based telerobotic manipulator system hardware for research and demonstrations aimed at future NASA applications. The LTM incorporates traction drives, modularity, redundant kinematics, and state-of-the-art hierarchical control techniques to form a basis for merging the diverse technological domains of robust, high-dexterity teleoperations and autonomous robotic operation into common hardware to further NASA's research.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: JPL, California Inst. of Tech., Proceedings of the NASA Conference on Space Telerobotics, Volume 4; p 385-393

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4

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Operational experience and design recommendations for teleoperated flight hardware (1988)

Burgess, T. W. ; Hankins, W. W. ; Mixon, R. W. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: Teleoperation (remote manipulation) will someday supplement/minimize astronaut extravehicular activity in space to perform such tasks as satellite servicing and repair, and space station construction and servicing. This technology is being investigated by NASA with teleoperation of two space-related tasks having been demonstrated at the Oak Ridge National Lab. The teleoperator experiments are discussed and the results of these experiments are summarized. The related equipment design recommendations are also presented. In addition, a general discussion of equipment design for teleoperation is also presented.

Keywords: MECHANICAL ENGINEERING

Type: The 22nd Aerospace Mechanisms Symposium; p 287-305

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5

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Dual arm master controller development (1985)

Perkins, G. S. ; Kuban, D. P.

In: CASI

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Publication Date: 2019-06-28

Description: The advanced servomanipulator (ASM) slave was designed with an anthropomorphic stance gear/torque tube power drives, and modular construction. These features resulted in increased inertia, friction, and backlash relative to tape driven manipulators. Studies were performed which addressed to human factor design and performance tradeoffs associated with the corresponding master controller best suited for the ASM. The results of these studies, as well as the conceptual design of the dual arm master controller, are presented.

Keywords: MECHANICAL ENGINEERING

Type: NASA. Ames Research Center 19th Aerospace Mech. Symp.; p 235-250

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6

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Traction-drive force transmission for telerobotic joints (1989)

Williams, D. M. ; Kuban, D. P.

In: CASI

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Publication Date: 2019-06-28

Description: The U.S. Space Station Program is providing many technological developments to meet the increasing demands of designing such a facility. One of the key areas of research is that of telerobotics for space station assembly and maintenance. Initial implementation will be teleoperated, but long-term plans call for autonomous robotics. One of the essential components for making this transition successful is the manipulator joints mechanism. Historically, teleoperated manipulators and industrial robotics have had very different mechanisms for force transmission. This is because the design objectives are almost mutually exclusive. A teleoperator must have very low friction and inertia to minimize operator fatigue; backlash and stiffness are of secondary concern. A robot, however, must have minimum backlash, and high stiffness for accurate and rapid positioning. A joint mechanism has yet to be developed that can optimize these divergent performance objectives. A joint mechanism that approaches this optimal performance was developed for NASA Langley, Automation Technology Branch. It is a traction-drive differential that uses variable preload mechanisms. The differential provides compact, dexterous motion range with a torque density similar to geared systems. The traction drive offers high stiffness and zero backlash, for good robotic performance, and the variable loading mechanism (VLM) minimizes the drive-train friction, for improved teleoperation.

Keywords: MECHANICAL ENGINEERING

Type: JPL, California Inst. of Tech., Proceedings of the NASA Conference on Space Telerobotics, Volume 3; p 103-115

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7

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Telerobotic manipulator developments for ground-based space research (1988)

Babcock, S. M. ; Meintel, A. J. ; Glassell, R. L. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: New opportunities for the application of telerobotic systems to enhance human intelligence and dexterity in the hazardous environment of space are presented by the National Aeronautics and Space Administration (NASA) Space Station Program. Because of the need for significant increases in extravehicular activity and the potential increase in hazards associated with space programs, emphasis is being heightened on telerobotic systems research and development. The Automation Technology Branch at NASA Langley Research Center currently is sponsoring the Laboratory Telerobotic Manipulator (LTM) program at Oak Ridge National Laboratory to develop and demonstrate ground-based telerobotic manipulator system hardware for research and demonstrations aimed at future NASA applications. The LTM incorporates traction drives, modularity, redundant kinematics, and state-of-the-art hierarchical control techniques to form a basis for merging the diverse technological domains of robust, high-dexterity teleoperations and autonomous robotic operation into common hardware to further NASA's research.

Keywords: MECHANICAL ENGINEERING

Type: NASA-CR-184736 , NAS 1.26:184736 , DE89-005109 , CONF-890304-31 , Topical Meeting on Robotics and Remote Systems; Mar 13, 1989 - Mar 16, 1989; Charleston, SC; United States

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8

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Traction-drive telerobot for space manipulation (1987)

Kuban, D. P. ; Hamel, W. R. ; Herndon, J. N.

In: Other Sources

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Publication Date: 2019-07-13

Description: The National Aeronautics and Space Administration (NASA) Space Station Program marks the begining of a new era in space utilization and habitation. Extensive use of remote manipulation and robotics to reduce astronaut extra-vehicular activity is expected. Emphasis on teleoperator technology in early Space Station phases, followed by growth of autonomous robotics capabilities, is planned. A new telerobot concept has been developed at Oak Ridge National Laboratory (ORNL) under NASA Langley Research Center sponsorship, to address the technical needs of both teleoperations and telerobotics for these future NASA programs. The concept is based on traction drives, redundant kinematics, modular construction, and a state-of-the-art distributed, hierarchical control system.

Keywords: MAN/SYSTEM TECHNOLOGY AND LIFE SUPPORT

Type: 1987 IEEE International Conference on Robotics and Automation; Mar 31, 1987 - Apr 03, 1987; Raleigh, NC; United States

Format: text

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