The Robot Systems Division of the National Institute of Standards and Technology (NIST) has recently been experimenting with a variety of applications for the NIST ROBOCRANE. The ROBOCRANE design utilizes the basic idea of the Stewart Platform parallel link manipulator. The unique feature of the NIST approach is to use cables as the parallel links and to use winches as the actuators. Depending on what is suspended from its work platform, the ROBOCRANE has land, air, water, and space applications. A 2-meter version and a 6-meter version of the ROBOCRANE have been built and critical performance characteristics analyzed. Through these and other conceptual models, example applications for ROBOCRANE are: flexible-structure mobility, heavy material handling, and flexible fixturing on land; rescue and personnel/ equipment maneuverability in air; subsea pipe-laying/removal, lifting, and salvage from stable or unstable references on water; and lightweight, long distance lunar rover capabilites in space. All applications of ROBOCRANE include a large work volume, six degree-of-freedom control, precision maneuverability, and enhanced crane capabilities. This paper describes ROBOCRANE's present and future performance measurements, control system designs, and the conceptual designs for a multitude of applications.
[1]
J. S. Albus,et al.
Stability of an underwater work platform suspended from an unstable reference
,
1993,
Proceedings of OCEANS '93.
[2]
Roger V. Bostelman,et al.
Development of the NIST Robot Crane Teleoperation Controller
,
1993
.
[3]
Roger V. Bostelman,et al.
A Stewart Platform Lunar Rover
,
1994
.
[4]
Roger V. Bostelman,et al.
A Robotic Crane System Utilizing the Stewart Platform Configuration
,
1993
.
[5]
James S. Albus,et al.
The NIST robocrane
,
1993,
J. Field Robotics.