Title :
Reducing Base Reactions With Gyroscopic Actuation of Space-Robotic Systems
Author :
Carpenter, Michele D. ; Peck, Mason A.
Author_Institution :
Charles Stark Draper Lab., Inc., Cambridge, MA, USA
Abstract :
In this paper, control-moment gyroscopes (CMGs) are proposed as actuators for a spacecraft-mounted robotic arm to reduce reaction forces and torques on the spacecraft base. With the established kinematics and dynamics for a CMG robotic system, numerical simulations are performed for a general CMG system with an added payload. The analysis of an added payload´s effects on otherwise reactionless CMG systems motivates the examination of possible operations concepts to reduce base reactions and power consumption. Simulation results for an example closed-loop maneuver show that base reactions can be significantly reduced, or even eliminated, with CMG actuation while using the same amount of power as a robotic system driven by conventional joint motors.
Keywords :
actuators; aerospace robotics; closed loop systems; force control; gyroscopes; manipulator dynamics; manipulator kinematics; numerical analysis; torque control; control-moment gyroscopes; gyroscopic actuation; joint motors; numerical simulations; reaction forces; reaction torques; robotic manipulator; space-robotic systems; spacecraft base; spacecraft-mounted robotic arm; Control-moment gyroscope (CMG); multi-body dynamics; reactionless; robotic manipulator; spacecraft;
Journal_Title :
Robotics, IEEE Transactions on
DOI :
10.1109/TRO.2009.2032953
