JOURNAL ARTICLE
Control of flexible space station remote manipulator training system
Abstract
This paper describes the modelling, design, and analysis of the joint control system for the Space Station remote manipulator ground training system. The purpose of this robotic system is to emulate the Space Station Remote Manipulator System in form, function, and performance, so that astronauts can receive flight-like training in one-g environment. The main focus of the paper is joint control design in the presence of boom and joint flexibility, and nonlinearities associated with actuators, drive trains, and sensors.< >
Keywords:
Flexibility (engineering) Boom Remote control Computer science Control system Joint (building) Actuator Focus (optics) Control engineering Space (punctuation) Train Function (biology) Controller (irrigation) Simulation Engineering Artificial intelligence Computer hardware Operating system Electrical engineering
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Citation History
Topics
Space Satellite Systems and Control
Physical Sciences → Engineering → Aerospace Engineering
Teleoperation and Haptic Systems
Physical Sciences → Engineering → Mechanical Engineering
Spacecraft Design and Technology
Physical Sciences → Engineering → Aerospace Engineering
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