Affiliation:
1. Department of Mechanical Engineering, National Technical University of Athens, 9 Heroon Polytechniou Str., Athens 15780, Greece
Abstract
Abstract
A complex motion encountered in a number of robotic, industrial, and defense applications is the motion of a rigid body when one of its body-fixed axes tracks a desired pointing direction while it rotates at high angular velocity around the pointing direction (PDAV); during this motion, high frequency precession/nutation oscillations arise. This work analyzes the global/local closed-loop (CL) behavior induced by a developed geometric, PDAV controller and studies the high frequency precession/nutation oscillations that characterize PDAV motions. This is done via geometrically exact linearization and via simulation techniques that amount to charting the smooth CL vector fields on the manifold. A method to quickly estimate the frequency of the precession/nutation oscillations is developed and can be used for sizing actuators. A thorough understanding of the behavior of the CL flow induced by the PDAV controller is achieved, allowing the control engineer to anticipate/have a rough estimate of the system CL response.
Subject
Computer Science Applications,Mechanical Engineering,Instrumentation,Information Systems,Control and Systems Engineering
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1. On Modeling and Control of a Holonomic Tricopter;Journal of Intelligent & Robotic Systems;2022-06-23