The Propelling CubeSats into space frequently comes about in fast, uncontrolled turn, activated by unequal strengths amid sending. This introductory tall rotational speed postures a noteworthy challenge to accomplishing exact state of mind control and must be tended to sometime recently control methodologies can be executed. This prepare of decreasing the starting turn is known as tumbling, a prepare that frequently misuses the Earth's attractive field. This term paper presents a computer simulation of CubeSat devastation employing a altered form of the attractive field control calculation with precise speed criticism. To encourage the dismantling handle, the CubeSat is prepared with three magnetometers, one competent of measuring on three tomahawks and a whirligig that too measures on three axes. Through recreation, we assess the adequacy of a magnetometer-based tilt controller in decreasing the CubeSat's introductory precise speed to an worthy level, hence permitting exact control of its introduction. Generally, this consider illustrates the application of MATLAB to the reenactment of CubeSat pulverization and highlights the central part of pulverization in giving compelling state of mind control amid orbital assignments.
Cube Sat Detumbling Simulation
04.04.2024
939912 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Asteroid detumbling for redirection missions
IEEE | 2018
|Spacecraft detumbling through energy dissipation
NTRS | 1993
|Magnetic Detumbling of a Rigid Spacecraft
Online Contents | 2012
|Detumbling and Reorienting Underactuated Rigid Spacecraft
British Library Conference Proceedings | 1996
|Spacecraft Detumbling through Energy Dissipation
NTIS | 1993
|