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https://hdl.handle.net/2440/82446
Type: | Conference paper |
Title: | Small-satellite magnetorquer attitude control system modelling and simulation |
Author: | Yi, X. Anvar, A. |
Citation: | MODSIM2013: 20th International Congress on Modelling and Simulation. Modelling and Simulation Society of Australia and New Zealand, December 2013 / J. Piantadosi, R. S. Anderssen and J. Boland (eds.): pp.984-990 |
Publisher: | The Modelling and Simulation Society of Aust & NZ |
Publisher Place: | Australia |
Issue Date: | 2013 |
ISBN: | 9780987214331 |
Conference Name: | International Congress on Modelling and Simulation (20th : 2013 : Adelaide, South Australia) |
Editor: | Piantadosi, J. Anderssen, R.S. Boland, J. |
Statement of Responsibility: | Xiaoguang Yi and Amir Anva |
Abstract: | The field of Ocean Robotics Engineering is expanding rapidly and there is demand for low cost, compact and light-weight small-satellites to communicate with remote ocean bound devices. This paper discusses the work carried out with the school’s microsatellite group and focusses on the attitude control system which is vital for accurate satellite operation. Establishing a mathematical model for micro-satellite attitude control system contains positioning sensors system, kinematic and dynamic concept of the attitude and statistic processing methods and so on. In this dissertation, based on the Euler angle and Quaternion principles, we built the attitude kinematic model. By considering the magnetometers data and Fuzzy Control method the attitude estimation, was studied and investigated. The paper would also provide a brief investigation towards the modes of attitude control process and analysis. The result of unloading of a momentum wheel by magnetic rotation and precession damping is studied using Simulink. The control system model is included with relationship of three-axis motion simulation, to determine the pitch-channel and roll-yaw channel respectively. This process would define the stability controller problem of wheel unloading and protected mode for small-satellite stabilization. |
Keywords: | Microsatellite, Small Satellite, Momentum wheel, Attitude determination Attitude Control Simulation Modeling Attitude stabilizationIntroduction Fuzzy Logic Euler angle Quaternion |
Description: | 22nd National Conference of the Australian Society for Operations Research — ASOR 2013 DSTO led Defence Operations Research Symposium — DORS 2013 |
Rights: | Copyright status unknown |
Description (link): | http://www.mssanz.org.au/modsim2013/index.html |
Published version: | http://www.mssanz.org.au/modsim2013/C10/yi.pdf |
Appears in Collections: | Aurora harvest 4 Mechanical Engineering conference papers |
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