卫星姿态确定和控制系统

Recent Advances in Space Technology Services and Climate Change 2010 (RSTS & CC-2010) Pub Date : 2010-11-01 DOI:10.1109/RSTSCC.2010.5712821

B. Sheela Rani, C. Gomathy, B. Sowmya, R. Narmadha

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引用次数: 3

摘要

“萨迪亚奥巴马”卫星的高精度姿态确定和控制是整个任务成功的关键任务。卫星姿态确定与控制系统是卫星不可缺少的组成部分。对于低轨卫星来说，与局地磁场的相互作用是控制姿态或方向的重要手段。由于旋转运动学、卫星姿态动力学以及通过传感器(如磁力计)获取的信息的固有非线性，姿态估计是高度非线性的。对于姿态控制，执行器必须主要基于空间和重量最小化。它使用三个相互正交的磁转矩线圈。本文描述了一种闭环构型的姿态确定与控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Attitude determination and control system of Sathyabamasat

A high-precision attitude determination and control of the sathyabama satellite is an essential task for the success of the whole mission. Satellite Attitude determination and control system is an integral part of any satellite. For satellites in LEO an interaction with the local geomagnetic field is an important means of controlling the attitude or orientation. Attitude estimation is highly nonlinear due to the inherent nonlinearity in rotational kinematics, satellite attitude dynamics, and the nature of information through sensors, such as magnetometers. For attitude control, actuators must be based primarily on space and weight minimization. It uses three magnetic torque coils which are oriented orthogonally to each other. This paper describes the attitude determination and control in a closed loop configuration.

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Recent Advances in Space Technology Services and Climate Change 2010 (RSTS & CC-2010)

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