Spacecraft Attitude Control System Simulator

2011 International Conference on Process Automation, Control and Computing Pub Date : 2011-07-20 DOI:10.1109/PACC.2011.5979010

K. Surendran, K. Karthikeyan, M. Dinesh Kumar, K. Latha

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引用次数: 2

Abstract

Spacecraft attitude control system simulator helps to create an environment utilized for simulating attitude control system of satellites. A set of three inertial wheels is used as primary actuators for the attitude control. A flywheel is a disk with significant moment of inertia which is used as a storage device for rotational energy, i.e. momentum can be imparted on it or taken away from it. The hardware simulator provides a real-time freedom of motion in the axis of rotation. The spacecraft simulators are widely used to develop and verify spacecraft control techniques required by modern spacecraft applications. The simulator find many applications in various ongoing research flywheel energy management, non linear compensation of an under actuated system, the problems of attitude and orbit control and development of inertial wheels. The simulator provides the flexibility to experimentally implement many types of control techniques. The simulator is employed to develop, improve and carry out the objective tests of the actuators and the algorithms developed for the attitude control of the spacecraft.

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航天器姿态控制系统模拟器

航天器姿态控制系统模拟器为模拟卫星姿态控制系统提供了环境。一组三个惯性轮用作姿态控制的主作动器。飞轮是一个具有显著转动惯量的圆盘，它被用作旋转能量的储存装置，即动量可以被赋予或从它身上带走。硬件模拟器提供了在旋转轴上的实时运动自由。航天器仿真器被广泛用于开发和验证现代航天器应用所需的航天器控制技术。该仿真器在飞轮能量管理、欠驱动系统非线性补偿、姿态和轨道控制以及惯性轮的研制等方面得到了广泛的应用。该模拟器为实验实现多种类型的控制技术提供了灵活性。该模拟器用于开发、改进和对航天器姿态控制的执行器和所开发的算法进行客观测试。

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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2011 International Conference on Process Automation, Control and Computing

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