惯性不确定性下的微卫星自适应反演控制

2017 8th International Conference on Recent Advances in Space Technologies (RAST) Pub Date : 2017-06-01 DOI:10.1109/RAST.2017.8002962

H. Boussadia, A. M. Si Mohammed, N. Boughanmi, A. Bellar

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引用次数: 2

摘要

在卫星任务中，惯性参数信息对保证姿态控制的成功进行具有重要作用。然而，在实际情况下，由于燃料消耗、机载运动和太阳能电池阵列的旋转，卫星的惯性会发生变化。而且由于卫星几何形状的复杂性，在地面上也很难精确测定。因此，开发一种考虑惯性参数变化的控制策略是很重要的。提出了一种基于自适应反演技术的存在惯性不确定性的微卫星控制器设计方法。首先，在惯性矩阵不存在不确定性的情况下，设计了反步控制器。在此基础上，利用自适应反步技术设计了一种控制器来补偿惯性和惯性的不确定性。仿真结果表明了该方法的有效性。

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Adaptive backstepping control for microsatellite under inertia uncertainties

The inertia parameters information has an important role to ensure the success of the attitude control during satellite mission. However, in practical situations, the inertia of satellites can be changed due to the fuel consumption, the onboard motion and the rotation of solar arrays. And it is also difficult to be accurately determinated on ground because of the complexity of the satellite geometries. Therefore, it is important to develop a control strategies that take account the change of inertia parameters. This paper presents a controller design for microsatellite in the presence of inertia uncertainties based on adaptive backstepping technique. Firstly, the backstepping controller is developed when there are no uncertainties in the inertia matrix. After that, a controller is designed using adaptive backstepping technique to compensate the uncertainties of inertia and. The simulation results clearly demonstrate the effectiveness of the proposed technique.

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2017 8th International Conference on Recent Advances in Space Technologies (RAST)

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