Modeling and simulation of a cubesat using nonlinear control in an elliptic orbit

机译：椭圆轨道上非线性控制的立方体卫星建模与仿真

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In this paper we present dynamics and control of a spacecraft in an elliptic orbit. Our contribution is modeling and determination of the angular velocity of the satellite orbit reference frame using a Local Vertical/Local Horizontal (LVLH) orbit reference frame and an orbit propagator without the constraint of no out of plane motion. A non-linear passivity-based sliding surface controller is derived, uniformly asymptotically stability (UAS) is proven, and the control law is adapted to work for magnetic torquers. Simulations are performed on a CubeSat model showing the performance of our model and controller.

机译：在本文中，我们介绍了椭圆轨道上航天器的动力学和控制。我们的贡献是使用本地垂直/本地水平（LVLH）轨道参考系和轨道传播器对卫星轨道参考系的角速度进行建模和确定，并且没有平面运动的约束。推导了基于非线性无源性的滑动表面控制器，证明了均匀渐近稳定性（UAS），并且该控制定律适用于电磁转矩控制器。在显示我们的模型和控制器性能的CubeSat模型上进行了仿真。

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《Recent Advances in Space Technologies, 2009. RAST '09》|2009年|632-637|共6页
会议地点 Istanbul(TR);Istanbul(TR)
作者
Schlanbusch R.; Oland E.; Nicklasson P.J.;
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作者单位

Dept. of Sci. Comput., Electr. Eng. Space Technol., Narvik Univ. Coll., Narvik, Norway;

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asymptotic stability; nonlinear control systems; space vehicles; variable structure systems; CubeSat model; angular velocity determination; elliptic orbit; local vertical-local horizontal orbit reference frame; nonlinear passivity-based sliding surface controller; orbit propagator; satellite orbit reference frame; spacecraft control; uniformly asymptotically stability;

机译：渐近稳定性;非线性控制系统;航天器;变结构系统; CubeSat模型;角速度确定;椭圆轨道;局部垂直-局部水平轨道参考系;基于无源性的非线性滑动面控制器;轨道传播器;卫星轨道参考系;航天器控制;一致渐近稳定性;

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4. Modeling and Simulation of a CubeSat Using Nonlinear Control in an Elliptic Orbit [C] . Rune Schlanbusch, Espen Oland, Per Johan Nicklasson International Conference on Recent Advances in Space Technologies . 2009

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Modeling and simulation of a cubesat using nonlinear control in an elliptic orbit

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