Natural Magneto-velocity Coordinate System for Satellite Attitude Stabilization: The Concept and Kinematic Analysis

Q4 Chemical Engineering
A. Tikhonov
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引用次数: 3

Abstract

An artificial Earth satellite with an electric charge and an intrinsic magnetic moment is considered. Due to the geomagnetic field, the satellite experiences the influence of the Lorentz and magnetic torques. To set the angular position of the satellite, we introduce natural coordinate system associated with the directions of geomagnetic induction vector and Lorentz force vector which is orthogonal both to the geomagnetic induction and relative velocity of the satellite. It is shown that such a natural magneto-velocity coordinate system is convenient for attitude stabilization of a satellite operating in the mode of scanning the Earth's surface. The properties of the trajectory of the satellite axis on the Earth's surface are analysed. The rotation tensor connecting the natural magneto-velocity and the orbital coordinate systems is obtained. The angular velocity of the natural magneto-velocity trihedron is found. Kinematic differential equations for the unit vectors of the natural magneto-velocity coordinate system are derived.
用于卫星姿态稳定的自然磁速度坐标系:概念和运动学分析
考虑了一颗带有电荷和固有磁矩的人造地球卫星。由于地磁场的影响,卫星会受到洛伦兹和磁矩的影响。为了设置卫星的角位置,我们引入了与地磁感应矢量和洛伦兹力矢量方向相关的自然坐标系,该坐标系与卫星的地磁感应和相对速度正交。结果表明,这种自然磁速度坐标系有利于卫星在扫描地球表面模式下的姿态稳定。分析了卫星轴线在地球表面的轨迹特性。得到了连接自然磁速度和轨道坐标系的旋转张量。发现了自然磁速度三面体的角速度。导出了自然磁速度坐标系单位矢量的运动微分方程。
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来源期刊
Applied and Computational Mechanics
Applied and Computational Mechanics Engineering-Computational Mechanics
CiteScore
0.80
自引率
0.00%
发文量
10
审稿时长
14 weeks
期刊介绍: The ACM journal covers a broad spectrum of topics in all fields of applied and computational mechanics with special emphasis on mathematical modelling and numerical simulations with experimental support, if relevant. Our audience is the international scientific community, academics as well as engineers interested in such disciplines. Original research papers falling into the following areas are considered for possible publication: solid mechanics, mechanics of materials, thermodynamics, biomechanics and mechanobiology, fluid-structure interaction, dynamics of multibody systems, mechatronics, vibrations and waves, reliability and durability of structures, structural damage and fracture mechanics, heterogenous media and multiscale problems, structural mechanics, experimental methods in mechanics. This list is neither exhaustive nor fixed.
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