FINAL STATE PREDICTIONS FORJ2 GRAVITY PERTURBED MOTION OF THE EARTH'S ARTIFICIAL SATELLITES USING ORTHOGONAL CURVILINEAR COORDINATES

M. A. Sharaf; H. H. Selim; B. F. Al-Jehani; L. A. Alaqal

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FINAL STATE PREDICTIONS FORJ2 GRAVITY PERTURBED MOTION OF THE EARTH'S ARTIFICIAL SATELLITES USING ORTHOGONAL CURVILINEAR COORDINATES

机译：利用正交曲线坐标对地球人工卫星的J2重力扰动运动的最终状态预测

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In this paper, initial value problem for dynamical astronomy will be established using four orthogonal curvilinear coordinates: Spherical Polar, Prolate Spheroidal, Bipolar and Bispherical coordinates. A computational algorithm is developed for the finial state predictions for J2 gravity perturbed motion of the Earth's artificial satellites using these orthogonal curvilinear coordinates. This algorithm is important in targeting, rendezvous maneuvers as well for scientific researches. The applications of the algorithm are illustrated by numerical examples of some test orbits of different eccentricities. The numerical results are extremely accurate and efficient.

机译：在本文中，将使用四个正交曲线坐标建立动态天文学的初值问题：球极坐标，长球体坐标，双极坐标和双球坐标。使用这些正交曲线坐标，为地球人造卫星的J2重力扰动运动的最终状态预测开发了一种计算算法。该算法在针对目标，交会演习以及科学研究中都非常重要。通过不同偏心率的一些测试轨道的数值示例来说明该算法的应用。数值结果非常准确和有效。

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《Bulletin of Pure and Applied Sciences, Sec. E. Mathematics & statistics》 |2012年第2期|共15页
作者
M. A. Sharaf; H. H. Selim; B. F. Al-Jehani; L. A. Alaqal;
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正文语种 eng
中图分类数学;
关键词
Dynamical astronomy; Stellar dynamics; Targeting; Rendezvous maneuver; Initial value problems;

机译：动力学天文学;恒星动力学;瞄准;交会动作;初始值问题;

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1. FINAL STATE PREDICTIONS FORJ2 GRAVITY PERTURBED MOTION OF THE EARTH'S ARTIFICIAL SATELLITES USING ORTHOGONAL CURVILINEAR COORDINATES [J] . M. A. Sharaf, H. H. Selim, B. F. Al-Jehani, Bulletin of Pure and Applied Sciences, Sec. E. Mathematics & statistics . 2012,第2期

机译：利用正交曲线坐标对地球人工卫星的J2重力扰动运动的最终状态预测
2. Second strain gradient theory in orthogonal curvilinear coordinates: Prediction of the relaxation of a solid nanosphere and embedded spherical nanocavity [J] . Ojaghnezhad Farzaneh, Shodja Hossein M. Applied Mathematical Modelling . 2019,第Deca期

机译：正交曲线坐标系中的第二应变梯度理论：固体纳米球和嵌入式球形纳米腔弛豫的预测
3. Second strain gradient theory in orthogonal curvilinear coordinates: Prediction of the relaxation of a solid nanosphere and embedded spherical nanocavity [J] . Ojaghnezhad Farzaneh, Shodja Hossein M. Applied Mathematical Modelling . 2019,第DECa期

机译：正交曲线坐标系中的第二应变梯度理论：固体纳米球和嵌入式球形纳米腔弛豫的预测
4. A parabolic equation based on a rational quadratic approximation for surface gravity wave propagation followed in curvilinear orthogonal coordinates [C] . M. Chagdali, S. Mordane International Maritime Association of the Mediterranean International Congress(IMAM 2005); 20050926-30; Lisboa(PT) . 2005

机译：基于有理二次逼近的曲线重力正交面中的表面重力波传播的抛物方程
5. THE ATTITUDE MOTION AND STABILITY OF A SPINNING SATELLITE UNDER THE INFLUENCE OF THE EARTH'S GRAVITY GRADIENT TORQUE. [D] . CHIN, PAUL B. 1962

机译：受地球重力梯度转矩影响的自旋卫星的姿态运动和稳定性。
6. Reply to A comment on A test of general relativity using the LARES and LAGEOS satellites and a GRACE Earth gravity model by I. Ciufolini et al. [O] . Ignazio Ciufolini, Erricos C. Pavlis, John Ries, -1

机译：回复对 I. Ciufolini等人使用LARES和LAGEOS卫星和GRACE地球引力模型进行的广义相对论测试的评论
7. Final state predictions for J2 gravity perturbed motion of the Earth’s artificial satellites using Bispherical coordinates [O] . M.A. Sharaf, H.H. Selim 2013

机译：利用双球坐标对J2重力扰动地球人造卫星运动的最终状态预测
8. Orbit Perturbations of Artificial Earth Satellites as Functions of Gravity Anomalies and Differential Corrections of Orbit and Station Coordinates [R] . Koch, K. R. 1968

机译：人造地球卫星的轨道扰动作为重力异常函数和轨道和站点坐标的微分校正

FINAL STATE PREDICTIONS FORJ2 GRAVITY PERTURBED MOTION OF THE EARTH'S ARTIFICIAL SATELLITES USING ORTHOGONAL CURVILINEAR COORDINATES

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