航天器开普勒轨道和非开普勒轨道的定义、分类及控制

给出了航天器开普勒轨道（KO）和非开普勒轨道（NKO）的来源、定义、分类和特点,阐明了KO和NKO之间的关系,介绍了相关的轨道控制与轨道确定、制导与导航的涵义.     

低轨道CDMA卫星下行链路多径信道估计

为改善低轨道（LEO）卫星下行链路中多径时延扩展小于1个码片周期时最大似然信道估计方法因有色噪声影响导致的低信噪比时急速下降的性能。提出用卡尔曼滤波法对最大似然估计输出的估值进行滤波处理。仿真结果表明：当LEO卫星码分多址（CDMA）下行链路存在速率300 b/s的连续导频信号时,用最大似然估计级联卡尔曼滤波器的多径信道估计法能在载噪比40 dB的信噪比条件下具较好的性能。     

M估计在卫星轨道确定中的应用

基于卫星测控的测量方程和动力学方程,分析了传统定轨策略中观测方程误差模型的非正态性,推导了定轨方程,提出了一种基于M估计的卫星定轨方法,证明了相关的性质。仿真结果表明：基于M估计的卫星定轨方法可明显抑制粗差影响,提高卫星轨道确定精度。     

两行根数的精度评估

两行根数是北美防空司令部基于一般摄动理论产生的用于预报地球轨道飞行器位置和速度的一组轨道根数,用于近地卫星时所采用的数学模型是SPG4,它已被著名软件STK选为进行轨道推算的可选方法之一。文章对它的精度进行了评估,并认为它有很大的应用价值。     

月球重力场及低轨环月卫星轨道保持仿真分析

为了在满足精度要求的前提下节省月球重力场模型的计算时间,依据Kaula准则分析了目前国际上公认的最精确的两个重力场模型GLGM-2和LP165P,提出了在一定阶次截断重力场模型的问题.通过仿真不同阶次重力场模型作用下轨道高度为50 km的圆形极轨道环月卫星轨道特征的变化,验证了50 km以上高度卫星非球形摄动分析时可以将重力场模型截断至一定阶次的结论,并利用截断至70阶次的重力场模型仿真分析200 km圆轨道卫星一年内轨道下降程度.最后在仿真结果的基础上得到了200 km高度环月卫星需要每50天进行一次轨道保持控制的结论并完成一次轨道保持控制仿真.研究结论可以为我国低轨环月卫星轨道保持提供参考.     

轨道运动对高轨卫星成像的影响及补偿

针对三轴稳定静止轨道气象卫星图像运动补偿技术,分析了轨道运动误差源对有效载荷成像仪成像光轴的影响.基于轨道确定数据,采用空间成像矢量修正方法,对轨道运动引起的光轴偏离进行补偿.根据高分辨率成像对光轴高指向精度的指标要求,研究了轨道确定误差和有效载荷伺服控制系统误差对图像配准精度的影响关系,并指出了进一步提高图像配准精度的措施.仿真结果表明了补偿方法的可行性.     

Simulation software for the spiral trajectory of our Moon

At 4.56 Ga, the accretion of the slowly rotating Solar Nebula led to the formation of Sun and its Planets in the plane of disc of accretion. Moon was formed by accretion from a circumterrestrial disk of debris generated by the glancing angle impact of the young Earth by a Mars size planetary embryo at about 4.5 Ga at a distance of 15,000 km. The Moon since then has migrated to the present position of 384,400 km from the center of the Earth. In course of this outward migration it has slowed down the spin rate of Earth and caused the lengthening of diurnal day length from 5 h initially to 24 h presently. The basic mechanics of Earth–Moon System has been worked out and theoretical determination of lengthening of day curve is carried out. This theoretical lengthening of day curve is compared with the observed lengthening of day curve based on paleobotanical evidences, ancient tidalites and Australian Banded Iron Formation. There is a remarkable correspondence between the two curves except for intermittent deviations due to geographical and geophysical factors. Based on the theoretical curve of lengthening of day, an empirical formula for the lunar orbital radius expansion is determined. Based on this empirical formula, simulation software is developed that gives the correct evolution of the semi-major axis (a) of our Moon for any time span from the inception to the time chosen under study. For mathematical simplicity the system is considered to be a two body rotating system throughout its evolutionary history of 4.5 Gyrs. This simulation draws the Moon’s spiral trajectory from its inception to any subsequent epoch. The terminal epoch is an input to the simulation software to arrive at the spiral trajectory of the Moon from the inception to the given epoch. The basic mechanics of Earth–Moon System and this simulation can be generalized to lay the foundation of simulation software for any Planet–Satellite pair or any Sun-Planet pair in our Solar System or Star-Planet pair in any Extra-Solar System. The basic dynamics has been found to be valid for Star–Planet pair also. So this Simulation Methodology can as well be applied to study the migratory evolution of Gas Giants also.     

Global dynamics of high area-to-mass ratios GEO space debris by means of the MEGNO indicator

In this paper we provide an extensive analysis of the global dynamics of high-area-to-mass ratios geosynchronous (GEO) space debris, applying a recent technique developed by Cincotta and Simó [Cincotta, P.M., Simó, C.Simple tools to study global dynamics in non-axisymmetric galactic potentials–I. Astron. Astrophys. (147), 205–228, 2000.], Mean Exponential Growth factor of Nearby Orbits (MEGNO), which provides an efficient tool to investigate both regular and chaotic components of the phase space.     

椭圆轨道星座构型自稳定设计研究

椭圆轨道星座构型稳定性要求同时实现升交点赤经、近地点幅角和平近点角的稳定。通过初始偏差对椭圆轨道卫星的长期影响分析可知,轨道半长轴、倾角和偏心率的初始偏差对升交点赤经、近地点幅角和平近点角的长期摄动变化是线性的,因此通过主动偏置轨道半长轴、偏心率和倾角能够实现椭圆轨道星座构型的自稳定设计,从而提高其构型稳定性。对实例星座的设计结果表明,自稳定设计方法对提高椭圆轨道星座的构型稳定性是有效的。     

天地基联合多星定轨及精度分析

数据中继卫星和双星定位系统通常由2或3颗地球同步卫星和数颗近地卫星组成,这些系统所提供的“星-星”测量数据提出了多星同时定轨的需求。文章介绍了已知天基星星历定轨和未知天基星星历定轨的主要差别,建立了距离和观测量的测量模型,描述了多星同时定轨的技术难点,分析了整个系统的定轨精度。