国外全电推进卫星平台的发展及启示

介绍了国外典型全电推进卫星平台的主要技术参数和最新研制进展,分析了这些卫星平台及其有关卫星的技术特点和发射情况/计划,以及全电推进卫星平台的应用优势与市场机遇,提出了对我国全电推卫星平台发展的启示和建议。     

尾迹对卫星周围等离子体扰动特性分析

卫星充电和尾迹效应会对周围的等离子体造成扰动,进而影响星上电磁和等离子测量 载荷的测量精度。利用卫星与等离子体相互作用模拟软件SPIS,并采用DEMETER卫星的 一组在轨测试的等离子参数,采用粒子分室法模拟了低轨道卫星的尾迹效应特性。结果显示 ,卫星的表面充电电位为-0.72 V,负的充电电位一定程度上减小了尾迹效应的影响,尾 迹效应对等离子体的扰动在尾迹一侧约为2.5 m,离子撞击侧约为0.7 m,其余两个 侧面约为1.1 m,即等离子鞘层呈桃形分布,且在尾迹区存在离子浓度为零的空白区和 浓度较小的稀薄区,而在尾迹区也是电子浓度的稀薄区,但不存在电子浓度为零的空白区。
     

自主交会对接绕飞轨道的双冲量控制改进算法

绕飞轨道控制是追踪器与非合作目标进行自主交会对接的关键技术。本文针对同轨道平面的绕飞问题,根据双冲量轨道逼近动力学特性,将绕飞轨道分解为两个逼近轨道,采用有摄动情况下双冲量轨道逼近改进算法实现绕飞轨道控制。绕飞控制时,在轨道误差范围内,数次冲量累计同时施加,减少由于单次冲量小而造成的较大相对误差。最后进行了数学仿真,仿真结果表明该算法能实现绕飞轨道控制,具有设计简单、燃料消耗少的特点。     

非圆轨道卫星实现共面悬停的方法

通过矢量控制,使任务卫星始终在目标卫星的轨道平面内飞行,同时保证"任务卫星-目标卫星-地心"的夹角和两颗卫星间的相对距离保持不变,从而实现共面悬停飞行。重点进行了任务卫星悬停飞行的动力学理论分析,推导了悬停飞行过程中任务卫星相对于目标卫星的径向和切向加速度需求,给出了开环控制方案,对不同悬停任务的能量需求进行了对比分析,最后对悬停飞行过程进行了动力学仿真。     

基于时间的保证切换策略

文章提出了一种适合低轨卫星星座网络的接入和切换控制策略TGH（基于时间的保证切换）。该策略利用了星历信息的确定性来预计用户的位置。实验结果表明相对于GH（保证切换）策略,TGH降低了新呼叫的阻塞率、切换失败率,得到更好的服务质量。     

实现海洋测高卫星厘米级定轨精度的策略分析

基于对多种飞机的机载GPS测量实践,提出我国海洋二号（HY-2）卫星实现厘米级精度的星载GPS定轨测量的基本要求：1）选择适合天线,捕获多颗在视GPS卫星;2）注重天线安装位置,减弱多路径效应影响;3）选用适合的GPS信号接收机,确保星载GPS测量数据优质。     

地球静止轨道凝视型相机热分析与热设计

空间光学遥感器在轨运行过程中要承受太阳辐射和空间冷热沉、黑热沉等恶劣温度环境的影响。为确保相机在轨正常运行并拥有较高的成像品质,需要对相机进行精确的热控设计。根据地球静止轨道太阳辐射外热流特点,详细分析了静止轨道凝视相机热设计的重点和难点,并针对热设计中可能遇到的问题提出相应解决方案。     

DORIS system: The new age

The boarding of the first DGXX DORIS instrument on Jason-2 mission gives us the opportunity to present the improvements that have been implemented on the DORIS system. The goal of this paper is to present information about the new capacities of the DORIS system and to give the current status of its components. An overview of the DORIS system, the International DORIS Service and the Jason-2 satellite mission are first presented. Then the new characteristics of the on-board instrument are detailed. The capacity to track up to seven ground beacons simultaneously dramatically increases the number of measurements performed: a factor of three increase over Jason-1 is observed at the altitude of 1330 km. It also increases the diversity of directions of observation and allows low elevation measurements from 0°. The new phase measurements capability allows now phase processing. The instability of the Jason-1 USOs (Ultra-Stable Oven-controlled quartz oscillator) while crossing the South Atlantic Anomaly has been solved by decreasing the sensitivity to radiation by a factor of 10. New features of the on-board software enhance the coastal and inland water altimetry and increase the robustness of the data. The new software also improves the real time orbit accuracy for operational altimetry. The improvements introduced concurrently on the ground segment have also significantly enhanced capability. The new RINEX exchange formats provide simultaneous phase and pseudo-range measurements. The maintenance of the DORIS Beacons Network and the work done by the DORIS Signal Integrity monitoring team lead to an increased availability of the Network from 75% to 90% and so to a more homogenous orbit coverage.     

Disposal orbits for GEO spacecraft: A method for evaluating the orbit height distributions resulting from implementing IADC guidelines

Geostationary orbit (GEO) is the most commercially valuable Earth orbit. The Inter-Agency Space Debris Coordination Committee (IADC) has produced guidelines to help protect this region from space debris. The guidelines propose moving a satellite at the end of its operational life to a disposal orbit, which is designed so that satellites left there will not infringe the operational GEO region within a period of at least 100 yr.     

基于参考轨道的Walker星座相对相位保持策略

针对高轨道Walker全球星座相对相位保持问题,在分析星座几何结构演化规律基础上,提出了一种基于动态调整参考轨道的星座相对相位保持策略.该参考轨道的半长轴取星座所有卫星的平均轨道半长轴的平均值,通过计算各卫星相对参考轨道的相对相位偏差以及变化率,而后根据有关维持的约束条件来选择合适的卫星进行站点保持,使得所有卫星的相对参考轨道的相位偏差不超过允许值.当一旦有卫星进行了站点保持,则参考轨道就重新统计确定.文章通过一个12颗MEO卫星构成的Walker-δ星座的分析算例,表明这种相对保持策略可以减少星座的站点维持次数.本文提出的方法可以为我国今后卫星导航星座的维持提供参考.