Error Analysis of Orbit Determination for the Geostationary Satellite with Single Station Antenna Tracking Data

In the study, position and velocity values of a geostationary satellite are found. When performing this, a MATLAB algorithm is used for Runge-Kutta Fehlberg orbit integration method to solve spacecraft’s position and velocity. Integrated method is the solution for the systems which mainly work with a single station. Method provides calculation of azimuth, elevation and range data by using the position simulation results found by RKF. Errors of orbit determination are analysed. Variances of orbit parameters are chosen as the accuracy criteria. Analysis results are the indicator of the method’s

北斗系统GEO卫星伪距多路径误差改正

北斗系统地球静止轨道(GEO)卫星因相对于地面近似静止,其多路径误差相对于其他类型较为严重,且表现出系统波动现象。为提升定位精度,本文在GEO卫星伪距多路径误差特征研究的基础上,采用奇异谱分析方法对其进行修正,并通过伪距单点定位(SPP)验证伪距多路径误差修正效果。选取测站CUT0连续10d的静态观测数据进行修正试验。研究发现,GEO卫星伪距多路径误差序列表现出较强的天重复性,且多路径误差中的系统误差项越大,重复性也越强;在运用奇异谱分析方法修正GEO卫星伪距多路径误差各系统误差项后,多路径组合(MP)观测值和SPP的定位精度均有一定程度提升。

Perturbed low-thrust geostationary orbit transfer guidance via polynomial costate estimation

This paper proposes an optimal,robust,and efficient guidance scheme for the perturbed minimum-time low-thrust transfer toward the geostationary orbit.The Earth’s oblateness perturbation and shadow are taken into account.It is difficult for a Lyapunov-based or trajectory-tracking guidance method to possess multiple characteristics at the same time,including high guidance optimality,robustness,and onboard computational efficiency.In this work,a concise relationship between the minimum-time transfer problem with orbital averaging and its optimal solution is identified,which reveals that the five averaged initial costates that dominate the optimal thrust direction can be approximately determined by only four initial modified equinoctial orbit elements after a coordinate transformation.Based on this relationship,the optimal averaged trajectories constituting the training dataset are randomly generated around a nominal averaged trajectory.Five polynomial regression models are trained on the training dataset and are regarded as the costate estimators.In the transfer,the spacecraft can obtain the real-time approximate optimal thrust direction by combining the costate estimations provided by the estimators with the current state at any time.Moreover,all these computations onboard are analytical.The simulation results show that the proposed guidance scheme possesses extremely high guidance optimality,robustness,and onboard computational efficiency.

基于CEI测量的GEO目标快速轨道恢复

连线干涉测量(Connected Element Interferometry,CEI)是一种全天时全天候的被动测角技术,已用于空间目标的跟踪监视.地球静止轨道(Geostationary Earth Orbit,GEO)卫星需要频繁机动以保持轨位或完成其他任务,其机动后的快速轨道恢复能力对于监视预警极为重要.针对基于CEI的GEO短弧定轨和预报,分析了定轨算法的形亏和数亏,在附加先验轨道约束的短弧定轨基础上,提出了轨道半长轴初值的自适应优化方法.利用亚太七号卫星的CEI仿真和实测数据进行了短弧定轨和预报,实验结果表明,采用优化后的半长轴初值,30min短弧定轨和10min预报的卫星位置分量精度均优于4km,能够满足非合作GEO目标机动后快速轨道恢复的需求.

透视空天红外遥感探测技术:演进规律与发展趋势

空天红外遥感探测技术对国民经济发展和战略国防能力建设具有重要意义,是推动我国红外科技进步的关键引擎,更是实现航天科技强国战略的重要基石。本文重点展现了气象卫星观测技术、地物目标精细成像技术、红外焦平面探测器技术以及新时代背景下的遥感应用等多个与红外科技紧密相连的关键领域的研究进展。通过系统梳理相关技术的发展脉络,总结演进规律,并深入剖析最新研究成果,旨在精准洞察未来空天红外科技的潜在发展方向,为我国红外科技的不断创新和航天事业的蓬勃发展提供坚实的支撑。

基于长基线的BDS精密星历精度对比分析

为对比分析欧洲定轨中心(CODE)、德国地学研究中心(GFZ)与武汉大学(WHU)3种北斗卫星导航系统(BDS)精密星历精度及BDS地球静止轨道(GEO)卫星精度影响,本文选取亚洲和欧洲区域多模全球导航定位系统(GNSS)实验跟踪网(MGEX)测站,从基线结果可靠性、内符合精度、外符合精度3个方面对比分析。结果表明:3种精密星历BDS基线约束固定解NRMS值均小于0.3,说明基线结果精度可靠;BDS基线各分量固定误差均在1 cm以内,比例误差优于9×10^(-9)。亚洲区域,CODE内、外符合精度最高,以GPS基线结果为外部参考,基线平均3D误差为5.13cm;欧洲区域,三种精密星历精度一致,且BDS内符合精度优于GPS,基线平均3D误差为1.90cm左右。亚洲区域禁用BDS GEO卫星后,GFZ与WHU BDS基线水平与垂直分量内符合精度分别平均提高约26.3%、23.9%,外符合精度分别提高约39.1%、51.0%。BDS数据高精度处理时,根据区域选择精密星历并禁用GEO卫星。

多层星座网络仿真教研系统设计与实现

随着6G架构的逐渐清晰与天空地海一体化需求的明确,非静止轨道卫星星座的发展进入了空前繁荣的阶段,美国STARLINK、Kuiper、英国OneWeb、中国卫星互联网星座等系统处于建设与部署的关键阶段。其中,多层星座网络的设计是解决全球无缝覆盖与随需接入的重要研究对象。然而,受限于卫星通信系统建设成本高、系统复杂、正式系统运行受国家管控等,真实系统难以直接应用于高等院校的实验教学工作。目前卫星通信相关课内实验及综合实验主要以机房参观、实验箱分组实验等方式进行,既缺乏直观的系统认识,且参与度较低。针对上述需求,该文设计了一套基于“轨道建模+系统分析+动态显示”的仿真系统,并利用快照仿真的思想实现了非静止轨道卫星星座的高动态性分析过程。实验结果表明,该系统能够较好地完成大规模多层星座网络的覆盖分析、同频干扰分析等功能,可支撑卫星通信、无线通信、通信综合实验等课程的实践需求。

一种基于团簇中心点的时差量测滤波方法

在无源场景中,时差量测的时间间隔大多为非均匀特性。提出一种基于团簇中心点的时差滤波方法,将时间间隔过短的量测划为同一簇,每个簇的中心点代入滤波模型,实现了序贯迭代过程。相比于常用的滤波方法,避免了滤波发散问题,提高了时差的预测精度。最后,在仿真数据上将中心点滤波方法与卡尔曼滤波及改进算法进行比较,验证了该方法的准确性和有效性。

基于干扰对齐的NGSO星座系统同频干扰抑制

针对当前太空中,非静止卫星轨道(NGSO)星座系统日益增加,使用相同频段、轨道邻近的卫星网络越来越多,NGSO星座系统之间以及NGSO星座系统与传统的静止卫星轨道(GSO)星座系统之间的同频干扰日益严重的问题,提出利用无线通信中的干扰对齐算法,根据卫星网络的传输信道信息,在发射端匹配特征信道的预编码矩阵,缓解低轨卫星网络同频干扰问题,在此基础上以ChinaSat、OneWeb和Fortran系统进行仿真,对利用干扰对齐算法前后的干扰数值进行比较,证明了此方法的可行性,为今后此类问题的研究提供了参考。

5G系统对大规模NGSO卫星系统干扰分析等效建模方法

在5G系统和大规模非静止轨道(non-geostationary orbit, NGSO)卫星系统的同频共存场景中,NGSO系统的星座规模大且具有动态时变性,5G系统基站和用户数量众多,存在难以确定5G系统实际位置以及干扰计算量较大等问题。本文以5G系统对NGSO系统的干扰为例分析了建模方法,在对卫星星座建模时,利用划分星座子空域方法减少干扰计算量,在对5G系统建模时,依据聚类方法以及全球城市人口数量,使5G系统热点区域分布符合城市发展现状,并利用辐射能量计算方法减少干扰计算量。仿真结果表明,与传统外推方法对比,本文方法具有相似的准确度,并且可以大幅提高计算效率。

融合功率分配策略的NGSO-GSO频率干扰计算方法研究

针对地球静止轨道(geostationary satellite orbit,GSO)卫星系统与非GSO(none GSO,NGSO)星座系统间的干扰分析场景,结合NGSO、GSO系统的空间链路、波束业务需求量和信道等特征,提出了融合功率分配策略的NGSO-GSO频率干扰计算方法,构建了上、下行通信链路的目标函数和约束条件。在以国际电联(International Telecommunication Union,ITU)实际登记的卫星网络资料为例构建的NGSO-GSO干扰分析场景中,计算并比较了典型功率分配策略对干扰噪声比I/N的影响效果。结果表明:在下行链路分析场景中,当GSO卫星系统和NGSO星座系统分别采用融合功率分配策略时,I/N超过限值-12.2 dB的时间百分比对应降低了0.24%~2.85%和0.77%~3.65%;但对于上行链路分析场景,融合功率分配策略对I/N超限百分比的降低作用不明显。

GEO/IGSO/MEO对北斗SPP精度的影响

北斗卫星导航系统混合星座增强了北斗的抗遮挡能力,每种星座卫星对定位精度的影响是目前研究的重点。本文基于北京地区的连续跟踪站BFGY站和ZGDZ站2018年第96天实测数据,采用反向分析法首次分析了GEO/IGSO/MEO对北斗卫星可见数、PDOP值和北斗SPP精度的影响程度,发现每种星座卫星都对北斗卫星可见数有很大的影响,对PDOP值的影响最大达到21;GEO卫星对SPP精度的影响大于IGSO卫星大于MEO卫星。

Recent Progress of Fengyun Meteorology Satellites

After nearly 50 years of development, Fengyun(FY) satellite ushered in its best moment. China has become one of the three countries or units in the world(China, USA, and EU) that maintain both polar orbit and geostationary orbit satellites operationally. Up to now, there are 17 Fengyun(FY) satellites that have been launched successfully since 1988. There are two FY polar orbital satellites and four FY geostationary orbit satellites operate in the space to provide a huge amount of the earth observation data to the user communities. The FY satellite data has been applied not only in the meteorological but also in agriculture,hydraulic engineering, environmental, education, scientific research and other fields. More recently, three meteorological satellites have been launched within the past two years. They are FY-4 A on 11 December2016, FY-3 D on 15 November 2017 and FY-2 H on 5 June 2018. This paper introduces the current status of FY meteorological satellites and data service. The updates of the latest three satellites have been addressed.The characteristics of their payloads on-boarding have been specified in details and the benefit fields have been anticipated separately.

GSO卫星系统布设中的通信干扰评估方法

针对地球静止轨道(GSO)卫星系统在卫星和地球站布设中的同频干扰评估问题,设计了地球站及卫星的全球分布对下行和上行通信链路的干扰评估场景,以及考虑波束业务特征影响的多条链路的集总干扰场景,构建了不同场景下的干扰评估和分析计算的模型,提出了一种基于干扰函数极值的评估方法。所提方法通过建立干扰系统地球站的随机分布集合和受扰系统的干扰函数,结合国际电联(ITU)提供的全球地形数据、天线波束参数、电磁波传播模型,能够实现对2个GSO卫星系统间的卫星轨位和地球站布设的定量化计算分析。采用所提方法对位于47°E±6°的GSO卫星系统、位于(23°N,26°E)地球站的同向下行链路,以及位于(23°N,26°E)的地球站对26°E±6°的GSO卫星系统的同向上行链路的干扰情况进行了定量化计算。结果表明:在卫星轨位间隔为2°时的干扰噪声比值为-12.29 dB,与ITU建议书中规定的-12.2 dB的限值之间的误差为0.7%,证明了所提方法的有效性和可行性。所提方法还可以统计GSO卫星系统在任意角度间隔和全球布设场景下的干扰分布情况,对于干扰评估和规避措施的制定具有一定的借鉴意义。

Fengyun Satellites:Achievements and Future

Chinese meteorological satellite,Fengyun(FY) Satellite,has a polar-orbiting series and a geostationary series.Up to now,5 polar-orbiting(FY-1A/B/C/D and FY-3A) and 5 geostationary(FY-2A/B/C/D/E) satellites were launched.FY data has been being intensively applied not only to meteorological monitoring and prediction but also to many other fields regarding ecology,environment,disaster,space weather and so and.The FY data sharing system,FengyunCast,is now one of the three components of global meteorological satellite information dissemination system,GEONETCast.The first satellite of the new generation polar-orbiting series,FY-3A,was launched on 27 May,2008,demonstrating the FY polar-orbiting satellite and its application completed a great leap to realize threedimensional observations and quantitative application.The first of the next generation geostationary series(FY-4) is planned to launch in 2014.

Primary Analysis of Development Approach to Chinese Satellite Mobile Communication

The paper describes the development of mobile communication first and then points out that it is necessary for China to develop satellite mobile communication after comparing the cellular mobile communication with the satellite mobile communication. After comparing the geostationary satellite system with the low earth orbit satellite mobile communication system, as well as the single-beam system with the multibeams system, both used in satellite mobile communication, we suggest that China, according to its economic status and level of satellite technology, should develop a geostationary multibeam satellite for its domestic mobile communication.

GEO混合推力机动目标跟踪IMM算法

针对交互多模型(IMM)算法求解地球静止轨道(GEO)卫星混合推力机动目标跟踪问题时模型匹配难、模型转移概率近似平均和响应速度慢的问题,从交互模型集构建和模型转移概率自适应设计两个方面出发提出一种改进IMM算法。该方法通过考虑无机动、脉冲机动和有限推力机动三种模式,构建了覆盖目标机动状态的交互模型集,提高了模型与机动目标实际运行状态的匹配度;采用一种基于加速度估计自适应修正的模型交互概率修正方法,提升了算法对目标机动状态的响应速度和跟踪精度。仿真结果表明,所提算法是解决混合推力模式下的GEO机动目标跟踪问题的有效手段,在收敛速度和收敛精度等方面与传统方法相比有较大提高。

Observations from Fengyun Satellites

Fengyun(FY) Satellite has a polar-orbiting series and a geostationary series.Up to now,7 polar-orbiting(FY-1A/B/C/D and FY-3A/B/C) and 7 geostationary(FY-2A/B/C/D/E/F/G)satellites were launched.FY data has been being intensively applied not only to meteorological monitoring and prediction but also to many other fields regarding ecology,environment,disaster and so on.

NGSO遥感卫星监测方法

遥感卫星具有技术要求低、成本低、发射简单、无轨位限制等特点,可广泛应用于各种领域,目前我国已建成陆地观测、海洋观测和大气观测等多领域的遥感观测。遥感卫星大部分属于非静止轨道(NGSO)卫星,数量庞大的NGSO遥感卫星不断涌现和部署,对卫星业务及频率轨道资源的监管带来严峻挑战,为促进无线电频率轨道资源的有效使用,开展NGSO遥感卫星的监测迫在眉睫。

星载高光谱成像载荷发展及关键技术

星载高光谱遥感技术可通过光谱特征对地物进行大范围快速精细识别,在自然资源勘查、生态环境保护、精细农业、碳排放监测和地表异常即时探测等方面有着广阔的应用前景。自20世纪80年代初期美国NASA研制出第一台机载高光谱成像仪以来,高光谱成像技术的研究发展日益得到重视。与机载高光谱载荷相比,星载高光谱载荷的研制难度大幅增加,但其全球范围快速探测识别的巨大应用价值,成为国际上竞相攻克的科技制高点,也是人类探测地球感知万物的重要手段。我国高分五号卫星的成功发射,使国际上星载高光谱成像技术的水平达到了一个新的高度,在助力碳排放、土壤有机质、土壤重金属污染、水质微量污染和大范围地球深部找矿等应用方面产生诸多突破。本文回顾了星载高光谱载荷技术的发展历程,总结了星载宽谱宽幅高光谱载荷的要点、关键技术及应用情况。结合团队在该领域多年实际开展的工作,凝炼提出了静止轨道高光谱、荧光超光谱和高光谱即时遥感探测几个重要发展方向及其关键技术,为星载高光谱载荷研究工作的重大发展提供一些重点有益的参考。