Analysis of the joint detection capability of the SMILE satellite and EISCAT-3D radar

The Solar wind Magnetosphere Ionosphere Link Explorer(SMILE)satellite is a small magnetosphere–ionosphere link explorer developed cooperatively between China and Europe.It pioneers the use of X-ray imaging technology to perform large-scale imaging of the Earth’s magnetosheath and polar cusp regions.It uses a high-precision ultraviolet imager to image the overall configuration of the aurora and monitor changes in the source of solar wind in real time,using in situ detection instruments to improve human understanding of the relationship between solar activity and changes in the Earth’s magnetic field.The SMILE satellite is scheduled to launch in 2025.The European Incoherent Scatter Sciences Association(EISCAT)-3D radar is a new generation of European incoherent scatter radar constructed by EISCAT and is the most advanced ground-based ionospheric experimental device in the high-latitude polar region.It has multibeam and multidirectional quasi-real-time three-dimensional(3D)imaging capabilities,continuous monitoring and operation capabilities,and multiple-baseline interferometry capabilities.Joint detection by the SMILE satellite and the EISCAT-3D radar is of great significance for revealing the coupling process of the solar wind–magnetosphere–ionosphere.Therefore,we performed an analysis of the joint detection capability of the SMILE satellite and EISCAT-3D,analyzed the period during which the two can perform joint detection,and defined the key scientific problems that can be solved by joint detection.In addition,we developed Web-based software to search for and visualize the joint detection period of the SMILE satellite and EISCAT-3D radar,which lays the foundation for subsequent joint detection experiments and scientific research.

The First Global Map of Atmospheric Ammonia(NH_(3)) as Observed by the HIRAS/FY-3D Satellite

Atmospheric ammonia(NH_(3)) is a chemically active trace gas that plays an important role in the atmospheric environment and climate change. Satellite remote sensing is a powerful technique to monitor NH_(3) concentration based on the absorption lines of NH_(3) in the thermal infrared region. In this study, we establish a retrieval algorithm to derive the NH_(3)column from the Hyperspectral Infrared Atmospheric Sounder(HIRAS) onboard the Chinese Feng Yun(FY)-3D satellite and present the first atmospheric NH_(3) column global map observed by the HIRAS instrument. The HIRAS observations can well capture NH_(3) hotspots around the world, e.g., India, West Africa, and East China, where large NH_(3) emissions exist. The HIRAS NH_(3) columns are also compared to the space-based Infrared Atmospheric Sounding Interferometer(IASI)measurements, and we find that the two instruments observe a consistent NH_(3) global distribution, with correlation coefficient(R) values of 0.28–0.73. Finally, some remaining issues about the HIRAS NH_(3) retrieval are discussed.

广播星历旋转误差对低轨星载BDS-3/GPS实时精密定轨影响分析

基于LT-01A卫星星载BDS-3/GPS观测值进行了星载实时精密定轨研究,并重点分析了广播星历旋转误差对实时定轨精度的影响。通过赫尔默特转换评估了所选时段内GPS和BDS-3广播星历轨道旋转误差,显示BDS-3广播星历旋转误差可达-8.7 mas,平均量级较GPS大约2.5倍。BDS-3广播星历经旋转改正后,轨道切向、法向均方根(RMS)误差从25 cm左右提升至10 cm量级,提升幅度超过50%。因此,基于星载BDS-3以及BDS-3/GPS联合的实时定轨精度受BDS-3星历旋转误差影响严重,且主要作用于切向和法向。经过旋转改正后,单独BDS-3实时定轨在切向、法向、径向RMS分别为21.0 cm、10.7 cm及11.2 cm,其切向和法向精度比改正前分别提升15.0%和31.8%;BDS-3与GPS联合定轨进一步提升切向精度至19.4 cm。得益于BDS-3广播星历较高的精度,单BDS-3以及BDS-3/GPS联合的实时定轨在旋转改正前的三维RMS分别为31.9 cm和29.2 cm,较单GPS实时定轨分别提升9.1%和16.8%;添加旋转改正后,其定轨精度分别提升至26.7 cm和25.0 cm,较单GPS实时定轨分别提升22.6%和27.5%。

Evaluation of the Long-term Performance of Microwave Radiation Imager Onboard Chinese Fengyun Satellites

Accurate brightness temperature(BT)is a top priority for retrievals of atmospheric and surface parameters.Microwave Radiation Imagers(MWRIs)on Chinese Fengyun-3(FY-3)serial polar-orbiting satellites have been providing abundant BT data since 2008.Much work has been done to evaluate short-term MWRI observations,but the long-term performance of MWRIs remains unclear.In this study,operational MWRI BTs from 2012–19 were carefully examined by using simultaneous Advanced Microwave Scanning Radiometer 2(AMSR2)BTs as the reference.The BT difference between MWRI/FY3B and AMSR2 during 2012–19 increased gradually over time.As compared with MWRI/FY3B BTs over land,those of MWRI/FY3D were much closer to those of AMSR2.The ascending and descending orbit difference for MWRI/FY3D is also much smaller than that for MWRI/FY3B.These results suggested the improvement of MWRI/FY3D over MWRI/FY3B.A substantial BT difference between AMSR2 and MWRI was found over water,especially at the vertical polarization channels.A similar BT difference was found over polar water based on the simultaneous conical overpassing(SCO)method.Radiative transfer model simulations suggested that the substantial BT differences at the vertical polarization channels of MWRI and AMSR2 over water were partly contributed by their difference in the incident angle;however,the underestimation of the operational MWRI BT over water remained a very important issue.Preliminary assessment of the operational and recalibrated MWRI BT demonstrated that MWRI BTs were substantially improved after the recalibration,including the obvious underestimation of the operational MWRI BT at the vertical polarization channels over water was corrected,and the time-dependent biases were reduced.

Comparative investigation of microstructure and high-temperature oxidation resistance of high-velocity oxy-fuel sprayed CoNiCrAlY/nano-Al_(2)O_(3) composite coatings using satellited powders

Satellited CoNiCrAlY–Al_(2)O_(3)feedstocks with 2wt%, 4wt%, and 6wt% oxide nanoparticles and pure CoNiCrAlY powder were deposited by the high-velocity oxy fuel process on an Inconel738 superalloy substrate. The oxidation test was performed at 1050℃ for 5, 50, 100,150, 200, and 400 h. The microstructure and phase composition of powders and coatings were characterized by scanning electron microscopy and X-ray diffraction, respectively. The bonding strength of the coatings was also evaluated. The results proved that with the increase in the percentage of nanoparticles(from 2wt% to 6wt%), the amount of porosity(from 1vol% to 4.7vol%), unmelted particles, and roughness of the coatings(from 4.8 to 8.8 μm) increased, and the bonding strength decreased from 71 to 48 MPa. The thicknesses of the thermally grown oxide layer of pure and composite coatings(2wt%, 4wt%, and 6wt%) after 400 h oxidation were measured as 6.5, 5.5, 7.6, and 8.1 μm, respectively.The CoNiCrAlY–2wt% Al_(2)O_(3)coating showed the highest oxidation resistance due to the diffusion barrier effect of well-dispersed nanoparticles. The CoNiCrAlY–6wt% Al_(2)O_(3)coating had the lowest oxidation resistance due to its rough surface morphology and porous microstructure.

FY-3 Meteorological Satellites and the Applications

FY-3 is the second generation polar-orbiting meteorological satellite of China. The first satellite named FY-3A of this series was launched on 27 May 2008. The first operational satellite named FY-3C of this series was launched on 23 September, 2013. The new generation satellites are to provide three-dimensional, quantitative, multi-spectral global remote sensing data under all weather conditions, which will greatly help the operational numerical weather prediction, global climate change research, climate diagnostics and prediction, and natural disaster monitoring. They will also provide help for many other fields such as agriculture, forestry, oceanography and hydrology. With the above-mentioned capability, the FY-3 satellites can make valuable contributions to improving weather forecasts, global natural-disaster and environmental monitoring.

黄河金三角地区城市O_(3)污染的时空格局演变特征

黄河金三角地区空气质量的改善是践行黄河流域生态保护和高质量发展的体现,科学认识O_(3)浓度时空演变和污染特征对于该地区大气污染联防联控具有重要意义.本研究融合地面观测和卫星遥感反演O_(3)浓度数据,采用统计分析、趋势分析及热点分析的方法揭示黄河金三角地区O_(3)浓度的年、季节和月尺度以及空间变化特征,探究O_(3)污染等级的变化特征.结果表明:①黄河金三角地区2015−2022年4个地级市大气中O_(3)浓度呈升高趋势,O_(3)年均浓度表现为运城市(105μg/m^(3))>临汾市(103μg/m^(3))>三门峡市(97μg/m^(3))>渭南市(95μg/m^(3)).②O_(3)季均浓度总体表现为夏季(146μg/m^(3))>春季(113μg/m^(3))>秋季(83μg/m^(3))>冬季(59μg/m^(3)).③1−12月O_(3)浓度呈现抛物线的变化特征(5−9月偏高).④空间分布上,O_(3)浓度最大值和平均值的高值区域主要分布在黄河金三角地区东北到西南方向,低值区域分布在西北和东南方向,O_(3)浓度最小值的空间分布特征与此相反.⑤黄河金三角地区1−12月O_(3)浓度在北部、中部和南部均呈现高值和低值交替出现的空间聚集特征.NPP/VIIRS-O_(3)聚集区主要分布在该地区北部的5个区县,GDP-O_(3)聚集区零散分布在该地区的7个区县.⑥2015−2022年黄河金三角地区4个地市O_(3)不同污染等级的天数表现为优良(199 d)>轻度污染(123 d)>中度污染(46 d)>重度污染(7 d)>严重污染(0 d),优良和轻度污染的天数较多且优良的天数占到50%以上,轻度污染和中度污染出现的天数表现为夏季(77 d)>春季(58 d)>秋季(27 d)>冬季(6 d),优良的季节性变化特征则正好相反.研究成果对于揭示黄河金三角地区O_(3)时空演变规律及污染特征,制定科学合理的防治措施具有现实意义.

BDS-3 PPP-B2b实时精密时间同步方法探讨

针对传统实时精密单点定位(PPP)时间同步方法需要连接互联网,以及对北斗三号全球卫星导航系统(BDS-3)精密单点定位服务信号(PPP-B2b)用于长基线实时时间同步的研究较少的问题,提出一种将PPP-B2b信号用于PPP时间同步的实时时间同步方法:将高精度铷原子钟作为全球卫星导航系统(GNSS)接收机外频标输入,通过GNSS接收机实时接收PPP-B2b改正数,解算接收机钟差并实时调整铷原子钟,输出与时间基准同步的秒脉冲(1PPS)信号,较之传统GNSS接收机输出1PPS有更佳的频率稳定性;设计PPP-B2b时间同步硬件测试平台对提出的PPP-B2b时间同步方法进行测试。结果表明,通过PPP-B2b时间同步方法进行时间传递的精度优于0.2 ns;短基线实测实时时间同步精度优于0.95 ns;卫星模拟器仿短基线精度优于0.87 ns,仿长基线精度优于0.9 ns。

Integrating Highly Spatial Satellite Image for 3D Buildings Modelling Using Geospatial Algorithms and Architecture Environment

The growing demand for current and precise geographic information that pertains to urban areas has given rise to a significant interest in digital surface models that exhibit a high level of detail. Traditional methods for creating digital surface models are insufficient to reflect the details of earth’s features. These models only represent three-dimensional objects in a single texture and fail to offer a realistic depiction of the real world. Furthermore, the need for current and precise geographic information regarding urban areas has been increasing significantly. This study proposes a new technique to address this problem, which involves integrating remote sensing, Geographic Information Systems (GIS), and Architecture Environment software environments to generate a detailed three-dimensional model. The processing of this study starts with: 1) Downloading high-resolution satellite imagery; 2) Collecting ground truth datasets from fieldwork; 3) Imaging nose removing; 4) Generating a Two-dimensional Model to create a digital surface model in GIS using the extracted building outlines; 5) Converting the model into multi-patch layers to construct a 3D model for each object separately. The results show that the 3D model obtained through this method is highly detailed and effective for various applications, including environmental studies, urban development, expansion planning, and shape understanding tasks.

BDS-3新频点信号双频精密单点定位精度分析

北斗卫星导航系统(BeiDou navigation satellite System,BDS)已于2020年7月正式建成并开通,北斗三号(BDS-3)在旧信号B1I和B3I的基础上,增加了B1C、B2a新信号.为了全面评估BDS-3的新信号B1C、B2a的定位性能,试验了GPS (Global Positioning System)、BDS-3、BDS-2/BDS-3新旧信号的定位性能和BDS系统不同频点与GPS组合定位性能,对BDS (B1I+B3I、B1C/B2a)+GPS (L1+L2)组合静态PPP (Precise Point Positioning)定位性能进行分析,并与单卫星系统对比分析.试验结果表明:BDS-3 (B1C/B2a)在East (E)、North (N)、Up (U)方向的定位精度优于1.25 cm、0.89 cm、1.67 cm,BDS-3新旧频点在E、N方向上定位精度与GPS L1/L2在同一水平上,U方向上新频点定位精度高于GPS L1/L2和BDS-3旧频点,较旧频点定位精度提升了34.2%,新频点收敛时间25.9 min比旧频点提升了12.7%;相较于BDS、GPS单系统,组合系统BDS/GPS定位精度和收敛时间有了明显的提高,BDS-3 (B1C/B2a)+GPS在E、N方向上与BDS-3 (B1I/B3I)+GPS定位精度相当,在U方向上定位精度前者较后者有了明显的提升,提升了17.2%,组合系统新频点收敛时间20.1 min比旧频点提升了17.6%.

BDS-3全球短报文2种低轨卫星几何法定轨

针对低轨卫星实时在线精密定轨难以获取实时改正数问题,提出基于北斗三号全球卫星导航系统(BDS-3)全球短报文播发距离改正数和状态空间表达(SSR)改正数的低轨卫星精密定轨方法。基于提出的距离改正数和SSR改正数编码播发方案,利用Swarm A卫星7 d星载全球卫星导航系统(GNSS)数据进行验证,从定轨精度以及处理效率2方面进行分析,结果表明:基于BDS-3全球短报文播发的改正数可以实现低轨卫星几何法定轨精度约为0.1 m,且基于SSR改正数的低轨卫星定轨精度优于距离改正数。非差非组合模型的定轨精度略优于无电离层(IF)组合定轨精度;当BDS-3全球短报文通信成功率为90%时,定轨精度下降约15%。在处理效率上,IF组合较非差非组合提升明显,2种方法在主频为1.6 GHz的个人笔记本上单历元处理时间均小于0.003 s。

BDS-3 B2b-PPP URA评估精化与播发方法

用户距离精度指数(URAI)作为导航系统定位服务完好性标识,在提供卫星可用性信息的同时,也反映了卫星的轨道钟差精度。本文提出将B2b电文中随轨道改正数播发的URAI信息恢复为用户距离精度(URA),并用于B2bPPP的随机模型构建。对其进行定位性能评估,发现B2b自身播发的URA精度较差。针对该问题,利用分布在中国及周边区域的多个全球卫星导航系统(GNSS)监测站对B2b的URA参数进行重估计。实验结果表明:精化后的URA能显著提升B2b-PPP的服务性能。相比于仅考虑观测噪声和高度角的随机模型,使用精化后的URA作为随机模型,动态和静态定位模式下的收敛时间提升分别达到18.9%、14.5%;收敛后定位精度提升分别达到11.2%、8.9%。在此基础上,进一步结合北斗卫星导航系统(BDS)短报文,提出一种精化后URA的播发方法,结合现有短报文通信效率进一步分析了精化URA的用户使用性能。

BDS-3卫星钟差改正数短期预报方法研究

针对RTS实时数据流产品在网络传输中存在的延迟以及数据中断等问题,文中结合BDS-3卫星钟差改正数的特点,分析实时数据流中BDS-3卫星钟差改正数的完整率和精度,提出一种基于一次差分和滑动时间窗口的残差修正钟差改正数短期预报模型。利用文中模型与一次多项式模型、基于一次差分的一次多项式模型和灰色模型进行BDS-3卫星钟差改正数预报精度的对比实验,结果表明,文中模型的预报精度最高,5 min、10 min、15 min和20 min的平均预报精度分别达到0.12 ns、0.14 ns、0.19 ns和0.20 ns,有效降低误差累积效应对预报精度的影响,对于RT-PPP的研究和应用具有重要的意义。

BDS-3单频三种差分定位方法的性能初步评估

为进一步分析北斗三号全球卫星导航系统(BDS-3)B3I、B1C、B2a和B1I单频差分定位精度,利用全球14个MGEX测站构成基线长度在30km以下的7条基线2022-09-01到2022-09-30共30d观测数据,在评估可视卫星数和信噪比基础上,初步评估了BDS-3B3I、B1C、B2a和B1I单频伪距差分、载波平滑伪距差分和载波相位差分定位精度。结果表明:数据质量方面,BDS-3B3I、B1C、B2a和B1I可见卫星数和信噪比基本符合解算需求;差分性能方面,B1C和B2a相当,B3I和B1I略差;伪距差分E、N、U方向优于0.6m,点位精度优于0.8m,单频平滑效果B1C优于B3I、B1I和B2a,在E、N、U方向分别平均提升21.34%、22.2%和17.17%。设置平滑值和原始伪距阈值定位精度得到较好的提升;BDS-3载波相位差分B3I定位精度优于7 cm,B1C定位精度优于5 cm,B2a定位精度优于6 cm,B1I定位精度优于5cm。总体定位精度随着基线长度逐渐下降,单频伪距差分定位精度达到分米级,载波平滑伪距中短基线定位精度相较于伪距差分能够提升40%,长基线提升20%,载波相位差分为用户提供厘米级定位精度。

Chinese GF-1 and GF-3 satellites observed the giant iceberg calving off the Larsen C Ice Shelf

A massive iceberg, named A-68 by National Ice Center （NIC） officially, calved away from the Larsen C Ice Shelf in Antarctica on luly 12, 2017. The iceberg A-68 is about 5 800 km2, weighs more than a trillion tons and it is one of the biggest ever recorded icebergs. Chinese satellites Gaofen-1 （GF-1） and Gaofen-3 （GF-3） data was used to monitoring the propagation of the rift and the iceberg by National Satellite Ocean Application Service （NSOAS）.

GPS/Galileo/BDS-3广播星历精度分析

为了分析当前GPS(Global Positioning System)、Galileo(Galileo Navigation Satellite System)和BDS-3(Beidou Navigation Satellite System with Global Coverage)广播星历的精度,详细分析研究了各种偏差改正及消除方法,并尽可能地消除了系统误差和粗差对评估结果的影响。选取2021-11-01/12-31共61天MGEX(multi-GNSS experiment)发布的多系统混合广播星历与武汉大学分析中心发布的事后精密星历数据进行实验,对GPS、Galileo和BDS-3近期广播星历精度进行对比分析,实验结果表明:3个系统广播星历整体精度由高到低依次是Galileo、BDS-3和GPS,其空间信号测距误差的RMS(root mean square)分别优于0.17、0.25和0.37 m,整体轨道精度的RMS分别优于0.17、0.12和0.25 m,BDS-3广播星历的轨道精度最高,钟差误差的RMS分别优于0.15、0.23和0.27 m,Galileo广播星历的钟差精度最高。对于GPS卫星的广播星历,blockⅢA卫星钟差和轨道精度均优于其他GPS类型卫星。

BDS-3不同频点双频组合伪距单点定位性能分析

北斗卫星导航系统(BDS)在进行双频单点定位时通常固定使用B1I和B3I频点组合。为充分探究BDS-3系统的定位潜力,针对BDS-3不同频点双频伪距单点定位(SPP)性能展开研究。推导了卫星差分码偏差(DCB)改正公式,并建立了BDS-3任意双频组合SPP数学模型。利用全球35个多模GNSS实验(MGEX)跟踪站121 d的实测数据,采用改进的RTKLIB软件进行了全球范围内BDS-3双频无电离层组合SPP解算实验。首先,对BDS-3的6种频点信号质量进行了全面评估,包括信噪比、多路径效应和数据可用率等指标。其次,对基于DCB改正的14种BDS-3双频伪距组合进行了性能对比。研究发现,在多路径误差、信噪比及数据完整率等多项指标上,B2ab信号质量最高,B2b与B2a其次,B3I与B1C次之,B1I表现较差。在BDS-3的14种不同双频组合SPP性能比较中,基于DCB改正的定位精度明显优于未加DCB改正的情况。DCB改正相对未改正可以将三维精度由14.9~31.2 m显著减小到1.7~15.5 m。受无电离层双频组合模型噪声放大系数的影响,最优组合为B1C&B2a,最差组合为B2a&B2ab,两者数值分别为1.7 m与15.5 m。以上结论可以为BDS-3伪距定位在车载导航等方面的应用提供参考。

A Parallel Discrete Event Simulation Engine for the Low-Earth-Orbit Satellite Constellation Networks

Low-Earth-Orbit satellite constellation networks(LEO-SCN)can provide low-cost,largescale,flexible coverage wireless communication services.High dynamics and large topological sizes characterize LEO-SCN.Protocol development and application testing of LEO-SCN are challenging to carry out in a natural environment.Simulation platforms are a more effective means of technology demonstration.Currently available simulators have a single function and limited simulation scale.There needs to be a simulator for full-featured simulation.In this paper,we apply the parallel discrete-event simulation technique to the simulation of LEO-SCN to support large-scale complex system simulation at the packet level.To solve the problem that single-process programs cannot cope with complex simulations containing numerous entities,we propose a parallel mechanism and algorithms LP-NM and LP-YAWNS for synchronization.In the experiment,we use ns-3 to verify the acceleration ratio and efficiency of the above algorithms.The results show that our proposed mechanism can provide parallel simulation engine support for the LEO-SCN.

Influences of Earth Incidence Angle on FY-3/MWRI SST Retrieval and Evaluation of Reprocessed SST

Sea surface temperature(SST)is a crucial physical parameter in meteorology and oceanography.This study demonstrates that the influence of earth incidence angle(EIA)on the SST retrieved from the microwave radiation imager(MWRI)onboard FengYun-3(FY-3)meteorological satellites should not be ignored.Compared with algorithms that do not consider the influence of EIA in the regression,those that integrate the EIA into the regression can enhance the accuracy of SST retrievals.Subsequently,based on the recalibrated Level 1B data from the FY-3/MWRI,a long-term SST dataset was reprocessed by employing the algorithm that integrates the EIA into the regression.The reprocessed SST data,including FY-3B/MWRI SST during 2010-2019,FY-3C/MWRI SST during 2013-2019,and FY-3D/MWRI SST during 2018-2020,were compared with the in-situ SST and the SST dataset from the Operational Sea Surface Temperature and Ice Analysis(OSTIA).The results show that the FY-3/MWRI SST data were consistent with both the in-situ SST and the OSTIA SST dataset.Compared with the Copernicus Climate Change Service V2.0 SST,the absolute deviation of the reprocessed SST,with a quality flag of 50,was less than 1.5℃.The root mean square errors of the FY-3/MWRI orbital,daily,and monthly SSTs,with a quality flag of 50,were approximately 0.82℃,0.69℃,and 0.37℃,respectively.The primary discrepancies between the FY-3/MWRI SST and the OSTIA SST were found mainly in the regions of the western boundary current and the Antarctic Circumpolar Current.Overall,this reprocessed SST product is recommended for El Niño and La Niña events monitoring.

Fitting of magnetic measurements of Swarm satellites based on 3D surface spline model

This study utilizes the 62208000 Swarm satellite data to establish a high-precision main magnetic field at the height of the satellites in China and its adjacent regions.The CHAOS-6 model is used to remove the crustal and external fields and obtain 2788 main field grid data.We use the main field grid data to build a three-dimensional(3D)surface spline(3DSS)model of the satellite altitude in China.Other regional models(namely the 3D,two-dimensional(2D)Taylor,and 2D surface spline models)and the CHAOS-6 model are employed to model and analyze the same region.The results show that the 3DSS model can represent a good fi tting for the northward(X)and eastward(Y)components and the total intensity(F).This model demonstrates the most stable results for the 20 points that did not take part in the modeling.Compared with the other three regional models,the root–mean–square error values and the average residuals of the new model are approximately 65%and 69%lower for each component,respectively.This study does not rely on ground station data to derive a more accurate regional main fi eld model.The results further show that less data height difference and high-density data distributions greatly improve the regional model accuracy.The new model has a certain application value to related space geophysics,such as in spatial positioning and navigation,and to the study of regional magnetic anomalies.