Network based real-time precise point positioning

Network based real-time precise point positioning system includes two stages, i.e. real-time estimation of satellite clocks based on a reference network and real-time precise point positioning thereafter. In this paper, a satellite- and epoch-differenced approach, adopted from what is introduced by Han et al. (2001), is presented for the determination of satellite clocks and for the precise point positioning. One important refinement of our approach is the implementation of the robust clock estimation. A prototype software system is developed, and data from the European Reference Frame Permanent Network on September 19, 2009 is used to evaluate the approach. Results show that our approach is 3 times and 90 times faster than the epoch-difference approach and the zero-difference approach, respectively, which demonstrates a significant improvement in the computation efficiency. The RMS of the estimated clocks is at the level of 0.1 ns (3 cm) compared to the IGS final clocks. The clocks estimates are then applied to the precise point positioning in both kinematic and static mode. In static mode, the 2-h estimated coordinates have a mean accuracy of 3.08, 5.79, 6.32 cm in the North, East and Up directions. In kinematic mode, the mean kinematic coordinates accuracy is of 4.63, 5.82, 9.20 cm.     

应用iGMAS超快速星历的实时精密单点定位研究

中国主导建设的国际GNSS监测评估系统(iGMAS)相比国际上比较成熟的IGS系统在产品精度等方面存在差别,目前实时精密单点定位应用多采用IGS实时、近实时产品.为改变这一现状,针对iGMAS产品特性以及实时精密单点定位对超快速精密星历的需求,对iGMAS超快速星历的精度和稳定性方面进行评估,设计了iGMAS产品实时/...     

基于改进预测滤波的小天体精确着陆自主导航方法研究

针对小天体形状不规则、质量不均匀导致模型建立不准确的问题,研究基于改进的预测滤波实现自主着陆过程中精确导航的关键技术。在导航算法设计中,首先建立了小天体引力场模型,并建立了导航系统运动学模型,然后建立了基于惯性测量单元、光学相机及测速敏感器多信息融合的测量模型,结合扩展卡尔曼滤波(Extended Kalman Filter, EKF)算法对非线性预测滤波(Nonlinear Predictive Filter, NPF)算法进行改进,在该导航算法下,对系统的可观性进行了分析。仿真结果表明:在引力不确定性引起的模型不准确度下,该方法可实时估计模型误差,在与EKF导航精度比较的基础上验证了改进的NPF算法的有效性和精确性。     

精密进近阶段的多系统GNSS组合RAIM可用性算法及分析

给出了多系统全球卫星导航系统（GNSS）组合接收机自主完好性监测（ReceiverAutonomousIntegrityMonitoring,RAIM）可用性计算方法,在此基础上利用GPS、GLONASS实测数据与BDS、Galileo全星座仿真数据,分析了BDS、GPS、GLONASS和Galileo不同组合在精密进近阶段的RAIM可用性。通过试验分析发现,BDS的5颗地球同步轨道卫星和3颗倾斜地球同步轨道卫星对亚洲、非洲和欧洲大部分地区的RAIM可用性有很大的贡献。这些地区站星间几何观测结构得到改善,使得RAIM可用性相对于其他地区有很大幅度的提升。在亚太地区APV-I阶段单系统导航情况下,北斗导航系统RAIM可用性达到99.5%,高于其他三个导航系统。在精密进近阶段（APV-I、APV-II和CAT-I）,BDS与其他导航系统（GPS、GLONASS和Galileo）的组合导航可以满足全球大部分区域的RAIM可用性需求,大多可达到100%。     

利用星载GPS数据进行海洋2A卫星快速精密定轨

针对海洋2A(HY2A)卫星快速精密定轨的需求,本文基于非差动力学方法,利用国际GNSS服务组织(IGS)和上海天文台GNSS数据处理中心（SHA）提供的超快速星历产品IGU和SHU,对HY2A卫星进行快速精密定轨研究。计算结果表明,以法国国家空间研究中心(CNES)提供的精密轨道作为参考轨道,联合超快速星历SHU和IGU的预报星历,可以确定径向厘米级精度的快速轨道。同时利用卫星激光测距（SLR）数据检核快速精密轨道,得到 SHU和IGU预报星历确定的快速精密轨道站星距方向残差的RMS分别为2.9和4.8cm。可见,利用SHU和IGU预报星历组合可以得到厘米级的快速精密轨道,对HY2A卫星的海洋环境监测和海洋灾害预警具有一定应用价值。     

航天器典型薄壁件精密加工技术研究

针对航天器典型薄壁件的加工变形问题,结合金属切削理论,从增刚度工艺设计、小应力装卡、小切削力加工等方面,对薄壁零件的精密加工技术进行了深入研究。精密加工实践证明,可以利用工艺手段增加制造过程中的零件刚度,减小加工变形,实现薄壁零件的精密加工。     

点火冲击波与药柱裂纹流固耦合作用机理数值模拟研究

流体计算采用基于非结构动网格的有限体积方法,结构计算采用分段精细时程积分方法,求解结构动力学有限元方程,流体计算和固体计算之间采用松耦合在不断运动的交界面上进行作用力和运动特性的传递,对固体火箭发动机点火形成的冲击波与药柱缺陷形成的弹性裂纹之间相互耦合作用过程进行了模拟。研究表明,作用在弹性裂纹上的冲击波载荷引起的壁面变形随时间变化明显,开始表现为撑开裂纹出口,随后出现了收缩出口撑开底部的瓶状;固体变形对冲击波在弹性狭缝内的压力波振荡影响较小,以前采用刚体模型得到的研究结论仍有指导意义。     

Satellite availability and positioning performance of uncombined precise point positioning using BeiDou-2 and BeiDou-3 multi-frequency signals

To realize the smooth transition from regional BeiDou Navigation Satellite System (BDS-2) to the global one (BDS-3), the integration of BDS-2 and BDS-3 is important for providing continuous, stable and reliable positioning, navigation and timing (PNT) services for global users. This work used 154 globally distributed multi-GNSS (Global Navigation Satellite System) experiment stations spanning 30 days to analyze the satellite availability and positioning performance of uncombined precise point positioning (UC-PPP) under current BDS-2 and BDS-3 constellations. We focused on three issues: the influence of BDS-3 receiver tracking abilities, the positioning performance among different areas, and the benefit of multi-frequency observations. The results show that the elliptical zone caused by poor BDS-2 satellite visibility is disappeared when the evenly distributed BDS-3 medium earth orbit satellites are introduced. When BDS-3 are integrated with BDS-2, the area with the Position Dilution of Precision (PDOP) less than 2 can be expanded to 75° S-75° N and 30° E-150° W. The positioning performance of BDS-3 and BDS-2/BDS-3 UC-PPP are seriously affected by the receiver tracking abilities of BDS-3 signals. When the maximum pseudo-random noise sequences (PRNs) of BDS-3 satellites tracked by stations are within 30 or 37, the positioning accuracy of static UC-PPP can be improved by 22.94% or 8.27% due to the integration of BDS-2 and BDS-3. Besides, the most improvement of BDS-2 and BDS-3 integration is achieved in Asia-Pacific regions, especially for the kinematic UC-PPP or the poor receiver tracking abilities of BDS-3. Similar to the multi-frequency BDS-2 UC-PPP, the benefit of multi-frequency signals for BDS-3 or BDS-2/BDS-3 UC-PPP is also non-vital. The three-dimensional positioning accuracy of BDS-2/BDS-3 multi-frequency UC-PPP in static mode and kinematic mode are 2.24 cm and 5.39 cm, while the corresponding convergence time are 49.62 min and 73.80 min, respectively. Compared with BDS-2, both the positioning accuracy and the convergence time of BDS-2/BDS-3 joint UC-PPP are improved by approximately over 50%, which indicates that BDS-3 has a great potential to provide high-quality PNT services as other global navigation satellite systems.     

低速通用飞机机翼低成本精细化设计

针对低速通用飞机升阻特性的低成本精细化设计,通过合理地简化模型,建立了一种将翼型升阻比曲线斜率作为附加设计约束的机翼工程优化设计方法。基于该优化设计方法,利用低成本快速设计分析工具开展了优化设计,并对设计方法及结果进行了风洞试验验证。试验结果表明,所提方法能够有效提高机翼最大升阻比,同时使最大升阻比对应的升力系数逼近巡航工况,进一步挖掘了低速通用飞机的经济性潜力。     

Contribution analysis of QZSS to single-frequency PPP of GPS/BDS/GLONASS/Galileo

The Quasi-Zenith Satellite System (QZSS) established by the Japan Aerospace Exploration Agency mainly serves the Asia-Pacific region and its surrounding areas. Currently, four in-orbit satellites provide services. Most users of GNSS in the mass market use single-frequency (SF) receivers owing to the low cost. Therefore, it is meaningful to analyze and evaluate the contribution of the QZSS to SF precise point positioning (PPP) of GPS/BDS/GLONASS/Galileo systems with the emergence of GNSS and QZSS. This study compares the performances of three SF PPP models, namely the GRoup and PHase Ionospheric Correction (GRAPHIC) model, GRAPHIC with code observation model, and an ionosphere-constrained model, and evaluated the contribution of the QZSS to the SF PPP of GPS/BDS/GLONASS/Galileo systems. Moreover, the influence of code bias on the SF PPP of the BDS system is also analyzed. A two-week dataset (DOY 013–026, 2019) from 10 stations of the MGEX network is selected for validation, and the results show that: (1) For cut-off elevation angles of 15, 20, and 25°, the convergence times for the static SF PPP of GLONASS + QZSS are reduced by 4.3, 30.8, and 12.7%, respectively, and the positioning accuracy is similar compared with that of the GLONASS system. Compared with the BDS single system, the convergence times for the static SF PPP of BDS + QZSS under 15 and 25° are reduced by 37.6 and 39.2%, the horizontal positioning accuracies are improved by 18.6 and 14.1%, and the vertical components are improved by 13.9 and 21.4%, respectively. At cut-off elevation angles of 15, 20, and 25°, the positioning accuracy and precision of GPS/BDS/GLONASS/Galileo + QZSS is similar to that of GPS/BDS/GLONASS/Galileo. And the convergence times are reduced by 7.4 and 4.3% at cut-off elevation angles of 20 and 25°, respectively. In imitating dynamic PPP, the QZSS significantly improves the positioning accuracy of BDS and GLONASS. However, QZSS has little effect on the GPS-only, Galileo-only and GPS/BDS/GLONASS/Galileo. (2) The code bias of BDS IGSO and MEO cannot be ignored in SF PPP. In static SF PPP, taking the frequency band of B1I whose multipath combination is the largest among the frequency bands as an example, the vertical component has a systematic bias of approximately 0.4–1.0 m. After correcting the code bias, the positioning error in the vertical component is lower than 0.2 m, and the positioning accuracy in the horizontal component are improved accordingly. (3) The SF PPP model with ionosphere constraints has a better convergence speed, while the positioning accuracy of the three models is nearly equal. Therefore the GRAPHIC model can be used to get good positioning accuracy in the absence of external ionosphere products, but its convergence speed is slower.