澳航A380任悉尼获准使用GPS精密进近

前不久．快达航空公司的A380飞机已获准在悉尼国际机场使用霍尼韦尔公司的SmartPath陆基增强系统（GBAS）完成了GPS导航下的精密进近和着陆。     

GPS、MLS进近着陆性能比较

本文从着陆的定位精度，完善性，灵活性，可利用性比较了卫星导航全球定位系统（GPS）和微波着陆系统（MLS）在着陆性能上的差异，指出使用C／A码GPS目前还不满足精密进近着陆的要求，也不能完全取代MLS。GPS用于航路导航的技术日臻成熟，提高GPS用户设备精度，引导飞机精度密进近着陆，已成为GPS应用的热点和高技术。发展自己的卫星导航系统，GPS最终才有可能取代现有的陆基导航设备，完成通信，导航和监视系统（CNS）从陆基向星基的转移。     

卫星导航进近技术进展

全球卫星定位系统（GNSS）增强系统能提供全天候无间断的卫星导航信号，可以辅助飞机进行进近。本文介绍了全球卫星导航系统进近着陆系统的基本组成、工作原理和功能特点，并对国内外研究进展进行了阐述。针对GNSS进近研究中的热点问题，重点论述了地基增强系统（GBAS）、星基增强系统（SBAS）、用户自主完好性监测（RAIM）等技术的发展现状，指出了GNSS进近技术实际工程应用仍然存在的问题，探讨了GNSS进近技术未来的发展方向。     

卫星导航陆基增强系统设备许可体系研究

陆基增强系统(GBAS)是支持飞机精密进近的下一代无线电导航设备。目前,在世界上安装GBAS和提供GBAS服务的机场越来越多。中国已经研制了首套卫星导航GBAS着陆系统,然而并没有通过相关设备的认证许可,未投入实际的运行使用。因此,本文在分析FAA和Eurocontrol对GBAS设备许可的基础上,提出了一套完整的卫星导航路基增强系统设备许可体系的方案,为进行设备的认证许可提供引导,使得整个地面子系统满足安装选址要求、地面和飞行测试对功能和性能的验证要求,保证地面设备子系统经过安装调试后能够达到理想的工作状态。设备许可体系在未来卫星导航技术的发展中发挥着广泛的指导作用,有利于设备的运行、发展和管理。     

中低纬地区混合LEO星座增强GNSS UPPP收敛性能评估

针对全球卫星导航系统（GNSS）精密单点定位（PPP）收敛时间过长的问题，提出了利用低轨卫星（LEO）几何结构变化快的优势，增强GNSS非差非组合PPP（UPPP）的收敛性能。选取中低纬度地区28个能接收GPS、GALILEO和BDS3信号的测站观测数据，比较了极轨和混合LEO星座的增强效果。结果表明：混合LEO星座增强GPS、GALILEO和BDS组合系统时，各测站收敛时间减少60%~80%，70%的测站收敛速度优于极轨星座。当混合LEO星座增强单BDS时，CL和GCL组合系统的收敛时间相当，ENU方向定位误差变化基本一致。收敛时间从10~20 min 下降至3 min以内，原因是混合LEO增强BDS定位时，大大改善了卫星的空间结构。     

导航星座自主导航技术--自主星历更新

自主星历更新是导航星座自主导航的关键技术之一,包括卫星轨道精密确定和轨道短时预报两个方面的内容。本文在系统地论述导航星座自主导航的信息处理流程的基础上,重点提出星座卫星轨道精密确定的自适应Kalman滤波算法。系统仿真结果表明：通过星间双向测量数据的滤波处理,能够获得高精度的卫星星历和较小的用户测距误差（URE）,满足高精度导航定位需求,初步证明导航星座自主导航信息处理流程及其星历更新算法的合理性和可行性。     

GPS系统在飞机进场着陆导航中的应用及发展趋势

本文通过对国外最新资料的分析，介绍欧美等国利用GPS导航系统实现飞机进场着陆导航的研究及成果，并对我国民航陆基导航设备（如仅表着陆系统等）可能产生的影响加以阐述     

新一代航空VHF数据链技术

系统概要通信、导航和监视／空中交通管理（CNS／ATM）一体化的新航行系统，是建立在通信链路，卫星导航和自动相关监视（ADS）技术基础上的未来空中交通管理方案。1995年，国际民航组织通信专业大会提出，要求研究解决飞机航路导航，终端进近着陆和监视使用的数据链问题。近年来，国内外对新航行系统方案进行了一系列的理论研究和实验验证。力求在全球范围内以最优的方案实现卫星、飞机、地面系统等方面技术的结台，并使得新航行系统的技术开发者和用户都能从该新航行系统中获益最大。这便要求新航行系统技术的成果（如：机载／地面系…     

FANS航线和最短航线算法问题

一、引言采用陆基近程无线电导肮时，无方向信标台（NDB）、全向信标（VOR）、测距仪（DME）等都是对准或围绕着电台飞行，可以不管地球是方是圆，因为飞机位置只和电台位置相关。采用远程导航OMEGA定位系统有所不同，在其定位计算中要引入地球模型的球面计算。惯性导航是一种精密推测导航，卫星导航是星基无线电导航，按地理坐标绝对位置计算的定位解必须考虑地球的精密形体。特别是GPS精度达到数十米量级，远程导航对地球椭圆体的扁率影响应作适当考虑。区域导航规定其航线算法必须按大圆航线处理。新航行系统（FANS）开创了全球…     

利用GPS/INS导引飞机精密进场的数值仿真研究

建立了飞机进场的数学模型和导航观测器模型;确定了导引飞机精密进场的最优控制;以Airbus-300为例,给出了稳定的着陆窗口;计算了在GPS的各种定位精度范围内,从着陆窗口内开始着陆的飞机所能达到的等级;研究了GPS采样周期对飞机着陆精度的影响;分析了大气紊流和常值侧风对飞机着陆精度的影响。从计算和数值仿真结果得出了一些初步结论。     

GPS/BDS组合定位精度分析

随着定位技术的不断发展及多系统导航定位技术的逐步推广，多系统组合导航定位已经成为了GNSS导航定位领域中的主要发展趋势。主要阐述了GPS/BDS组合相对定位的观测方程和数学模型，并根据实测数据对比分析，从卫星可见性、精度因子、定位精度和均方根误差等方面对GPS、BDS及GPS/BDS组合定位系统的定位性能、定位精度进行了比较。研究结果表明，较单一的GPS和BDS系统定位，采用GPS/BDS组合定位可有效提高卫星可见数目和DOP值，且稳定性更好。GPS/BDS组合定位的定位精度也明显优于单一系统，这对GNSS高精度导航定位具有重要的参考价值。     

Dual smoothing ionospheric gradient monitoring algorithm for dual-frequency BDS GBAS

In this study, a Dual Smoothing Ionospheric Gradient Monitor Algorithm (DSIGMA) was developed for Code-Carrier Divergence (CCD) faults of dual-frequency Ground-Based Augmentation Systems (GBAS) based on the BeiDou Navigation Satellite System (BDS). Divergence-Free (DF) combinations of the signals were used to form test statistics for a dual-frequency DSIGMA. First, the single-frequency DSIGMA was reviewed, which supports the GBAS approach service type D (GAST-D) for protection against the effect of large ionospheric gradients. The single-frequency DSIGMA was used to create a novel input scheme for the dual-frequency DSIGMA by introducing DF combinations. The steady states of the test statistics were also analysed. The monitors were characterized using BDS measurement data, whereby standard deviations of 0.0432 and 0.0639 m for the proposed two test statistics were used to calculate the monitor threshold. An extensive simulation was designed to assess the monitor performance by comparing the Probability of Missed Detection (PMD) according to the differential error with the range domain PMD limits under different fault modes. The results showed that the proposed algorithm has a higher integrity performance than the single-frequency monitor. The minimum detectable divergence with the same missed probability is less than 50% that of GAST-D.     

基于非合作LEO卫星辅助GNSS联合定位技术CSCD

针对全球导航卫星系统(GNSS)在受挑战的环境中,出现导航卫星信号被干扰或遮挡,导致可见卫星数目无法满足定位最低要求的情况。利用低轨(LEO)卫星具有信号到达地面功率高、抗干扰能力强,以及在未来将进行大量部署的特点,可为GNSS的导航服务提供备份与补充。提出了基于非合作LEO卫星辅助GNSS联合定位算法,不同于现有的LEO/GNSS联合定位算法将低轨卫星简单地视为轨道降低的导航卫星,该算法以LEO为通信卫星,从非合作、非导航特性的实际情况出发,将LEO的多普勒与GNSS的伪距、多普勒相结合求解用户位置信息,并以ORBCOMM低轨通信卫星联合GPS为例进行了仿真实验,实验结果验证了算法的可行性与性能。     

Impact of receiver inter-frequency bias residual uncertainty on dual-frequency GBAS integrity

Dual-Frequency Ground-Based Augmentation Systems (GBAS) can be affected by receiver Inter-Frequency Bias (IFB) when Ionosphere-Free (Ifree) smoothing is applied. In the framework of the proposed GBAS Approach Service Type F (GAST-F), the IFB in the Ifree smoothed pseudorange can be corrected. However, IFB residual uncertainty still exists, which may threaten the integrity of the system. This paper presents an improved algorithm for the airborne protection level considering the residual uncertainty of IFBs to protect the integrity of dual-frequency GBAS. The IFB residual uncertainty multiplied by a frequency factor is included in the Ifree protection level together with the uncertainty of other error sources. To verify the proposed protection level algorithm, we calculate the IFB residual uncertainties of ground reference receivers and user receiver based on BDS B1I and B3I dual-frequency observation data and carry out a test at the Dongying Airport GBAS station. The results show that the proposed Ifree protection level with IFB residual uncertainty is 1.48 times the current protection level on average. The probability of Misleading Information (MI) during the test is reduced from 3.2 × 10^?4 to the required value. It is proven that the proposed protection level can significantly reduce the integrity risk brought by IFB residual uncertainty and protect the integrity of dual-frequency GBAS.     

Orbit ephemeris monitors for local area differential GPS

Methodologies sufficient to monitor GPS satellite orbit ephemeris for category I aircraft precision approach navigation are described. In the absence of a satellite maneuver, it is shown that a monitor based on the projection of previously validated ephemeris parameters is adequate to meet navigation integrity and availability requirements. After scheduled stationkeeping maneuvers, no previously validated ephemerides are available, so a measurement-based method is required. The feasibility of such a monitor is also established.     

GNSS双频导航信号用户完好性监测机制研究

用户完好性监测指标通常被用于衡量导航信息的可信度,针对单个卫星导航系统用户完好性监测指标过高、可用性较差的问题,提出一种全球导航卫星系统(GNSS)多系统双频信号联合完好性监测机制,该监测机制使用一定完好性风险分配值下的保护门限作为联合观测下的监测指标;另外,为了确保各种监测假设下的用户完好性,分别讨论了无故障及一颗卫星故障假设下的伪距观测误差获取、保护门限计算以及完好性风险指标分配等问题。仿真结果表明该用户监测机制可有效降低保护门限、提高可用性,在用于I类精密进近时全球大部分区域用户的可用性水平大于95%。     

利用改正数信息的北斗三号实时精密单点定位及性能分析

北斗三号全球卫星导航系统已正式建成并开通服务。为了利用实时改正数信息系统地揭示北斗三号精密单点定位性能，并为用户提供理论依据和应用参考，首先解算了卫星实时精密轨道、钟差及其改正数，分析了其精度。然后基于实时改正数信息，利用监测站广播星历和观测数据，分别进行了双频静态、双频仿动态、单频静态和单频仿动态仿实时精密单点定位，以评估其性能。结果表明：北斗三号MEO卫星实时轨道和钟差精度均值分别约为12cm和0.2ns，满足实时精密单点定位需求。静态实时精密单点定位精度优于动态，双频优于单频，均可达到分米级。对于定位收敛时间，双频静态最短，约为40min；双频动态和单频静态均约为85min；单频动态最长，约为120min。     

Precise orbit determination for TH02-02 satellites based on BDS3 and GPS observations

The Tianhui-2 02 (TH02-02) satellite formation, as a supplement to the microwave mapping satellite system Tianhui-2 01 (TH02-01), is the first Interferometric Synthetic Aperture Radar (InSAR) satellite formation-flying system that supports the tracking of BeiDou global navigation Satellite system (BDS3) new B1C and B2a signals. Meanwhile, the twin TH02-02 satellites also support the tracking of Global Positioning System (GPS) L1&L2 and BDS B1I&B3I signals. As the spaceborne receiver employs two independent boards to track the Global Navigation Satellite System (GNSS) satellites, we design an orbit determination strategy by estimating independent receiver clock offsets epoch by epoch for each GNSS to realize the multi-GNSS data fusion from different boards. The performance of the spaceborne receiver is evaluated and the contribution of BDS3 to the kinematic and reduced-dynamic Precise Orbit Determination (POD) of TH02-02 satellites is investigated. The tracking data onboard shows that the average number of available BDS3 and GPS satellites are 8.7 and 9.1, respectively. The carrier-to-noise ratio and carrier phase noise of BDS3 B1C and B2a signals are comparable to those of GPS. However, strong azimuth-related systematic biases are recognized in the pseudorange multipath errors of B1C and B3I. The pseudorange noise of BDS3 signals is better than that of GPS after eliminating the multipath errors from specific signals. Taking the GPS-based reduced-dynamic orbit with single-receiver ambiguity fixing technique as a reference, the results of BDS3-only and BDS3 + GPS combined POD are assessed. The Root Mean Square (RMS) of orbit comparison of BDS3-based kinematic and reduced-dynamic POD with reference orbit are better than 7 cm and 3 cm in three-Dimensional direction (3D). The POD performance based on B1C&B2a data is comparable to that based on B1I&B3I. The precision of BDS3 + GPS combined kinematic orbit can reach up to 3 cm (3D RMS), which has a more than 25% improvement relative to the GPS-only solution. In addition, the consistency between the BDS3 + GPS combined reduced-dynamic orbit and the GPS-based ambiguity-fixed orbit is better than 1.5 cm (3D RMS).