导航通信融合定义、方式与典型系统

随着人们对定位安全和定位准确性要求的提升，仅仅依赖卫星导航系统已经不能满足用户在各种复杂环境下的个性化定位需求，在此背景下，通信导航一体化技术应运而生。移动通信网络具有覆盖广、用户数量大和安全保密性好等优点，将通信系统作为卫星导航系统的有效补充，可以有效提升导航系统的性能。导航通信融合技术已经成为导航领域未来发展的重要技术热点，但目前缺乏清晰的导通融合架构和导通融合方式。从导通融合的技术层面进行划分，提出了波形融合、信息融合、硬件融合三种导通融合方式，分析了通信系统的辅助信息对导航系统精度和抗干扰能力的影响，以及两种典型的导通融合系统的优缺点，并对其未来的发展进行了展望，补充了导航通信融合技术的基础理论，对导通融合技术的发展具有重大意义。     

导航卫星时频系统发展综述

全球各大卫星导航系统近年来发展迅速,性能持续提升,其中卫星时频系统的高性能、稳定可靠和保持星间时频同步是系统实现高精度测量的基础.介绍了目前应用于各卫星导航系统的铷钟、氢钟、铯钟等星载原子钟和时频生成与保持技术的特点、发展概况及在轨应用情况.面向精度提升和自主运行能力提升的需求,分析了可能应用于下一代导航卫星的星载原子钟技术、星上时频生成与保持单元性能提升方法以及星间高精度激光时频同步技术,以支撑未来时频基准的天基化和我国综合PNT体系的建设.     

Analysis on navigation accuracy of high orbit spacecraft based on BDS GEO and IGSO satellites

To make up for the insufficiency of earth-based TT&C systems, the use of GNSS technology for high-orbit spacecraft navigation and orbit determination has become a new technology. It is of great value to applying Geosynchronous Earth Orbit (GEO) and Inclined GeoStationary Orbit (IGSO) navigation satellites for supporting the navigation of high-orbit spacecraft since there are three different types of navigation satellites in BeiDou Navigation Satellite System (BDS): Medium Earth Orbit (MEO), GEO and IGSO. This paper conducts simulation experiments based on Two-Line Orbital Element (TLE) data to analyze and demonstrate the role of these satellites in the navigation of high-orbit spacecraft. Firstly, the spacecraft in GEO was used as the target satellite to conduct navigation experiments. Experiments show that for the spacecraft on the GEO orbit, after adding GEO and IGSO respectively on the basis of receiving MEO navigation satellite signals, the accuracies were improved by 7.22 % and 6.06 % respectively. When adding both GEO and IGSO navigation satellites at the same time, the accuracy can reach 16 m. In the second place, navigation and positioning experiments were carried out on three high elliptical orbit (HEO) satellites with different semimajor axis (32037.2 km, 42385.9 km, 67509.6 km). The experiments show that the number of visible satellites has been improved significantly after adding GEO and IGSO navigation satellites at the same time. The visible satellites in these three orbits were improved by 32.84 %, 41.12 % and 37.68 %, respectively compared with only observing MEO satellites.The RMS values of the navigation positioning errors of these three orbits are 25.59 m, 87.58 m and 712.48 m, respectively.     

Cooperative fault detection and recovery in the GNSS positioning of mobile agent swarms based on relative distance measurements

Relative measurements are exploited to cooperatively detect and recover faults in the positioning of Mobile Agent(MA) Swarms(MASs). First, a network vertex fault detection method based on edge testing is proposed. For each edge, a property that has a functional relationship with the properties of its two vertices is measured and tested. Based on the edge testing results of the network, the maximum likelihood principle is used to identify the vertex fault sources. Second, an edge distance testing...     

空天飞行器星敏感器安装误差在线标定方法

空天飞行器高动态、长航时的运动特性可能导致一体化安装的惯性/天文组合导航系统中星敏感器与惯导间产生安装误差角。设计了一种星敏感器安装误差角动态辨识方法,建立了星敏感器安装误差角模型,设计了基于天文角度观测的星敏感器安装误差角动态辨识方案,分析了不同机动飞行方式下星敏感器安装误差角的可观测度。仿真结果表明,所设计的基于卡尔曼滤波的动态辨识方法能够在飞行器机动过程中快速地对星敏感器安装误差角进行在线标定,对安装误差角的标定值可以达到实际误差值的85%以上,有效地提高了组合导航系统的精度。     

卫星授时与时间传递技术进展

近年来,卫星导航技术发展迅速.卫星导航系统以精密时间测量技术为基础,实现了伪距测量,进而实现定位.同时,卫星导航系统还提供了高精度授时功能.综述了卫星导航系统的授时和时间频率传递技术、基于通信卫星的授时技术以及双向卫星时间频率传递(TWSTFT)技术等.随着我国北斗卫星导航系统(BDS)的建成和提供服务,BDS授时应用...     

基于支持向量机的抗干扰决策技术

为了应对日益复杂的电磁环境，认知雷达的概念被引入电子战中。认知电子战系统包括认知侦察、认知对抗和认知效能评估3个重要环节。针对认知电子战系统对抗干扰决策技术的需求，为实现自适应的决策抗干扰措施，将支持向量机(SVM)算法运用于抗干扰决策中。仿真结果表明:基于SVM的抗干扰决策技术可以自适应地决策抗干扰措施，进行干扰对抗，该算法完成了认知电子战中的最后的一步，使认知电子战系统实现闭环。