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相对差分单向测距(△DOR)是一种高精度测角技术,在深空探测任务的高精度测定轨方案中得到广泛应用.介绍了△DOR测量的基本原理及CCSDS(国际空间数据系统委员会)关于△测量的相关标准.针对中国探月工程月面软着陆任务提出的高精度测定轨要求,分析了△DOR测量的信号形式、工作模式以及测量精度,推导了解模糊过程.研究表明,△DOR测角精度达到25nrad,对应到月球上的距离约为10m. 相似文献
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Songtao Han Axel Nothnagel Zhongkai Zhang Rüdiger Haas Qiang Zhang 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2019,63(5):1754-1767
Extracting the group and phase delays of interferometric observations produced in the Very Long Baseline Interferometry (VLBI) measurement concept requires a special fringe fitting and delay search algorithm for the recorded bandwidth. While fringe fitting is in use routinely for several megahertz wide channels in geodetic and astrometric VLBI with quasar observations, fringe fitting for artificial tones of very small bandwidth of artificial signals for Differential One-way Ranging (DOR) requires a different way of handling. In a project called Observing the Chang’E-3 Lander with VLBI (OCEL), the DOR tones emitted by the Chang’E-3 lander were observed in a standard geodetic VLBI mode with 8 or 4?MHz wide channels to maintain compatibility with the corresponding quasar observations. For these observations, we modified the existing fringe fitting program of the Haystack Observatory Processing Software (HOPS), fourfit, to properly handle narrow band DOR tones. The main motivations are that through this modification, the data of quasars and artificial radio sources can be processed in the existing geodetic analysis pipeline, and that the algorithm can be used for similar projects as well. In this paper, we describe the algorithm and show that the new algorithm produces much more reliable group delay results than using the standard fourfit algorithm. This is done by a simulation test and in particular by processing of real observations. It is shown that in many cases, systematic deviations of several nanoseconds, which are seen with the standard fourfit algorithm, can be avoided. The ultimate benefit of the new procedure is demonstrated by reducing the errors in delay triangle closures by at least a factor of 3, which, in the OCEL case, is from ~300 to ~100?ps. 相似文献
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甚长基线干涉测量(VLBI)是深空探测器导航定位的重要手段之一,深空探测器的VLBI观测通常采用差分单程测距(DOR)信标和双差单程测距(Delta-DOR)测量体制,精确地测量深空探测器相对于河外射电源的角距.相位杂散是影响Delta-DOR测量精度的主要误差源之一,针对这项误差研究了一种基于伪随机噪声调制方式的新型... 相似文献
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详述了DOR(差分单向测距)信号的本地相关处理方法。首先根据轨道预报确定先验时延模型值,利用高精度频率估算方法估计航天器DOR信号的星上发射频率,然后通过时延模型值与频率估计值构造DOR本地模型信号,再将此模型信号分别与测站接收的DOR实测信号进行互相关运算,提取相关相位,解算高精度时延观测量。推导了DOR信号本地相关处理的数学模型,通过信号仿真验证了该方法的有效性,在仅考虑系统噪声影响与轨道预报误差的条件下,仿真时延测量精度达到0.1 ns,为深空航天器精密轨道测量提供了一种可借鉴的技术方法。 相似文献
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针对深空探测器常用下行信号体制,结合无线电干涉测量特点,提出了一种基于探测器DOR信标信号和数传信号融合处理的干涉测量方法。该方法首先通过相关处理得到DOR信号和数传信号的差分相位,利用DOR信号进行带宽综合得到时延估计,并构建时延模型;然后,利用时延模型得到DOR信号与数传信号在数传载波处的相位差,并以此对数传信号差分相位进行补偿;最后,利用DOR信号差分相位和补偿后的数传信号差分相位进行带宽综合,实现高精度干涉测量。深空探测网数据处理结果表明融合处理后时延估计随机误差明显降低;但受介质时延误差影响,融合处理对系统时延精度的改善幅度有所减小。该方法仅通过改进干涉测量数据处理方法即实现了时延估计随机误差的改善,不仅提高了信号使用效率,而且增强了航天测控系统的鲁棒性,在应急测控背景下具有特殊意义。 相似文献
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