航天测量船

航天测量船航天测量船
  1. 航天测量船INS/GPS/DVL组合导航系统容错滤波方法

    Fault-tolerance filtering of TT & C ship 's INS / GPS / DVL integrated navigation

  2. 针对远洋航天测量船设备系统复杂、布局分散的特点,提出了利用虚拟仪器(VI)技术建立测量船网络化状态监测系统的方案。

    According to the characteristics of complex system and dispersive layout in oceanic tracking ship , the plan to establish network status monitoring system by using virtual instrument technology was put forward in this paper .

  3. 航天测量船船摇数据特性分析

    Characteristics analysis on spacecraft TT & C ship swaying data

  4. 基于模糊卡尔曼滤波器的航天测量船组合导航系统

    Combined Navigation System of Astronautic Measurement Ship Based for Fuzzy Kalman Filter

  5. 航天测量船综合业务传输平台的体制研究

    Research on the Integrated Services Transmission Platform Mechanism on the Space Instrumentation Slip

  6. 航天测量船数字广播电视系统的设计构想

    Design of Digital CATV System on Aerospace Survey Ships

  7. 航天测量船电子海图生成技术

    Electronic Chart Producing Technology Applied in TTC Ship

  8. 航天测量船码头动态水平标校的数据处理与精度

    Datum Processing and the Accuracy of Dynamic Horizontal Calibration of Docking Space Survey Vessel

  9. 它是在远望船队之中最先进和性能最好的航天测量船。

    It is the most advanced and capable space tracking ship among the Yuanwang fleet .

  10. 重点考察研究了船体变形数据对航天测量船外测数据和外测定轨的影响。

    The paper emphatically studies the effect of instrumentation ship hull deformation on its tracking data and orbit determination .

  11. 航天测量船工况设计是海上测控方案设计中最为重要也是最为复杂的一部分。

    The operating condition design of the tracking ships is the most important and complicated part in marine TT & C project design .

  12. 船载经纬仪是远洋航天测量船导航定位系统专用光学测量设备。

    The theodolite designed for measure ship is a special optical equipment based on TV tracking and measuring for the use of navigation orientation system .

  13. 航天测量船外测数据中蕴含有复杂的变形和船摇周期,增加了数据检择难度。

    The measured data by space tracking ship contain complicated ship deformation and ship-swaying period , which cases the difficulty to process the abnormal values .

  14. 航天测量船惯导码头标校系统的结果处理是采用与惯导相应测量值作差统计处理的方法求出相应的惯导平台系统偏差。

    The result processing of the docking calibration of the INS in the spacecraft TT & C ship is the method of statistical processing which evaluates the corresponding system deviation of the INS platform by subtracting the measured corresponding datums of the INS .

  15. 从新一代航天测量船建造的需求出发,讨论了当前数字有线电视与网络电视的优缺点,论证了航天测量船广播电视系统应采取的技术体制。

    According to the requirements for construction of the new generation of aerospace survey ships , we analyze the advantages and disadvantages of the digital cable TV and IPTV , and demonstrate the technologic system the CATV system on aerospace survey ships should be used .

  16. 简要介绍了航天测量船船体变形测量系统的基本构成、测量原理和测量元素,分析了变形测量数据的基本特性,给出了船载外测数据船体变形修正的方法和计算公式;

    This paper briefly introduces the basic structure , measuring theory and measuring elements of instrumentation ship hull deformation measuring system , analyzes the basic characteristics and also presents modification methods and calculation formulas of ship-borne tracking data measured while the ship under deformation conditions .

  17. 讨论了航天测量船测控系统结构总体设计,包括天线布局、机房布局、供电、照明、接地、电缆的分类及布局、关键结构问题等方面,并给出了解决方案。

    The TT C system structure overall design for space TT C ships is discussed , including antenna layout , computer room layout , power supply , lighting , grounding , cable types and layout , and key structure challenges , and some solutions are provided .

  18. 开发航天测量船中心计算机实时监控专家系统,是为了监控中心计算机系统在任务中的运行状态,以提高整个系统的实时性和可靠性。

    We design and develop the Real-time Monitor and Control Expert System based on the Center Computer System of Spaceflight Tracking & Control Ship in order to monitor and control the fault in the Center Computer System , and so , to raise the real-time response and the reliability .