Global Positioning System; atomic clocks; error correction; radio receivers; BeiDou GEO satellite; BeiDou geostationary satellite; Beidou tracking stations; GPS signals; MGEX; Neil model; PCV; clock offset ionosphere-free linear combination calculation; cycle slip; dynamic orbit determination method; epoch-difference; external frequency reference; high-precision atomic clocks; high-precision carrier phase; hydrogen masers; iGMAS precise orbit; international GNSS monitoring-and-assessment system; multi GNSS experiment; multi GNSS receivers; outlier removal; precise common-view frequency transfer method; troposphere error correction; Accuracy; Clocks; Global Positioning System; Orbits; Receivers; Satellites; Time-frequency analysis; BeiDou; Common-View; GEO; frequency transfer;
机译:北欧卫星诱导的代码偏置变化对精确时间和频率传输的影响
机译:基于iGMAS网络的新一代北斗卫星(BeiDou-3)精确轨道确定的初步结果
机译:使用Beidou-2和Beidou-3多频信号进行外部精确点定位的卫星可用性和定位性能
机译:基于Beidou Geo卫星的精确常见频率传输方法
机译:莱昂纳多(Leonardo):基于卫星的滑坡敏感性地图绘制方法,结合了岩土工程边坡稳定性参数。
机译:单频全球定位系统(GPS)+北斗导航卫星系统(BDS)接收器的基于几何的时差载波相位(TDCP)周期滑移检测和修复方法
机译:基于iGmas网络的新一代北斗卫星(北斗-3)精确定轨的初步结果