The deep integration of pseudorange,delta range,double differenced carrier phase with inertial system are completed by using delayed state kalman filter in the paper.
利用滞后状态卡尔曼滤波将伪距、伪距增量以及载波相位双差同INS进行了深组合,仿真结果表明该组合导航系统不仅精度高,而且对解决惯导的对准问题具有突出的作用。
Retardation Measurement by Interference Method;
干涉法测量双折射相位差
Cycle-Slip of Carrier Phase Double-Difference Based on Wavelet Analysis
基于小波分析的载波相位双差周跳检测
A new method of estimating stochastic model of GPS double-differenced carrier phase observables
GPS载波相位双差观测量随机模型估计的新方法
Phase Error Analysis on EBPSK Carrier Synchronization
EBPSK载波同步中的相位误差分析
Carrier Phase Smoothed Pseudorange and Its Application in DGPS
载波相位平滑伪距及其在差分定位中的应用
Performance Analysis of a Differenced Autocorrelation Phase Based Carrier Frequency Recovery Algorithm
基于自相关相位差的载波恢复算法的性能分析
Algorithms Research of Integrated GPS、DR Land Vehicle Navigation System Based on Difference of Carrier Phase;
基于载波相位差分的车载GPS、DR组合定位系统算法研究
Research on Orientation Determination Technology Using Bi-Satellite System Based on Carrier Phase Interferometry
基于载波相位干涉测量的双星定向技术研究
Study on the Combination Method of GPS Dual-Frequency Carrier Phase Cycle Slips Detection
GPS双频载波相位周跳探测的组合方法研究
phase comparison carrier relay
相位比较式载波继电器
subcarrier phase correcting steps
副载波相位校正梯级
Study on Code Multi-Path Mitigation by Phase-Aided Smoothing Algorithm
载波相位辅助消除伪码多径误差的算法研究(英文)
Detection and Repairing for Cycle Slips Using Dual Frequency Carrier-phase Observation Data
综合利用双频载波相位观测值进行周跳的探测与修复
Measurement of the carrier-envelope phase stability of infrared femtosecond laser pulses by two-path interferometer
双光路测量红外飞秒激光脉冲的载波包络相位稳定性
Precise processing of deformation information based on the combined dual frequency carrier phase observation
基于双频载波相位组合的变形信息逐步精化方法
Research and Simulation on the Positioning Arithmetic with GPS Carrier Phase;
GPS载波相位定位算法研究与仿真
Research on the Kinematic Positioning Technique with GPS Carrier Phase Measurements;
GPS动态载波相位测量定位技术研究
Accuracy Analysis of Carrier Phase Smoothing Pseudorange Single Point Positioning
载波相位平滑伪距单点定位精度分析
Precise Location by Radio Phase Detecting Technology;
利用无线电波的相位差实现精确定位
