Add to ORKGThe Allan variance is the key measure for stability analysis, a fundamental tool to establish the performances of atomic clocks, which are often critical elements in many applications, such as global navigation satellite systems (GNSS). In some applications, only frequency measurements with numerous missing data are available. Because of missing data, the resulting Allan variance can be dramatically different from the expected stability behavior.We have developed an Allan variance estimator which corrects this divergence. We show the effectiveness of our estimator by applying it to frequency measurements with up to 94.4% of missing data
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...
© 2015 IEEE.The Allan variance (AVAR) was introduced 50 years ago as a statistical tool for assessin...
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...
The ability of the Allan variance (AVAR) to identify and estimate the typical clock noise is widely...
Atomic clocks are essential elements in a variety of applications, such as global navigation satelli...
Allan variances and its related methods are commonly used to analyse a sequence of data in the time ...
In the paper the theory of the Allan-Variance (Two-Sample Variance) is given as a statistical charac...
The dynamic Allan variance (DAVAR) is a tool for the characterization of precise clocks. Monitoring ...
Due to their stability atomic clocks represent the core of navigation systems such as GPS and the fu...
International audienceThe Allan variance was introduced 50 years ago for analyzing the stability of ...
Minimum variance estimation requires that the statistics of random observation errors be modeled pro...
We present a method to derive velocity uncertainties from GPS position time series that are affected...
We analyze the Allan Variance estimator as the combination of Discrete-Time linear filters. We apply...
The Global Positioning System (GPS) Master Control Station (MCS) currently makes significant use of ...
The estimation criteria for solving parameters in zero-differenced GPS positioning is that observati...
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...
© 2015 IEEE.The Allan variance (AVAR) was introduced 50 years ago as a statistical tool for assessin...
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...
The ability of the Allan variance (AVAR) to identify and estimate the typical clock noise is widely...
Atomic clocks are essential elements in a variety of applications, such as global navigation satelli...
Allan variances and its related methods are commonly used to analyse a sequence of data in the time ...
In the paper the theory of the Allan-Variance (Two-Sample Variance) is given as a statistical charac...
The dynamic Allan variance (DAVAR) is a tool for the characterization of precise clocks. Monitoring ...
Due to their stability atomic clocks represent the core of navigation systems such as GPS and the fu...
International audienceThe Allan variance was introduced 50 years ago for analyzing the stability of ...
Minimum variance estimation requires that the statistics of random observation errors be modeled pro...
We present a method to derive velocity uncertainties from GPS position time series that are affected...
We analyze the Allan Variance estimator as the combination of Discrete-Time linear filters. We apply...
The Global Positioning System (GPS) Master Control Station (MCS) currently makes significant use of ...
The estimation criteria for solving parameters in zero-differenced GPS positioning is that observati...
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...
© 2015 IEEE.The Allan variance (AVAR) was introduced 50 years ago as a statistical tool for assessin...
The accepted definition of frequency stability in the time domain is the two-sample variance (or All...