Title :
Optimal Calibration Interval in Case of Integrated Brownian Behavior: The Example of a Rubidium Frequency Standard
Author :
Panfilo, Gianna ; Tavella, Patrizia ; Nunzi, Emilia ; Carbone, Paolo ; Petri, Dario
Author_Institution :
Ist. Elettrotecnico Nazionale Galileo Ferraris, Torino
Abstract :
In this paper, two different techniques are considered in order to determine the optimal calibration interval: the intervals that are obtained using a mathematical model and those that are calculated with an iterative technique referred to as a simple response method. It is shown that both techniques provide useful information for an accurate calibration of a rubidium frequency standard. The authors have chosen this example because the degradation of its calibration condition can be modeled by the use of a quite complex stochastic process called the integrated Brownian motion, which is also of interest in other different contexts. The rubidium frequency standard is diffused in industrial calibration laboratories
Keywords :
atomic clocks; calibration; frequency standards; rubidium; atomic clock errors; atomic clock survival probability; calibration interval; complex stochastic process; industrial calibration laboratories; integrated Brownian motion; rubidium frequency standard; simple response method; Atomic clocks; Calibration; Computer aided software engineering; Frequency; ISO standards; Instruments; Mathematical model; Measurement standards; Metrology; Stochastic processes; Atomic clock errors; atomic clock survival probability; calibration intervals; calibration reliability; integrated Brownian motion; simple response method;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2006.880277
