Title :
Stochastic and reactive methods for the determination of optimal calibration intervals
Author :
Nunzi, Emilia ; Panfilo, Gianna ; Tavella, Patrizia ; Carbone, Paolo ; Petri, Dario
Author_Institution :
Dipt. di Ingegneria Elettronica e dell´´Informazione, Univ. degli Studi di Perugia, Italy
Abstract :
The recommended length of calibration intervals of measurement instrumentation can be determined by means of several techniques. In this paper, three different methods are compared for the establishment of optimal calibration intervals of atomic clocks. The first one is based on a stochastic model and provides the estimation of the calibration interval also in the transient situation, while the others pertain to the class of the so-called reactive methods, which determine the value of the optimal interval on the basis of the last calibration outcomes. Algorithms have been applied to experimental data, and the obtained results have been compared in order to determine the most effective technique. Since the analyzed reactive methods present a long transient time, a new algorithm is proposed and applied to the available data.
Keywords :
atomic clocks; calibration; stochastic processes; Wiener process; atomic clocks; interval test method; measurement instrumentation; modified simple response method; optimal calibration intervals; reactive methods; stochastic methods; stochastic model; Algorithm design and analysis; Atomic clocks; Calibration; ISO standards; Instruments; Length measurement; Measurement standards; Stochastic processes; Testing; Time measurement; Calibration intervals; Wiener process; interval test method (ITM); modified simple response method (MSRM); simple response method (SRM);
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2005.851501
