The article proposes a mathematical model for analysing the accuracy features of devices for measuring the resonant frequency of oscillatory systems, including devices developed by one of the coauthors and traditional devices that are technically closer to known (prototypes) technologies. The developed mathematical model allows for the identification of additional factors that affect the accuracy of the final measurement result, as well as a comparison of the basic error in measuring the resonant frequency of oscillatory systems with concentrated and distributed parameters, taking into account the errors introduced by the device's constituent blocks. One of the co-authors prepared a study of devices for measuring resonant frequency, which includes a block diagram of the model, a block diagram of the algorithm, and tabular data, as well as tabular data of the results of comparative analysis in connection to traditionally known devices.
Author(s) Details
Zaal Azmaiparashvili
Department of Microprocessors and Measurement Systems, Faculty of Informatics and Control Systems, Georgian Technical University, Tbilisi, Georgia.
Nona Otkhozoria
Department of Microprocessors and Measurement Systems, Faculty of Informatics and Control Systems, Georgian Technical University, Tbilisi, Georgia.
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