PARAMETER ESTIMATION FOR OSCILLATORY SYSTEMS

Ashot A. Matevosyan; Aram G. Matevosyan

doi:10.46991/PYSU:A/2021.55.2.131

PARAMETER ESTIMATION FOR OSCILLATORY SYSTEMS

Authors

Ashot A. Matevosyan Department of Physics, The University of Cambridge
Aram G. Matevosyan Chair of Mechanics, YSU, Armenia

DOI:

https://doi.org/10.46991/PYSU:A/2021.55.2.131

Keywords:

statistical models, resonance, Bayesian methods, sampling, Stan

Abstract

Simple harmonic motion was investigated of a rotational oscillating system. The effect of dumping and forcing on motion of the system was examined and measurements were taken. Resonance in a oscillating system was investigated and quality factor of the dumping system was measured at different damping forces using three different methods. Resonance curves were constructed at two different damping forces. A probabilistic model was built and system parameters were estimated from the resonance curves using Stan sampling platform. The quality factor of the oscillating system when the additional dumping was turned off was estimated to be $Q = \num{71 \pm 1}$ and natural frequency $\omega_0 = \num{3.105 \pm 0.008}\, \si{\per\second}$.

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Published

2021-08-30

How to Cite

Matevosyan, A. A., & Matevosyan, A. G. (2021). PARAMETER ESTIMATION FOR OSCILLATORY SYSTEMS. Proceedings of the YSU A: Physical and Mathematical Sciences, 55(2 (255), 131–140. https://doi.org/10.46991/PYSU:A/2021.55.2.131