Accounting for Modal Excitability and Bone Porosity in Ultrasonometric Osteoporosis Diagnostics
Day on Diffraction 2021
2021
O. Ermolenko,
S. Ermolenko,
E. Glushkov,
N. Glushkova,
Aleksejs Tatarinovs
The present work is focused on the analytically based simulation of ultrasonic guided waves (GWs) piezo-electrically generated in samples mimicking waveguide properties of tubular bones. The studies are aimed to identify signs predicting osteoporosis. The developed computer models are based on the explicit GW representations in terms of the inverse Fourier transform path integrals of the waveguide’s Green matrix and the residue technique for GW extraction.
Keywords
Osteoporosis , Analytical models , Transmission line matrix methods , Fourier transforms , Diffraction , Computational modeling , Bones
DOI
10.1109/DD52349.2021.9598752
Hyperlink
https://ieeexplore.ieee.org/document/9598752
Ermolenko, O., Ermolenko, S., Glushkov, E., Glushkova, N., Tatarinovs, A. Accounting for Modal Excitability and Bone Porosity in Ultrasonometric Osteoporosis Diagnostics. In: Day on Diffraction 2021, Russia, St. Petersburg, 31 May-4 Jun., 2021. Piscataway: IEEE, 2021, pp.36-41. ISBN 978-1-6654-1090-8. e-ISBN 978-1-6654-1089-2. Available from: doi:10.1109/DD52349.2021.9598752
Publication language
English (en)