ISSN 2353-6977 (Online)
In this work, we present a computer simulation model that generates the propagation of sound waves to solve a forward problem in ultrasound transmission tomography. The simulator can be used to create data sets used in the supervised learning process. A solution to the "free-space" boundary problem was proposed, and the memory consumption was significantly optimized from O(n2) to O(n). The given method of simulating wave scattering enables the control of the noise extinction time within the tomographic probe and the permeability of the sound wave. The presented version of the script simulates the classic variant of a circular probe with evenly distributed sensors around the circumference.
- APA 7th style
Kania, K., Mazurek, M., & Rymarczyk, T. (2022). Application of finite difference method for measurement simulation in ultrasound transmission tomography. Applied Computer Science, 18(2), 101-109. https://doi.org/10.35784/acs-2022-16
- Chicago style
Kania, Konrad, Mariusz Mazurek, and Tomasz Rymarczyk. "Application of Finite Difference Method for Measurement Simulation in Ultrasound Transmission Tomography." Applied Computer Science 18, no. 2 (2022): 101-09.
- IEEE style
K. Kania, M. Mazurek, and T. Rymarczyk, "Application of finite difference method for measurement simulation in ultrasound transmission tomography," Applied Computer Science, vol. 18, no. 2, pp. 101-109, 2022, doi: 10.35784/acs-2022-16.
- Vancouver style
Kania K, Mazurek M, Rymarczyk T. Application of finite difference method for measurement simulation in ultrasound transmission tomography. Applied Computer Science. 2022;18(2):101-9.
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