Posing human virtual 3D models and analyzing the impact of low-frequency magnetic field on them

Author: Giorgi Korkotadze
Co-authors: Ani Mamniashvili, Alexander Kvirikadze
Keywords: Virtual human model, Magnetic field
Annotation:

Electromagnetic fields have the potential to have an impact on the living environment, which can have an impact on the design of any electrical appliance depending on that impact factor. The analysis of the effects of electromagnetic fields on living organisms can be carried out in two ways: the first is to conduct an experiment directly, and the second is a computer simulation. When it comes to the human body and its state of health, it is better to abandon the real experiment and use a completely safe approach - computer simulation. Numerous leading companies and universities around the world are working in this direction and they use various software for virtual modeling. In our project, we used the EMCoS Studio software package and its low-frequency magnetic field solver LFMF (Low-Frequency-Magnetic-Field) for modeling. As part of the bachelor project, we obtained a virtual human model, as well as provided their processing, and adapted the model to an individual skeleton, which can be used to change the physical condition of the model (provides a model that can be used in different types of tasks), We took into account the dielectric characteristics of the bodies in order to model the 3D human body realistically, and finally conducted several numerical experiments within the project and analyzed the results according to the international ICNIRP-2010 guideline. It is also noteworthy that we have created a MATLAB script that allows users to visualize posed models.