Psychological Fluid Systems Modelling for Non-Invasive Investigation
Klara Capova, Vladimir Blazek, Ivo Cap, Lydia Buckuliakova
DOI:
Abstract
The paper deals with the modelling and simulation of physiological fluid systems, especially the human vascular system. The described procedures are based on the electron~echanical analogy making possible the application of electromagnetic theory. The physiological fluid segments are represented by the analogical equivalent electric transmission line sections. According to this analogy the electromagnetic propagation characteristics describe the mechanical properties of flowing fluids. The introduced modelling and simulation procedures enable to describe and visualize all states of dynamics of physiological processes, especially of the human haemodynamics. The obtained results serve as an important tool for non-invasive computer aided diagnostics.