Title :
Reduced Models of Arterial Systems
Author :
Toy, Stephanie M. ; Melbin, Julius ; Noordergraaf, Abraham
Author_Institution :
Cardiovascular Studies Unit, Departments of Bioengineering and Animal Biology, University of Pennsylvania
Abstract :
Simple models that manifest input impedances of arterial systems are compared. An improvement upon documented two-, three-, and five-element models is presented. The classical two-element model (the windkessel) accounts for the lowest frequency components, and the three-element model (the modified windkessel) accounts for both low-and high-frequency components of the spectrum of interest. Five-element models, however, by allowing for reflection, can account for principal features over the entire frequency range of interest.
Keywords :
Blood pressure; Educational institutions; Frequency; Heart; Immune system; Impedance; Protection; Reflection; Reservoirs; Smoothing methods; Arteries; Electric Conductivity; Humans; Models, Cardiovascular;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.1985.325439
