Mixed Quantitative/Qualitative Modeling and Simulation of the
Cardiovascular System
Keywords
- Cardiovascular System
- Inductive Reasoning
- Fuzzy Systems
- Quantitative/Qualitative Modeling
Abstract
The cardiovascular system is composed of the hemodynamical system and
the Central Nervous System (CNS) control. Whereas the structure and
functioning of the hemodynamical system are well known and a number of
quantitative models have already been developed that capture the
behavior of the hemodynamical system fairly accurately, the CNS control
is, at present, still not completely understood and no good deductive
models exist that are able to describe the CNS control from physical
and physiological principles. The use of qualitative methodologies may
offer an interesting alternative to quantitative modeling approaches
for inductively capturing the behavior of the CNS control. In this
paper, a qualitative model of the CNS control of the cardiovascular
system is developed by means of the Fuzzy Inductive Reasoning (FIR)
methodology.
Fuzzy inductive reasoning is a fairly new modeling technique that is
based on the General System Problem Solving (GSPS) methodology
developed by G. Klir. Previous investigations have demonstrated the applicability of this approach to modeling and simulating systems, the
structure of which is partially or totally unknown.
In this paper, five separate controller models for different control
actuations are described that have been identified independently using
the FIR methodology. Then the loop between the hemodynamical system,
modeled by means of differential equations, and the CNS control,
modeled in terms of five FIR models, is closed, in order to study the
behavior of the cardiovascular system as a whole. The model described
in this paper has been validated for a single patient only.
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Last modified: December 13, 2011 -- © François Cellier