Cardiovascular and Respiratory Systems: Modeling, Analysis, and Control

@inproceedings{Batzel2006CardiovascularAR,
  title={Cardiovascular and Respiratory Systems: Modeling, Analysis, and Control},
  author={Jerry J. Batzel and Franz Kappel and Daniel Schneditz and Hien T. Tran},
  year={2006}
}
Preface 1. The cardiovascular system under an ergometric workload 2. Respiratory modeling 3. Cardio-Respiratory Modeling 4. Blood volume and the venous system 5. Future directions Appendix A. Supplemental calculations B. A Nonlinear feedback law C. Retarded functional differential equations: Basic theory Bibliography Index. 
An integrated mathematical model of the cardiovascular and respiratory systems
TLDR
This study incorporates a sophisticated gas dissociation and transport system to a fully integrated cardiovascular and pulmonary model and provides physiologically consistent predictions in terms of hemodynamic variables such as pressure, flow rate, gas partial pressures, and pH.
Modeling the Dynamics of the Cardiovascular-respiratory System (CVRS) in Humans, a Survey
TLDR
A survey on modeling efforts concerning the CVRS is given and some of the challenges for mathematical modeling methodologies in the context of parameter estimation and model validation are discussed.
Adaptive mechanical model of cardiovascular system regulatory processes
TLDR
The CVS model simulates the physiological circulatory system of blood in the mechanical way and allows demonstration and measurement of realistic haemodynamic parameters such as blood pressure, cardiac output, vascular resistance etc.
Closed loop baroreflex regulation of blood flow in the cardiovascular system
TLDR
A lumped parameter model predicting baroreflex regulation during head-up tilt is presented, coupled with a control model that regulates heart rate, cardiac contractility, and peripheral resistance in response to changes in blood pressure.
Adaptive Model of Cardiovascular System: Realization and Signal Database
TLDR
The design of an adaptive mechanical model of cardiovascular system using hemodynamic parameters and other various vital signs based on the modelling of hemodynamics parameters is presented in the paper.
Integrated cardiorespiratory system model with short timescale control mechanisms
TLDR
The results suggest that the present model could be used to further understand the interplay among major regulatory mechanisms in the functioning of the cardiovascular and respiratory systems in cases of normal and abnormal physiological conditions.
Hemodynamic Modelling and Simulations for Mechanical Circulatory Support
TLDR
This chapter illustrates the concept of circulatory models for the investigation of mechanical circulatory support (MCS) devices with an extensive validation and testing process in the clinics.
A regulated multiscale closed‐loop cardiovascular model, with applications to hemorrhage and hypertension
TLDR
A computational tool is developed for simulating the dynamic response of the human cardiovascular system to various stressors and injuries, integrated with a feedback model of the baroreflex, allowing control of heart rate, cardiac contractility, and peripheral impedance.
CONTROL ASPECTS FOR A PULSATILE CARDIOVASCULAR MODEL
TLDR
A model for basic cardiovascular control mechanisms assuming that the regulation is optimal with respect to the cost criterion is constructed and a feedback law mechanism described by the baroreceptor loop is designed that stabilizes the system from rest to exercise state.
...
...