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This paper presents an application of a numerical package for modeling and simulation of human circulatory system. The model includes a coronary circulation and the parallel heart assistance. The cases of the simulation of the proper and the pathology circulation conditions, such as left or right heart failure are shown. A description of the coronary circulation system is presented and obtained coronary sinus occlusion simulation results are included. An implementation of the whole package as a part of PExSim application is contained. The identification experiment for the ventricular assist device has been described and different methods of the artificial ventricle modeling are presented. An example of use of a fuzzy logic to presentation the dynamics of the POLVAD device is also included. Advantages of developed simulation platform are discussed.
Rocznik
Tom
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7--12
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Bibliogr. 11 poz., rys.
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- Warsaw University of Technology, Faculty of Mechatronics, Institute of Automatic Control and Robotics, ul. Św. Andrzeja Boboli 8, 02-525, Poland, alicja.siewnicka@gmail.com
Bibliografia
- [1] M. Korda, S. Leonardis, J. Trontelj, “An electrical model of blood circulation”, Medical and Biological Engineering and Computing, vol. 6, 1968, pp. 449–451.
- [2] M. Sharp, R. Dharmalingham, “Development of a hydraulic model of the human systemic circulation”, ASAIO J., vol. 45, 1999, pp. 535–540.
- [3] G. Ferrari, “Study of Artero-ventricular Interaction as an Approach to the Analysis of Circulatory Physiopathology: Methods, Tools and Applications”, Ph. D. dissertation, Consiglio Nazionale delle Ricerche, Rome, Italy.
- [4] K. Janiszowski, P. Wnuk, “A novel approach to the problem of the investigation of complex dynamic systems in an industrial environment”, Maintenance Problems, vol. 4, 2006, pp. 17–36.
- [5] De Lazzari C., Darowski M., Ferrari G., Clemente F., Guaragno M., “Computer simulation of haemodynamic parameters changes with left ventricle assist device and mechanical ventilation”, Computers in Biology and Medicine, vol. 30, 2000, pp. 55–69.
- [6] B. Fajdek, A. Golnik, “Modelling and simulation of human circulatory system.”, Methods and Models in Automation and Robotics (MMAR), vol. 15, 2010, pp. 399–404.
- [7] W. Shreiner, F. Neumann, W. Mohl, “The Role Of Intramyocardial Pressure During Coronary Sinus Interventions: A Computer Model Study”, IEEE Transactions on Biomedical Engineering, vol. 37, 1990, pp. 956–967.
- [8] K. M. Lim, I. S. Kim, S. W. Choi, B. G. Min, Y. S Won, H. Y. Kim, E. B. Shim, ”Computational analysis of the effect of the type of LVAD flow on coronary perfusion and ventricular afterload”, The Journal of Physiological Sciences, vol. 59, 2009, pp. 307–316.
- [9] A. Siewnicka, B. Fajdek, K. Janiszowski, “Application of a PExSim for modeling a POLVAD artificial heart and the human circulatory system with left ventricle assistance”, Polish Journal of Medical Physics and Engineering, vol. 16, no. 2, 2010, pp. 107–124.
- [10] M. Stachura, “Application of the PExSim package in identification of multi-dimensional model of a waste water treatment plant”, Pomiary Automatyka Kontrola, vol. 55, no. 3, 2009, pp. 156–159.
- [11] K. Janiszowski, “Fuzzy identification of dynamic systems used for modeling of hearth assisting device POLVAD”, Pomiary Automatyka Robotyka,11/2010, pp. 90–95.
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Bibliografia
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bwmeta1.element.baztech-article-BUJ8-0023-0065