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Natalia Kizilova
Stopien naukowy: prof. dr hab.
Stanowisko: Profesor
Instytut Techniki Lotniczej i Mechaniki Stosowanej
Zaklad Aerodynamiki
Pokoj 111
Zainteresowania naukowe
Biomechanics, Fluid Dynamics, Mathematical and Computational Modeling of Cardiovascular System,
Rheology of Materials, Microfluidics, Nanofluidics.
Wybrane publikacje
→Maknickas A., Alekna V., Ardatov O., Kizilova N., Tamulaitien M., Kacianauskas R. Numerical failure study of trabeculae in osteoporotic degradation of lumbar vertebral body, Engin. Transact., 65 (1), (2017). IF=0.395
→Cherevko V., Kizilova N. Complex flows of immiscible microfluids and nanofluids with velocity slip bounary conditions, Nanoplasmonics, Nano-Optics, Nanocomposites, and Surface Studies, Springer Proceedings in Physics, 17–33 (2017).
→Kizilova N. Three chamber model of human vascular system for explanation the quasi-regular and chaotic dynamics of the blood pressure and flow oscillations, Applied Non-Linear Dynamical Systems, Springer Proceedings in Mathematics & Statistics, 181, 209-220 (2016).
→Geramy A., Kizilova N. Biomechanical analysis of asymmetric mesio-distal molar positions loaded by a symmetric cervical headgear, Acta Bioeng. Biomech., 18 (4), 97-106 (2016), IF=0,767.
→Denisov O., Kizilova N. Geometry and mechanical function of multijoint extremities from mammals to insects: towards biomimetic degign of robotic arm, Proc. of 11th Intern. Comf. BIOMDLORE-2016. Vilnius, Technika 69-72 (2016).
→Karpinski M., Kizilova N. Posturographic study of human body sway before and after a work day for diagnosis of tiredness, Proc. of 11th Intern. Comf. BIOMDLORE-2016. Vilnius, Technika, 76-79 (2016).
→Kizilova N. Diagnostics of Coronary Stenosis: Analysis of Arterial Blood Pressure and Mathematical Modeling, Biomedical Engineering Systems and Technologies, Springer Series on Communications in Computer and Information Science, 299-312 (2015).
→Hamadiche M., Kizilova N. Nature inspired optimal design of heat conveying networks for advanced fiber-reinforced composites, J. Thermal Eng., 1 (7), 636-645 (2015).
→Kizilova N. Biomimetic composites reinforced by branched nanofibers, Nanoplasmonics, Nano-Optics, Nanocomposites, and Surface Studies, Springer Proceedings in Physics, 167, 7–23 (2015).
→Cherevko V., Kizilova N. Modelowanie matematyczne agregacji czastek i sedymentacji w esencjonalnych zawiesinach, Mechanika w Medycynie, 12, 43-52 (2014).
→Kizilova N. Specyficzny dla pacjenta model wielowymiarowy unaczynienia wiencowego, Mechanika w Medycynie, 12, 108-119 (2014).
→Kizilova N., Karpinsky M., Karpinska E. Quasi-regular and chaotic dynamics of postural sway in human, Applied Non-Linear Dynamical Systems, Springer Proceedings in Mathematics & Statistics, 93, 103-114 (2014).
→Kizilova N. Diagnostics of Coronary Stenoses - Analysis of Arterial Blood Pressure Signals and Mathematical Modeling, Proc. Intern. Conf. Bio-inspired Systems and Signal Processing, 76-83 (2014).
→Kizilova N. Blood flow in arteries: regular and chaotic dynamics, Dynamical systems and Applications, Lodz Politechnical University Press, 69-80 (2013).
→Kizilova N., Hamadiche M., Gad-el-Hak M. Mathematical models of biofluid flows in compliant ducts: a review, Arch.Mech., 64 (1), 1-30 (2012), IF=0.923.
→Kizilova N., Logvenkov S., Stein A. Mathematical modeling of transport-growth processes in multiphase biological continua, Fluid Dynamics, 47(1), 1—9 (2002), IF=0.396.
→Kizilova N., Hamadiche M., Gad-el-Hak M. Flow stabilization in compliant ducts: from nature-made to human-made, Intern. J. Numer. Meth. Applic., 6(1), 1-86 (2011).
→Geramy A., Kizilova N., Terekhov L. Finite element method (FEM) analysis of the force systems produced by asymmetric inner headgear bows, Australian Orthod. J., 27 92), 125-131 (2011). IF=0.47
→Kizilova N., Geramy A. Biomechanical modeling of 3d bone-implant interface for clinical applications, Mechanika w Medycynie, 10, 93-102 (2010).
→Kizilova N., Philippova H., Zenin O. A realistic model of human arterial system: blood flow distribution, pulse wave propagation and modeling of pathology, Mechanika w Medycynie, 10, 103-118 (2010).
→Kizilova N., Tishko T., Tishko D. 3D visualization of phase microscopic objects by digital holographic interference microscopy, Mechanika w Medycynie, 10, 119-134 (2010).
→Kizilova N., Karpinsky M., Griskevicius J., Daunoraviciene K. Posturographic study of the human body vibrations for clinical diagnostics of the spine and joint pathology, Mechanika. 80 (6), 37-41 (2009). IF=0.292
→Hamadiche M., Kizilova N., Gad-el-Hak M. Suppression of Absolute Instabilities in the Flow inside a Compliant Tube, Communic. Numer. Meth. Engin., 25 (5), 505-531 (2009). IF=0.756
→Griskevicius J., Jarmaliene E., Sesok A., Daunoraviciene K., Kizilova N. Evaluation of human postural balance in quiet standing by direct measurement of human body center of mass acceleration, J. Vibroeng., 11 (3), 556-561 (2009). IF=0.357
→Kizilova N., Hamadiche M., Gad-el-Hak M. Flow in Compliant Tubes: Control and Stabilization by Multilayered Coatings, Intern. J. Flow Control., 1 (3), 199-211 (2009).
→Kizilova N. Long-distance liquid transport in plants, Proс. Estonian Acad. Sci. Ser. Phys. Math., 57 (3), 179-203 (2008). IF=0.964
→Zenin O.K., Kizilova N.N., Philippova E.N. Studies on the Structure of Human Coronary Vasculature, Biophysics, 52 (5), 499–503 (2007). IF=0.674
→Kizilova N.N. Liquid Filtration in a Microcirculatory Cell of the Plant Leaf: A Lumped Parameter Model, Intern. J. Fluid Mech. Res., 34 (6), 572-588 (2007).
→Karpinsky M.Yu., Kizilova N.N. Computerized posturography for data analysis and mathematical modelling of postural sway during different two-legged and one-legged human stance, J.Vibroeng., 9 (3), 118-124 (2007). IF=0.357
→Kizilova N. Load transfer from the fiber into the growing medium: application to plant leaf growth, Proс. Estonian Acad. Sci. Phys. Math., 56 (2), 162-169 (2007). IF=0.964
→Kizilova N. Modeling of Intraorgan Arterial Vasculature. II. Propagation of Pressure Waves, Biophysics, 52 (1), 77–82 (2007). IF=0.674
→Kizilova N. Modeling of intraorgan arterial vasculatures. I. A stationary blood flow at low Reynolds numbers, Biophysics, 51 (4), 733-737 (2006). IF=0.674
→Kizilova N. Investigation of Pressure - Flow Relations and the Parameters of the Forward and Backward Pressure Waves in Arterial Beds, Intern.J.Fluid.Mech.Res., 33 (6), 537-552 (2006).
→Kizilova N. Pressure wave propagation in liquid-filled tubes of viscoelastic material, Fluid Dynamics, 41 (3), 434-446 (2006). IF=0.396
→Kizilova N., Egorova E. Modelling of laminated growing biological materials, J. Mech. Eng., 56 (5), 306-318 (2006). IF=0.657
→Kizilova N., Posdniak L. Biophysical mechanisms of long-distance transport of liquids and signaling in high plants, Biophys. Bull., 15(1), 99-103 (2005).
→Hamadiche M., Kizilova N. Temporal and Spatial Instabilities of the Flow in the Blood Vessels as Multi-Layered Compliant Tubes, Int. J. Dyn. Fluids, 1(1), 1-23 (2005).
→Kizilova N. Hydraulic Properties of Branching Pipelines with Permeable Walls, Intern. J. Fluid Mech. Res., 32(1), 98-109 (2005).
→Kizilova N. Wave propagation and reflection in systems of compliant tubes, Intern. J. Fluid Mech. Res., 31 (6), 608-620 (2004).
→Kizilova N. Computational approach to optimal transport network construction in biomechanics, Lecture Notes in Computer Science, 3044, 476-485 (2004). IF=0.31
→Kizilova N. Refection of pulse waves and resonance characteristics of arterial beds, Fluid Dynamics, 38 (5), 772-781 (2003). IF=0.279
→Kizilova N. Рulse wave reflections in branching arterial networks and pulse diagnosis methods, J.Chinese Inst. оf Engineers, 26 (6), 869-880 (2003). IF=0.246