Software Development for Quantitative Analyzing of the Regulatory of Liver Cell and Hepatitis B Viruses by Using of Information Technologies
Mahruy Saidalieva,
Mohiniso Baxromovna Hidirova,
Abrorjon Maxamatsoliyevich Turgunov
Issue:
Volume 5, Issue 6, November 2017
Pages:
81-87
Received:
5 December 2017
Accepted:
15 December 2017
Published:
10 January 2018
DOI:
10.11648/j.se.20170506.11
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Abstract: In this article, the results on identifying of areas of homogeneous solutions of the functional-differential equations of the mathematical model of regulatory mechanisms of liver cell with hepatitis B viruses by constructing a parametric portrait using of modern information technology were presented. Typical phase trajectories were obtained using the object-oriented programming language Borland Delphi. The features of the area of the chaotic regime regulatory related activities of molecular genetic mechanisms of the liver cell and hepatitis B viruses by analyzing the dynamics of the Lyapunov exponent. Defined small regions with regular behavior ("r-windows") in the field of dynamic chaos. The regulatory of the liver cell and hepatitis B viruses can be moved from the region of dynamic chaos to normal region by using "r-windows".
Abstract: In this article, the results on identifying of areas of homogeneous solutions of the functional-differential equations of the mathematical model of regulatory mechanisms of liver cell with hepatitis B viruses by constructing a parametric portrait using of modern information technology were presented. Typical phase trajectories were obtained using t...
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Mathematical Modelling Living Systems Regulatory Mechanisms at the Norm and Anomalies
Mahruy Saidalieva,
Mohiniso Baxromovna Hidirova
Issue:
Volume 5, Issue 6, November 2017
Pages:
88-93
Received:
21 November 2017
Accepted:
1 December 2017
Published:
10 January 2018
DOI:
10.11648/j.se.20170506.12
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Abstract: The purpose of this paper is to develop methodology for living system regulatorika under norm and diseases based on the ORASTA concept which consists of the operator-regulator OR (capable to accept, recycle and transfer signals) and ASTA (active system with time average, carrying out a feedback loop in system for finite time). The paper draws on results made by using methods of quantitative and qualitative analysis of ORASTA equations. The paper concludes that living systems have the following regimes: rest, stable stationary state, regular oscillations which can be identified as normal condition and irregular fluctuations with destructive changes conform to diseases. The paper provides new methods, laws able to describe regulatory mechanisms in biosystem at the norm and anomalies taking into account spatial and temporal relations.
Abstract: The purpose of this paper is to develop methodology for living system regulatorika under norm and diseases based on the ORASTA concept which consists of the operator-regulator OR (capable to accept, recycle and transfer signals) and ASTA (active system with time average, carrying out a feedback loop in system for finite time). The paper draws on re...
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