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Discrete Models in Population Dynamics: Advantages, Problems, and Justification
Computer Research and Modeling, 2016, v. 8, no. 2, pp. 267-284Views (last year): 6. Citations: 6 (RSCI).This article is dedicated to applicability justification as well as advantages and disadvantages analysis of discrete models in population dynamics. Discretization is the process of transferring continuous functions, models, and equations into discrete counterparts. We consider how temporal, spatial and structural discretization can be applied for solving typical issues in mathematical ecology, and try to estimate corresponding models adequacy and applicability limitations.
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Bistability and damped oscillations in the homogeneous model of viral infection
Computer Research and Modeling, 2023, v. 15, no. 1, pp. 111-124The development of a viral infection in the organism is a complex process which depends on the competition race between virus replication in the host cells and the immune response. To study different regimes of infection progression, we analyze the general mathematical model of immune response to viral infection. The model consists of two ODEs for virus and immune cells non-dimensionalized concentrations. The proliferation rate of immune cells in the model is represented by a bell-shaped function of the virus concentration. This function increases for small virus concentrations describing the antigen-stimulated clonal expansion of immune cells, and decreases for sufficiently high virus concentrations describing down-regulation of immune cells proliferation by the infection. Depending on the virus virulence, strength of the immune response, and the initial viral load, the model predicts several scenarios: (a) infection can be completely eliminated, (b) it can remain at a low level while the concentration of immune cells is high; (c) immune cells can be essentially exhausted, or (d) completely exhausted, which is accompanied (c, d) by high virus concentration. The analysis of the model shows that virus concentration can oscillate as it gradually converges to its equilibrium value. We show that the considered model can be obtained by the reduction of a more general model with an additional equation for the total viral load provided that this equation is fast. In the case of slow kinetics of the total viral load, this more general model should be used.
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Synchronization and chaos in networks of coupled maps in application to modeling of cardiac dynamics
Computer Research and Modeling, 2011, v. 3, no. 4, pp. 439-453Citations: 3 (RSCI).The dynamics of coupled elements’ ensembles are investigated in the context of description of spatio-temporal processes in the myocardium. Basic element is map-based model constructed by simplification and reduction of Luo-Rudy model. In particular, capabilities of the model in replication of different regimes of cardiac activity are shown, including excitable and oscillatory regimes. The dynamics of 1D and 2D lattices of coupled oscillatory elements with a random distribution of individual frequencies are considered. Effects of cluster synchronization and transition to global synchronization by increasing of coupling strength are discussed. Impulse propagation in the chain of excitable cells has been observed. Analysis of 2D lattice of excitable elements with target and spiral waves have been made. The characteristics of the spiral wave has been analyzed in depending on the individual parameters of the map and coupling strength between elements of the lattice. A study of mixed ensembles consisting of excitable and oscillatory elements with a gradient changing of the properties have been made, including the task for description of normal and pathological activity of the sinoatrial node.
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Motion of DNA open states influenced by random force
Computer Research and Modeling, 2015, v. 7, no. 6, pp. 1295-1307Views (last year): 3.It is known that in the native state the DNA molecule always contains some amount of locally unwound regions, often called the open states of DNA. It is believed that these states play an important role in DNA-protein recognition and that the study of the open states dynamics may shed further light on the mechanisms of regulation of transcription and replication. In this paper we consider the effect of the thermostat on the movement of the open states in the artificial sequence consisting of four homogeneous regions. We construct the energetic profile of the sequence and investigate the trajectories of the movement of the open states under the action of a random force.
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International Interdisciplinary Conference "Mathematics. Computing. Education"