What question did this study set out to answer?

The study aims to explore the dynamics of a nonlinear system modeling cancer growth, focusing on stability and bifurcations.

February 26, 2026

Ultimate Bounds, Equilibrium Points and Bifurcations in a Three-Dimensional Cancer Model

Key Points

The study aims to explore the dynamics of a nonlinear system modeling cancer growth, focusing on stability and bifurcations.
Investigated the dynamics of a nonlinear system describing cancer growth.
Proved the existence of an attractor and identified invariant sets.
Calculated ultimate bounds and found all equilibrium points.
Analyzed conditions for the existence and bifurcation of these points.
Provided examples of intersection sets within the parameter space.
Confirmed the existence of an attractor for all parameter values.
Identified ultimate bounds for the cancer growth model.
Described conditions for equilibrium points and their bifurcations.
Calculated characteristics related to periodic and chaotic trajectories.

Abstract

A nonlinear system describing the dynamics of cancer growth is investigated. For all values of the system parameters, the existence of an attractor is proved and positively invariant sets containing it are found. The estimates of ultimate bounds are calculated. All equilibrium points are found, the conditions of their existence and bifurcation are proved. In the parameter space of the system, sets are found where these conditions are fulfilled. Examples of constructing intersections of these sets with two-dimensional planes are given. Other characteristics associated with the appearance of periodic trajectories and chaotic dynamics are calculated.

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Ultimate Bounds, Equilibrium Points and Bifurcations in a Three-Dimensional Cancer Model

Key Points

Abstract

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