Your search keyword '"delay differential equations"' showing total 10 results

1. Hopf bifurcation and normal form in a delayed oncolytic model.

Author

Najm, Fatiha, Ahmed, Moussaid, Yafia, Radouane, Aziz Alaoui, M. A., and Boukrim, Lahcen

Abstract

In this paper, we investigate the mathematical analysis of a mathematical model describing the virotherapy treatment of a cancer with logistic growth and the effect of viral cycle presented by a time delay. The cancer population size is divided into uninfected and infected compartments. Depending on time delay, we prove the positivity and boundedness and the stability of equilibria. We give conditions on which the viral cycle leads to “Jeff’s phenomenon” observed in laboratory and causes oscillations in cancer size via Hopf bifurcation theory. We establish an algorithm that determines the bifurcation elements via center manifold and normal form theories. We give conditions which lead to a supercritical or subcritical bifurcation. We end with numerical simulations illustrating our theoretical results. [ABSTRACT FROM AUTHOR]

Published

2024

2. Hopf Bifurcation, Approximate Periodic Solutions and Multistability of Some Nonautonomous Delayed Differential Equations.

Author

Zhang, Wenxin, Pei, Lijun, and Chen, Yueli

Subjects

*HOPF bifurcations, *DELAY differential equations, *BIFURCATION diagrams, *MULTIPLE scale method, *DUFFING equations, *STATE feedback (Feedback control systems), *DUFFING oscillators

Abstract

Research on nonautonomous delayed differential equations (DDEs) is crucial and very difficult due to nonautonomy and time delay in many fields. The main work of the present paper is to discuss complex dynamics of nonautonomous DDEs, such as Hopf bifurcation, periodic solutions and multistability. We consider three examples of nonautonomous DDEs with time-varying coefficients: a harmonically forced Duffing oscillator with time delayed state feedback and periodic disturbance, generalized van der Pol oscillator with delayed displacement difference feedback and periodic disturbance, and an electro-mechanical system with delayed and periodic disturbance. Firstly, we obtain the amplitude equations of these three examples by the method of multiple scales (MMS), and then analyze the stability of approximate solutions by the Routh–Hurwitz criterion. The obtained amplitude equations are used to construct the bifurcation diagrams, so that we can observe the occurrence of the Hopf bifurcation and judge its type (super- or subcritical) from the bifurcation diagrams. We discover rich dynamic phenomena of the three systems under consideration, such as Hopf bifurcation, quasi-periodic solutions and the coexistence of multiple stable solutions, and then discuss the impact of some parameter changes on the system dynamics. Finally, we validate the correctness of these theoretical conclusions by software WinPP, and the numerical simulations are consistent with our theoretical findings. Therefore, the MMS we use to analyze the dynamics of nonautonomous DDEs is effective, which is of great significance to the research of nonautonomous DDEs in many fields. [ABSTRACT FROM AUTHOR]

Published

2023

3. Complex dynamics of Leslie–Gower prey–predator model with fear, refuge and additional food under multiple delays.

Author

Gupta, Ashvini, Kumar, Ankit, and Dubey, Balram

Subjects

*DELAY differential equations, *SYSTEM dynamics

Abstract

In this paper, we analyze a system of delay differential equations incorporating prey's refuge, fear, fear-response delay, extra food for predators and their gestation lag. First, we examined the system without delay. The persistence, stability (local and global) and various bifurcations are discussed. We provide detailed analysis for transcritical and Hopf-bifurcation. The existence of positive equilibria and the stability of prey-free equilibrium are interrelated. It is shown that (i) fear can stabilize or destabilize the system, (ii) prey refuge in a specific limit can be advantageous for both species, (iii) at a lower energy level (gained from extra food), the system undergoes a supercritical Hopf-bifurcation and (iv) when the predator gains high energy from extra food, it can survive through a homoclinic bifurcation, and prey may become extinct. The possible occurrence of bi-stability with or without delay is discussed. We observed switching of stability thrice via subcritical Hopf-bifurcation for fear-response delay. On changing some parametric values, the system undergoes a supercritical Hopf-bifurcation for both delay parameters. The delayed system undergoes the Hopf-bifurcation, so we can say that both delay parameters play a vital role in regulating the system's dynamics. The analytical results obtained are verified with the numerical simulation. [ABSTRACT FROM AUTHOR]

Published

2022

4. Bifurcation Analysis for Two-Species Commensalism (Amensalism) Systems with Distributed Delays.

Author

Li, Tianyang and Wang, Qiru

Subjects

*HOPF bifurcations, *COMMENSALISM, *DELAY differential equations

Published

2022

5. STUDY OF FRACTIONAL ORDER DELAY CAUCHY NON-AUTONOMOUS EVOLUTION PROBLEMS VIA DEGREE THEORY.

Author

KHAN, ZAREEN A., SHAH, KAMAL, MAHARIQ, IBRAHIM, and ALRABAIAH, HUSSAM

Subjects

*TOPOLOGICAL degree, *DELAY differential equations, *CAPUTO fractional derivatives, *CAUCHY problem, *NONLINEAR functions

Abstract

This work is devoted to derive some existence and uniqueness (EU) conditions for the solution to a class of nonlinear delay non-autonomous integro-differential Cauchy evolution problems (CEPs) under Caputo derivative of fractional order. The required results are derived via topological degree method (TDM). TDM is a powerful tool which relaxes strong compact conditions by some weaker ones. Hence, we establish the EU under the situation that the nonlinear function satisfies some appropriate local growth condition as well as of non-compactness measure condition. Furthermore, some results are established for Hyers–Ulam (HU) and generalized HU (GHU) stability. Our results generalize some previous results. At the end, by a pertinent example, the results are verified. [ABSTRACT FROM AUTHOR]

Published

2022

6. Dynamics of Wild and Sterile Mosquito Population Models with Delayed Releasing.

Author

Cai, Li-Ming

Subjects

*MOSQUITO control, *MOSQUITO vectors, *DELAY differential equations, *MOSQUITOES, *ORDINARY differential equations, *ARBOVIRUS diseases, *HOPF bifurcations

Abstract

To reduce the global burden of mosquito-borne diseases, e.g. dengue, malaria, the need to develop new control methods is to be highlighted. The sterile insect technique (SIT) and various genetic modification strategies, have a potential to contribute to a reversal of the current alarming disease trends. In our previous work, the ordinary differential equation (ODE) models with different releasing sterile mosquito strategies are investigated. However, in reality, implementing SIT and the releasing processes of sterile mosquitos are very complex. In particular, the delay phenomena always occur. To achieve suppression of wild mosquito populations, in this paper, we reassess the effect of the delayed releasing of sterile mosquitos on the suppression of interactive mosquito populations. We extend the previous ODE models to the delayed releasing models in two different ways of releasing sterile mosquitos, where both constant and exponentially distributed delays are considered, respectively. By applying the theory and methods of delay differential equations, the effect of time delays on the stability of equilibria in the system is rigorously analyzed. Some sustained oscillation phenomena via Hopf bifurcations in the system are observed. Numerical examples demonstrate rich dynamical features of the proposed models. Based on the obtained results, we also suggest some new releasing strategies for sterile mosquito populations. [ABSTRACT FROM AUTHOR]

Published

2020

7. Numerical Dynamics of Nonstandard Finite Difference Method for Nonlinear Delay Differential Equation.

Author

Zhuang, Xiaolan, Wang, Qi, and Wen, Jiechang

Subjects

*NONSTANDARD mathematical analysis, *DELAY differential equations, *FINITE difference method, *COMPUTER simulation, *BIFURCATION theory

Abstract

In this paper, we study the dynamics of a nonlinear delay differential equation applied in a nonstandard finite difference method. By analyzing the numerical discrete system, we show that a sequence of Neimark–Sacker bifurcations occur at the equilibrium as the delay increases. Moreover, the existence of local Neimark–Sacker bifurcations is considered, and the direction and stability of periodic solutions bifurcating from the Neimark–Sacker bifurcation of the discrete model are determined by the Neimark–Sacker bifurcation theory of discrete system. Finally, some numerical simulations are adopted to illustrate the corresponding theoretical results. [ABSTRACT FROM AUTHOR]

Published

2018

8. An analysis of the delay-dependent HIV-1 protease inhibitor model.

Author

Divya, M. and Pitchaimani, M.

Subjects

*HIV, *PROTEASE inhibitors, *VIRUS-induced enzymes, *HUMORAL immunity, *SENSITIVITY analysis

Abstract

In this paper, we have studied about the sensitivity analysis of the human immunodeficiency virus (HIV) protease inhibitor (PI) model and estimated the length of the delay. We have fabricated an HIV PI model accompanied with humoral immunity. Stability analysis of the constructed model about its steady states has been deliberated. We have evaluated some numerical simulations for PI model with humoral immunity by using the existing patient data. [ABSTRACT FROM AUTHOR]

Published

2018

9. A fractional-order delay differential model for Ebola infection and CD8 T-cells response: Stability analysis and Hopf bifurcation.

Author

Latha, V. Preethi, Rihan, Fathalla A., Rakkiyappan, R., and Velmurugan, G.

Subjects

*EBOLA virus disease, *HOPF bifurcations, *TIME delay systems, *DELAY differential equations, *STABILITY (Mechanics), *LAPLACE transformation, *CYTOTOXIC T cells

Abstract

In this paper, we study a fractional-order model with time-delay to describe the dynamics of Ebola virus infection with cytotoxic T-lymphocyte (CTL) response in vivo. The time-delay is introduced in the CTL response term to represent time required to stimulate the immune system. Based on fractional Laplace transform, some conditions on stability and Hopf bifurcation are derived for the model. The analysis shows that the fractional-order with time-delay can effectively enrich the dynamics and strengthen the stability condition of fractional-order infection model. Finally, the derived theoretical results are justified by some numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2017

10. Delay-Induced Triple-Zero Bifurcation in a Delayed Leslie-Type Predator-Prey Model with Additive Allee Effect.

Author

Jiang, Jiao, Song, Yongli, and Yu, Pei

Subjects

*PREDATION, *ALLEE effect, *BIFURCATION diagrams, *DELAY differential equations, *COMBINATORIAL dynamics

Abstract

In this paper, a Leslie-type predator-prey model with ratio-dependent functional response and Allee effect on prey is considered. We first study the existence of the multiple positive equilibria and their stability. Then we investigate the effect of delay on the distribution of the roots of characteristic equation and obtain the conditions for the occurrence of simple-zero, double-zero and triple-zero singularities. The formulations for calculating the normal form of the triple-zero bifurcation of the delay differential equations are derived. We show that, under certain conditions on the parameters, the system exhibits homoclinic orbit, heteroclinic orbit and periodic orbit. [ABSTRACT FROM AUTHOR]

Published

2016