Persistency and stability of a class of nonlinear forced positive discrete-time systems with delays
DOI10.1016/J.PHYSD.2024.134260zbMATH Open1545.39006MaRDI QIDQ6584187
H. Logemann, Daniel Franco, Juan Perán, Chris Guiver
Publication date: 6 August 2024
Published in: Physica D (Search for Journal in Brave)
Dynamical systems in biology (37N25) Population dynamics (general) (92D25) Dynamical systems in control (37N35) Growth, boundedness, comparison of solutions to difference equations (39A22) Stability theory for difference equations (39A30) Applications of difference equations (39A60)
Cites Work
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- Separable Lyapunov functions for monotone systems: constructions and limitations
- Persistence versus extinction for a class of discrete-time structured population models
- To connect or not to connect isolated patches
- Is dispersal always beneficial to carrying capacity? New insights from the multi-patch logistic equation
- Persistence and global stability for a class of discrete time structured population models
- Feedback control systems analysis of density dependent population dynamics
- Positive dynamical systems in discrete time. Theory, models and applications
- Monotone dynamical systems: reflections on new advances \& applications
- Scalable control of positive systems
- Persistence in fluctuating environments
- Input to state stability and allied system properties
- Overcompensatory recruitment and generation delay in discrete age-structured population models
- Stability of discrete age-structured and aggregated delay-difference population models
- Stability results for delayed-recruitment models in population dynamics
- Analysis of an age-structured fishery model
- A delayed-recruitment model of population dynamics, with an application to baleen whale populations
- Introduction to functional differential equations
- Semi-global persistence and stability for a class of forced discrete-time population models
- Total biomass of a single population in two-patch environments
- Persistence and stability for a class of forced positive nonlinear delay-differential systems
- Global asymptotic stability of density dependent integral population projection models
- Asymptotic population abundance of a two-patch system with asymmetric diffusion
- Boundedness, persistence and stability for classes of forced difference equations arising in population ecology
- Global stability of an age-structured population model
- Global asymptotic stability of plant-seed bank models
- Stability of nonnegative Lur'e systems
- Monotone control systems
- The effect of dispersal on asymptotic total population size in discrete- and continuous-time two-patch models
- Input-to-state stability. Theory and applications
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