Wan-Tong Li scite author profile

We introduce and study a class of free boundary models with "nonlocal diffusion", which are natural extensions of the free boundary models in [17] and elsewhere, where "local diffusion" is used to describe the population dispersal, with the free boundary representing the spreading front of the species. We show that this nonlocal problem has a unique solution defined for all time, and then examine its long-time dynamical behavior when the growth function is of Fisher-KPP type. We prove that a spreading-vanishing dichotomy holds, though for the spreading-vanishing criteria significant differences arise from the well known local diffusion model in [17].

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Nonoscillation and Oscillation Theory for Functional Differential Equations

Agarwal¹,

Li²,

Bohner³

2004

166

139

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Travelling wave fronts in reaction–diffusion systems with spatio-temporal delays

Wang

Ruan

2006

Journal of Differential Equations

215

130

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This paper deals with the existence of travelling wave fronts in reaction-diffusion systems with spatio-temporal delays. Our approach is to use monotone iterations and a nonstandard ordering for the set of profiles of the corresponding wave system. New iterative techniques are established for a class of integral operators when the reaction term satisfies different monotonicity conditions. Following this, the existence of travelling wave fronts for reaction-diffusion systems with spatio-temporal delays is established. Finally, we apply the main results to a single-species diffusive model with spatio-temporal delay and obtain some existence criteria of travelling wave fronts by choosing different kernels.

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Traveling Fronts in Monostable Equations with Nonlocal Delayed Effects

2008

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Existence and stability of traveling wave fronts in reaction advection diffusion equations with nonlocal delay

Wang

Ruan

2007

Journal of Differential Equations

162

101

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This paper is concerned with the existence, uniqueness and globally asymptotic stability of traveling wave fronts in the quasi-monotone reaction advection diffusion equations with nonlocal delay. Under bistable assumption, we construct various pairs of super-and subsolutions and employ the comparison principle and the squeezing technique to prove that the equation has a unique nondecreasing traveling wave front (up to translation), which is monotonically increasing and globally asymptotically stable with phase shift. The influence of advection on the propagation speed is also considered. Comparing with the previous results, our results recovers and/or improves a number of existing ones. In particular, these results can be applied to a reaction advection diffusion equation with nonlocal delayed effect and a diffusion population model with distributed maturation delay, some new results are obtained.

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Entire solutions in bistable reaction-diffusion equations with nonlocal delayed nonlinearity

Wang

Ruan

2008

Trans. Amer. Math. Soc.

108

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Abstract. This paper is concerned with entire solutions for bistable reactiondiffusion equations with nonlocal delay in one-dimensional spatial domain. Here the entire solutions are defined in the whole space and for all time t ∈ R. Assuming that the equation has an increasing traveling wave solution with nonzero wave speed and using the comparison argument, we prove the existence of entire solutions which behave as two traveling wave solutions coming from both ends of the x-axis and annihilating at a finite time. Furthermore, we show that such an entire solution is unique up to space-time translations and is Liapunov stable. A key idea is to characterize the asymptotic behavior of the solutions as t → −∞ in terms of appropriate subsolutions and supersolutions. In order to illustrate our main results, two models of reaction-diffusion equations with nonlocal delay arising from mathematical biology are considered.

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Spreading speeds and traveling waves for nonlocal dispersal equations with degenerate monostable nonlinearity

Zhang

Wang

2012

Journal of Differential Equations

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Travelling wave fronts in nonlocal delayed reaction-diffusion systems and applications

Pan

Lin

2007

Z. angew. Math. Phys.

124

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This paper is concerned with the travelling wave fronts of nonlocal reaction-diffusion systems with delays. The existence of travelling wave fronts for nonlocal reaction-diffusion systems with delays is established by using Schauder's fixed point theorem and upper-lower solution technique. Then these results are applied to the nonlocal delayed Logistic model and the delayed Belousov-Zhabotinskii reaction-diffusion system. Our results show that the time delay can reduce the minimal wave speed while the nonlocality can increase the minimal wave speed. (2000). 35K57, 35R10, 47H07, 92D25. Mathematics Subject Classification

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Wan-Tong Li

The dynamics of a Fisher-KPP nonlocal diffusion model with free boundaries

Nonoscillation and Oscillation Theory for Functional Differential Equations

Travelling wave fronts in reaction–diffusion systems with spatio-temporal delays

Traveling Fronts in Monostable Equations with Nonlocal Delayed Effects

Existence and stability of traveling wave fronts in reaction advection diffusion equations with nonlocal delay

Entire solutions in bistable reaction-diffusion equations with nonlocal delayed nonlinearity

Spreading speeds and traveling waves for nonlocal dispersal equations with degenerate monostable nonlinearity

Travelling wave fronts in nonlocal delayed reaction-diffusion systems and applications

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