高维时空周期媒介中部分退化模型的传播速度

数学物理学报 ›› 2025, Vol. 45 ›› Issue (4): 1110-1127.

高维时空周期媒介中部分退化模型的传播速度

孙泽欣,张丽,包雄雄^*()

长安大学理学院西安 710064

收稿日期:2024-05-07 修回日期:2025-03-10 出版日期:2025-08-26 发布日期:2025-08-01
通讯作者: *E-mail:baoxx2016@chd.edu.cn
基金资助:
国家自然科学基金(12271058);陕西数理基础科学研究项目(23JSY040);陕西省自然科学基金(2023-JC-YB-023)

Spreading Speeds for Partially Degenerate Models in Multi-Dimensional Time-Space Periodic Media

Sun Zexin,Zhang Li,Bao Xiongxiong^*()

School of Science, Chang'an University, Xi'an 710064

Received:2024-05-07 Revised:2025-03-10 Online:2025-08-26 Published:2025-08-01
Supported by:
NSFC(12271058);Shaanxi Fundamental Science Research Project for Mathematics and Physics(23JSY040);Natural Science Basic Research Plan in Shaanxi Province of China(2023-JC-YB-023)

摘要/Abstract

摘要：

该文研究高维空间中具有对流项和时空周期系数的部分退化反应扩散系统的传播速度. 沿着任意方向 $\mathbf{e}\in S^{N-1}$, 当初值为类波前情形时, 该系统存在有限的传播速度区间并且在某些特定的条件下该系统存在唯一的传播速度. 沿着方向 $\mathbf{\eta}$, 通过引入渐近传播射线速度区间的概念, 当初值具有紧支撑时, 该系统存在渐近传播射线速度和渐近传播集并且可以用 Freidlin-G$\ddot{\rm a}$rtner 公式来刻画退化系统的渐近传播射线速度. 该文的结果也被应用到高维空间中的部分退化模型, 如底栖-浮游种群模型、登革热传播模型和人-环境-人流行模型等.

关键词: 时空周期, 部分退化, 传播速度, 高维空间

Abstract:

The spreading speeds of partially degenerate reaction-diffusion systems with advection term and time-space periodic coefficients in multi-dimensional space has been studied in the current paper. In the direction of $\mathbf{e}\in S^{N-1}$, we use the the spreading properties of solution with front-like initial values to show that there is a finite spreading speed interval of such time-space periodic system in any direction and the interval admits a single spreading speed under certain special conditions. In the direction of $\mathbf{\eta}$, we introduce the concept of asymptotic spreading ray speed interval, and under the compact supported initial values, we show that such time-space periodic system exists an asymptotic spreading ray speed and an asymptotic spreading set. The results show that the Freidlin-G$\ddot{\rm a}$rtner's formula can be used to describe the asymptotic spreading ray speed for such partially degenerate systems. We also apply these results to some partially degenerate models in multi-dimensional time and space periodic media including the benthic-pelagic model, a dengue transmission model and man-environment-man epidemics model.

Key words: time-space periodic, partially degenerate system, spreading speed, multi-dimension space

中图分类号:

O175.2

孙泽欣, 张丽, 包雄雄. 高维时空周期媒介中部分退化模型的传播速度[J]. 数学物理学报, 2025, 45(4): 1110-1127.

Sun Zexin, Zhang Li, Bao Xiongxiong. Spreading Speeds for Partially Degenerate Models in Multi-Dimensional Time-Space Periodic Media[J]. Acta mathematica scientia,Series A, 2025, 45(4): 1110-1127.

参考文献 28

[1]	Bao X, Li W T. Propagation phenomena for partially degenerate nonlocal dispersal models in time and space periodic habitats. Nonlinear Anal Real World Appl, 2020, 51: 102975
[2]	Du L J, Li W T, Shen W. Propagation phenomena for time-space periodic semiflows and applications to cooperative systems in multi-dimensional media. J Functional Analysis, 2022, 2.2( 9): 109415
[3]	Capasso V. Mathematical Structures of Epidemic Systems. Heidelberg: Springer-Verlag, 1993
[4]	Capasso V, Wilson R E. Analysis of reaction-diffusion system modeling man-environment-man epidemics. SIAM J Appl Math, 1997, 57(2): 327-346
[5]	Fang J, Zhao X Q. Monotone wavefronts for partially degenerate reaction-diffusion system. J Dynam Differential Equations, 2009, 21: 663-680
[6]	Fang J, Lai X, Wang F B. Spatial dynamics of a dengue transmission model in time-space perioidc environment. J Differential Equations, 2020, 2.9(8): 149-175
[7]	Fang J, Yu X, Zhao X Q. Traveling waves and spreading speeds for time-space periodic monotone systems. J Functional Analysis, 2017, 2.2(10): 4222-4262
[8]	Hadeler K P, Lewis M. Spatial dynamics of the diffusive logistic equation with a sedentary compartment. Can Appl Math Q, 2020, 10: 473-499
[9]	Huang J, Shen W. Spreeds of spread and propagation for KPP models in time almost and space periodic media. SIAM J Appl Dynamical Systems, 2009, 8(3): 790-821
[10]	Lewis M, Schmitz G. Biological invasion of an organism with separate mobile and stationary states: Modeling and analysis. Forma, 1996, 11: 1-25
[11]	Li B. Traveling wave solutions in partially degenerate cooperative reaction-diffusion system. J Differential Equations, 2012, 2.2(9): 4842-4861
[12]	Liang X, Zhang L, Zhao X Q. The principal eigenvalue for degenerate periodic reaction-diffusion systems. SIAM J Math Anal, 2017, 49(5): 3603-3636
[13]	Liang X, Zhao X Q. Spreading speeds and traveling waves for abstract monostable evolution systems. J Functional Analysis, 2012, 2.9: 857-903
[14]	Liang X, Yi Y, Zhao X Q. Spreading speeds and traveling waves for periodic evolution systems. J Differential Equations, 2006, 2.1: 57-77
[15]	Lui J. Spreading speeds of time-dependent partially degenerate reaction-diffusion systems. Chin Ann Math ser B, 2022, 43: 79-94
[16]	Lutscher F, Lewis M A, McCauley E. Effects of heterogeneity on spread and persistence in rivers. Bull Math Biol, 2006, 68: 2129-2160
[17]	Martin R H, Smith H L. Abstract functional differential equations and reaction-diffusion systems. Trans Amer Math Soc, 1990, 3.1: 1-44
[18]	Shen W. Variational principle for spatial spreading speed and generalized wave solutions in time almost periodic and space periodic KPP model. Trans Amer Math Soc, 2010, 3.2: 5125-5168
[19]	Takahashi L T, Maidana N A, et al. Mathematical models for the Aedes aegypti dispersal dynamics: traveling waves by wing and wind. Bull Math Biol, 2005, 67: 509-528
[20]	Wang X, Zhao X Q. Pulsating waves of a paratially degenerate reaction-diffusion system in a periodic habitats. J Differential Equations, 2015, 2.9: 7238-7259
[21]	Wang J B, Li W T, Sun J W. Global dynamics and spreading speeds for a partially degenerate system with non-local dispersal in periodic habitats. Proc Royal Soc Edinburgh, 2018, 1.8(4): 849-880
[22]	Wu C, Xiao D, Zhao X Q. Spreading speeds of a partially degenerate reaction diffusion system in a periodic habitats. J Differential Equations, 2013, 2.5(11): 3983-4011
[23]	Wu S L, Sun Y J, Liu S Y. Traveling fonts and entire solutions in partially degenerate reaction-diffusion system with monostable nonlinearity. Discret Contin Dyn Syst, 2013, 33: 921-946
[24]	Wu S L, Hsu C H. Periodic traveling fronts for partially degenerate reaction-diffusion systems with bistable and time-periodic nonlinearity. Advances in Nonlinear Analysis, 2020, 9(1): 923-957
[25]	Xu D, Zhao X Q. Bistable waves in an epidemic model. J Dynam Differential Equations, 2005, 17(1): 219-247
[26]	Weinberger H F. On spreading speeds and traveling waves for growth and migration models in a periodic habitat. J Math Biol, 2002, 45(6): 511-548 pmid: 12439589
[27]	Yu X, Zhao X Q. Propagation phenomena for a reaction advection diffusion competition model in a periodic habitat. J Dynam Differential Equations, 2017, 29(1): 41-66
[28]	Zhao X Q, Wang W. Fisher waves in an epidemic model. Discret Contin Dyn Syst, 2004, 4: 1117-1128