Gao Hai-long scite author profile

As the primary killer of health, the class of infectious diseases is the greatest threat to humanity. At present, international methods of studying the large-scale spatial transmission of sudden infectious diseases from the perspective of dynamics can be divided into two categories. On the one hand, top international biomedical and medical teams discuss the restraining effects of some prevention and control strategies on infectious diseases, such as smallpox, malaria, hand, foot and mouth disease and pandemic influenza, from the perspective of pragmatism. On the other hand, researchers in theoretical physics and network science tend to use compound population network models to explore the internal dynamic mechanism of spatial transmission of infectious diseases. This paper establishes a Lotka–Volterra dispersal predator–prey system in a patchy environment. It shows the existence of model boundary equilibria and asymptotic stability under an appropriate condition. This paper adopts the method of global Lyapunov function and the results of graph theory. We also consider a predator–prey dynamical model in a patchy environment, where the prey and predator individuals in each compartment can travel among n patches.

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Notice of Retraction Stability of positive solutions of an N-patch predator-prey system with random perturbation

Hai-long

2013

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Research on feedback Cognitive Method of Insulator Self-blast State Based on Multi-scale Convolutional Network

Hai-long

Wang

et al. 2020

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Delay Lotka-Volterra competition system with random perturbation

Hai-long

2013

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Gao Hai-long

Existence, uniqueness and global asymptotic stability of positive solutions of a predator–prey system with Holling II functional response with random perturbation

Asymptotic stability problem of predator–prey system with linear diffusion

Notice of Retraction Stability of positive solutions of an N-patch predator-prey system with random perturbation

Research on feedback Cognitive Method of Insulator Self-blast State Based on Multi-scale Convolutional Network

Delay Lotka-Volterra competition system with random perturbation

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