Complex dynamics of non-smooth pest-natural enemy Gomportz models with a variable searching rate based on threshold control

Complex dynamics of non-smooth pest-natural enemy Gomportz models with a variable searching rate based on threshold control

The implementation of ecological pest-management strategies is an important trend in the global agricultural development, which makes integrated pest management become an important research field. In this study, to achieve a scientific and reasonable pest-management objective, three aspects of work...

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Bibliographic Details
Main Authors: Yuan Tian, Xinlu Tian, Xinrui Yan, Jie Zheng, Kaibiao Sun
Format: Article
Language:English
Published: AIMS Press 2025-01-01
Series:Electronic Research Archive
Subjects:
filippov system
order-$ k $ periodic trajectory
poincaré map
orbital asymptotic stability
Online Access:https://www.aimspress.com/article/doi/10.3934/era.2025002
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Summary:The implementation of ecological pest-management strategies is an important trend in the global agricultural development, which makes integrated pest management become an important research field. In this study, to achieve a scientific and reasonable pest-management objective, three aspects of work were carried out. 1) Modeling and analysis: a pest-natural enemy Gomportz-type model with a variable searching rate was put forward, and two pest-management models were formulated. The dynamic characteristics of the continuous model were investigated, and the results indicated that the search speed of natural enemies had an effect on the coexistence equilibrium. 2) Control effect: the sliding mode dynamics of the Filippov system including the existence of pseudo-equilibrium was analyzed to illustrate the effect of the non-smooth control strategy on the system. A Poincaré map was constructed for the system with a threshold control, and the complex dynamics induced by the threshold control was investigated. 3) Verifications: computer simulations were presented step by step to illustrate and verify the correctness of the theoretical results. A comprehensive study of predation relationships as well as the effects of different management strategies on the system can serve as a valuable reference for advancing sustainable agricultural practices and pest control.
ISSN:2688-1594

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