Controlling crop pest with a farming awareness based integrated approach and optimal control

IF 0.9 Q3 MATHEMATICS, APPLIED

Computational and Mathematical Methods Pub Date : 2021-09-28 DOI:10.1002/cmm4.1194

Teklebirhan Abraha, Fahad Al Basir, Legesse Lemecha Obsu, Delfim F. M. Torres

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引用次数: 4

Abstract

We investigate a mathematical model in crop pest controlling, considering plant biomass, pest, and the effect of farming awareness. The pest population is divided into two compartments: susceptible pests and infected pests. We assume that the growth rate of self-aware people is proportional to the density of susceptible pests existing in the crop arena. Impacts of awareness are modeled through the usual mass action term and a saturated term. It is further assumed that self-aware people will adopt chemical and biological control methods, namely, integrated pest management. Bio-pesticides are costly and require a long-term process, expensive to impose. However, if chemical pesticides are introduced in the farming system along with bio-pesticides, the process will be faster as well as cost-effective. Also, farming knowledge is equally important. In this article, a mathematical model is derived for controlling crop pests through an awareness-based integrated approach. In order to reduce the negative effects of pesticides, we apply optimal control theory.

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利用基于农业意识的综合方法和最优控制方法防治作物有害生物

我们研究了一个数学模型在作物害虫控制，考虑植物生物量，害虫，和农业意识的影响。害虫种群分为易感害虫和感染害虫两类。我们假设有自我意识的人的生长速度与作物场上存在的易感害虫的密度成正比。意识的影响是通过通常的质量作用项和饱和项来建模的。进一步假定有自知之明的人将采用化学和生物防治方法，即病虫害综合治理。生物农药价格昂贵，需要一个长期的过程，实施起来也很昂贵。然而，如果在农业系统中引入化学农药和生物农药，这一过程将会更快，而且成本效益更高。此外，农业知识也同样重要。本文建立了基于意识的作物病虫害综合防治数学模型。为了减少农药的负面影响，我们应用了最优控制理论。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Computational and Mathematical Methods

CiteScore

2.20

自引率

0.00%

发文量