农业自动化:基于进化爱情鸟算法的路线规划案例研究

Proceedings of the 2020 12th International Conference on Computer and Automation Engineering Pub Date : 2020-02-14 DOI:10.1145/3384613.3384621

Amalia Utamima, Torsten Reiners, Amir H. Ansaripoor

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引用次数: 3

摘要

农业部门最近的一个趋势是集成计算机，以支持小型和大型农场操作的自动化。对于想要降低操作成本和控制机器的农民来说，利用计算机进行决策是至关重要的。本文重点研究了农机在田间施肥时的路线规划优化问题。这项研究的成果有望通过帮助农民为他们的机器选择最有效的路线来支持农业自动化。本文用数学公式形式化了决策问题，并提出了一种新的改进算法——进化Lovebird算法来解决该问题。实验结果表明，与其他算法相比，该算法可节省8.45%的非工作距离。此外，平均而言，该算法的运行时间仅为其他算法的三分之一，从而使进化爱情鸟算法比其他算法效率提高三倍。

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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Automation in Agriculture: A Case Study of Route Planning Using an Evolutionary Lovebird Algorithm

A recent trend in the agricultural sector is the integration of computers to support automation in the operation of small and large-scale farms. The utilization of computers for decision making is critical for farmers wanting to lower their operative costs and control their machines. The focus of this paper is on the optimization of route planning for agricultural machines that are applying fertilizer on fields. The output of this research is expected to support automation in agriculture by helping farmers to choose the most efficient route for their machines. This study formalizes the decisional problem with a mathematical formula and presents a new improved algorithm, Evolutionary Lovebird Algorithm, to solve the problem. The experimental results show that the proposed algorithm can save 8.45% of the non-working distance compared to other algorithms. Moreover, on average, the running time of the proposed algorithm is only one-third of other algorithms, thereby making the Evolutionary Lovebird Algorithm three times more efficient than other algorithms.

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Proceedings of the 2020 12th International Conference on Computer and Automation Engineering

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