智能农业中基于优化光 GBM 的有效土壤分析和作物产量预测方法

IF 3.7 2区 农林科学 Q1 AGRONOMY
Vivek Parganiha, Monika Verma
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引用次数: 0

摘要

在农业领域,作物产量预测发挥着重要作用,因为它可以帮助农民决定作物的生长季节和种类,以获得更好的产量。农业部门的主要目标是通过提高作物产量和质量来降低运营成本和污染。本文为智能农业提出了一种有效的土壤分析和作物产量预测方法。利用缺失值插值和数据归一化技术对收集到的数据进行预处理。使用基于 Aquila 的自适应优化算法对预处理数据进行特征选择,从而为产量预测选择最佳性状子集。基于大逃杀优化技术的改进型轻量级梯度提升机用于分类。使用平均绝对误差、均方根误差、R 平方、均方误差、均方对数误差和平均绝对百分比误差评估了拟议系统的性能,拟议系统的准确率达到 97%。拟议系统能准确预测作物产量,提高作物产量和质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Effective Soil Analysis and Crop Yield Prediction Based on Optimised Light GBM in Smart Agriculture

In the agricultural sector, crop yield prediction plays an important role as it helps farmers make decisions about the growing season and type of crops to get better yield. The main goal in the agricultural sector is to reduce operating costs and pollution by improving crop yields and quality. This paper proposes an effective method for soil analysis and crop yield prediction for intelligent agriculture. The collected data are preprocessed using missing value interpolation and data normalisation techniques. Feature selection is performed on the preprocessed data using the Aquila-based adaptive optimisation algorithm, which selects the best trait subset for yield prediction. An improved lightweight gradient-boosting machine based on the Battle Royale Optimisation technique is used for classification. The performance of the proposed system is evaluated using mean absolute error, root mean square error, R-squared, mean square error, mean square logarithmic error and mean absolute percentage error, and the proposed system achieved an accuracy of 97%. The proposed system accurately predicts crop yields, improving crop production and quality.

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来源期刊
Journal of Agronomy and Crop Science
Journal of Agronomy and Crop Science 农林科学-农艺学
CiteScore
8.20
自引率
5.70%
发文量
54
审稿时长
7.8 months
期刊介绍: The effects of stress on crop production of agricultural cultivated plants will grow to paramount importance in the 21st century, and the Journal of Agronomy and Crop Science aims to assist in understanding these challenges. In this context, stress refers to extreme conditions under which crops and forages grow. The journal publishes original papers and reviews on the general and special science of abiotic plant stress. Specific topics include: drought, including water-use efficiency, such as salinity, alkaline and acidic stress, extreme temperatures since heat, cold and chilling stress limit the cultivation of crops, flooding and oxidative stress, and means of restricting them. Special attention is on research which have the topic of narrowing the yield gap. The Journal will give preference to field research and studies on plant stress highlighting these subsections. Particular regard is given to application-oriented basic research and applied research. The application of the scientific principles of agricultural crop experimentation is an essential prerequisite for the publication. Studies based on field experiments must show that they have been repeated (at least three times) on the same organism or have been conducted on several different varieties.
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