Early Cocoa Blackpod Pathogen Prediction with Machine Learning Ensemble Algorithm based on Climatic Parameters

IF 0.3 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS
S. S. Olofintuyi
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引用次数: 2

Abstract

Machine learning has been useful for prediction in the various sectors of the economy. The research work proposed an ensemble SA-CCT machine learning algorithm that gives early and accurate prediction of blackpod disease to farmers and agricultural extension officers in South-West, Nigeria. Since data mining put into consideration the types of pattern in a given dataset, the study considered the pattern in climatic dataset retrieved from Nigeria Meteorological agency (NIMET). The proposed model uses climatic parameters (Rainfall and Temperature) to predict the outbreak of blackpod disease. The ensemble SA-CCT model was formulated by hybridizing a linear algorithm Seasonal Auto Regressive Integrated Moving Average (SARIMA) and a nonlinear algorithm Compact Classification Tree (CCT), the implementation was done with python programming. The proposed SA-CCT model gives the following results after evaluation. Precision: 0.9429, Recall 0.9167, Mean Square Error: 0.2357, Accuracy: 0.9444
基于气候参数的机器学习集成算法早期可可黑荚病菌预测
机器学习对经济各个部门的预测都很有用。这项研究工作提出了一种集成SA-CCT机器学习算法,该算法为尼日利亚西南部的农民和农业推广官员提供了黑荚病的早期准确预测。由于数据挖掘考虑了给定数据集中的模式类型,该研究考虑了从尼日利亚气象局(NIMET)检索的气候数据集中的模型。所提出的模型使用气候参数(降雨量和温度)来预测黑足病的爆发。将线性算法季节自回归综合移动平均(SARIMA)和非线性算法紧凑分类树(CCT)相结合,建立了SA-CCT集成模型,并用python编程实现。所提出的SA-CCT模型在评估后给出了以下结果。精度:0.9429,召回率0.9167,均方误差:0.2357,准确度:0.9444
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来源期刊
Journal of Information and Organizational Sciences
Journal of Information and Organizational Sciences COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS-
CiteScore
1.10
自引率
0.00%
发文量
14
审稿时长
12 weeks
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