农业工程学报2017,Vol.33Issue(5):162-169,8.DOI:10.11975/j.issn.1002-6819.2017.05.024
基于AdaBoost模型和mRMR算法的小麦白粉病遥感监测
Remote sensing monitoring of wheat powdery mildew based on AdaBoost model combining mRMR algorithm
摘要
Abstract
Wheat powdery mildew has become one of the most serious wheat diseases in China,so it is necessary for using modern remote sensing information technology to improve the monitoring ability of the disease for guiding disease prevention and ensuring Chinese grain production safety.Feature selection was one of the key issues for establishing inversion models,and the use of good feature selection method would make a direct impact on disease classification accuracy.In this study,the Landsat 8 remote sensing image was used to extract total eighteen characteristic variables.Then,we got two groups different features,and Wetness,land surface temperature (LST) and shortwave infrared water stress index (SIWSI) were obtained by correlation analysis (CA) algorithm,and Greenness,Wetness,LST,re-normalized difference vegetation index (RDVI) and simple ratio (SR) were obtained by minimum redundancy maximum relevance (mRMR) algorithm.The basic idea of AdaBoost method was through a certain category by using numbers of weak classification classifiers to get a strong classifier which has great classification ability for improving classification accuracy.It generally was used to solve the binary classification problem,and we reformed it to solve three classification problems through dichotomous dismantling way of one against all.Then,we used it and common classification method Fisher linear discriminant analysis (FLDA) and support vector machine (SVM) to monitor wheat powdery mildew occurrence severity (healthy,slight,severe) in westem Guanzhong Plain,Shaanxi province,China through two group features obtained by two different feature selection methods mentioned above.Model with mRMR algorithm combining AdaBoost method (mRMR-AdaBoost model) produced the highest Spearman relevance value (0.868) in six models.Moreover,the values of Somers'D,Goodman-Kruskal Gamma,and Kendal's Tau-c of mRMR-AdaBoost model were the highest than those of models with CA algorithm and models with mRMR algorithm which constructed by FLDA and SVM methods.It indicated that mRMR-AdaBoost model had a better performance than the other five models.The validation results showed that,the overall accuracies and the Kappa coefficient of AdaBoost models with CA and mRMR algorithms were 81.4%,0.685 and 88.4%,0.807,respectively,and they were higher by 27.9%,27.9%,14.0% and 9.3% than those of FLDA and SVM models with corresponding selection algorithms.The overall accuracies of FLDA,SVM and AdaBoost models with mRMR algorithm were higher by 7.0%,11.7% and 7.0% than those of the corresponding methodological models with CA algorithm.Furthermore,mRMR-AdaBoost model had the lowest omission and commission error in all six models.Additionally,compared with the spatial distribution results of wheat powdery mildew severities which mapped by SVM and AdaBoost models and combined with surface survey results of wheat powdery mildew occurrence severity,the mapping results of mRMR-SVM model and two AdaBoost models were similar and close to ground survey results,and among them,the results of mRMR-AdaBoost model was the closest to ground reality than the others'.These results revealed that for remote sensing monitoring of crop disease,the application of AdaBoost method had a good prospect,and for feature variables selecting of crop disease monitoring model,the minimal redundancy maximal relevance algorithm had more advantages than CA algorithm.The study results can provide a method reference for monitoring of other crop diseases.关键词
病害/遥感/监测/小麦/mRMR算法/AdaBoost方法Key words
diseases/remote sensing/monitoring/wheat/mRMR algorithm/AdaBoost method分类
农业科技引用本文复制引用
马慧琴,黄文江,景元书,董莹莹,张竞成,聂臣巍,唐翠翠,赵晋陵,黄林生..基于AdaBoost模型和mRMR算法的小麦白粉病遥感监测[J].农业工程学报,2017,33(5):162-169,8.基金项目
中国科学院国际合作局对外合作重点项目(131211KYSB20150034) (131211KYSB20150034)
国家重点研发计划项目(2016YFD030702) (2016YFD030702)
国家自然科学基金国际合作项目(61661136004) (61661136004)
国家自然科学基金项目(41271412、41601467) (41271412、41601467)
江苏省普通高校自然科学研究资助项目(15KJA170003). (15KJA170003)
