期刊文献+

基于Google Earth Engine与机器学习的黄土梯田动态监测 被引量:3

Dynamic monitoring of loess terraces based on Google Earth Engine and machine learning
下载PDF
导出
摘要 【目的】梯田是黄土高原最重要的水土保持措施和农业生产措施,高效、准确地获取长时间序列黄土梯田分布信息,对黄土高原的水土保持监测和评价十分重要。【方法】在Google Earth Engine(GEE)的支持下,以宁夏回族自治区固原市为研究区,使用遥感影像监督识别技术,对比随机森林(RF)、决策树(CART)、支持向量机(SVM)等3种机器学习算法的识别精度,探讨LandTrendr算法在长时间序列动态监测中的优化应用,最终获取固原市近30 a梯田分布信息。【结果】(1)3种算法识别精度从大至小依次为随机森林、决策树、支持向量机。(2)使用随机森林算法识别梯田,基于样点检验总体精度达94.10%,Kappa系数达0.87,基于实地斑块检验总体精度达93.33%,Kappa系数达0.80。(3)LandTrendr算法能有效校正时间序列中的错误值。(4)1988-2019年,固原市梯田面积减少了45.90%。(5)固原市西部的梯田使用时间较东部更长。【结论】采用本研究方法在GEE云平台可以高效、准确地遥感监测长时序、大尺度的黄土梯田。固原市近30 a梯田农业比例逐渐下降,促进了生态环境持续向好发展。图4表3参22。 [Objective]Terraces are the most important soil and water conservation measures and agricultural production measures in the Loess Plateau,the main region of soil and water loss and the key region of ecological environmental construction in China.The purpose of this study is to obtain the distribution information of loess terraces in a long time series efficiently and accurately,so as to monitor and evaluate soil and water loss in the Loess Plateau.[Method]Google Earth Engine(GEE),a cloud-based platform of remote sensing with high-performance computing resources,was used in this study.Guyuan City of Ningxia,a gully region of the Loess Plateau,was taken as the research area.The recognition accuracy of three machine learning algorithms,including random forest(RF),decision tree(CART)and support vector machine(SVM),was compared by using remote sensing image supervised recognition technology,and the optimized application of LandTrendr algorithm in long-time series dynamic monitoring was discussed.Finally,the distribution of terraces in Guyuan City in recent 30 years was obtained.[Result](1)The order of identification accuracy of the three algorithms from large to small was RF,CART,and SVM.(2)Using random forest algorithm to identify terraces,the overall accuracy based on sample test was 94.10%,Kappa coefficient 0.87,and the overall accuracy based on field patch test was 93.33%,Kappa coefficient 0.80.(3)LandTrendr algorithm can effectively correct the errors in the time series and improve the accuracy of time series identification.(4)From1988 to 2019,the area of terraces in Guyuan decreased by 45.90%.(5)The time to use terraces in the west of Guyuan was longer than that in the east.[Conclusion]The RF machine learning algorithm combined with Land Trendr algorithm on GEE can efficiently and accurately monitor long-term and large-scale loess terraces.In the past 30 years,the proportion of terrace agriculture in Guyuan City has gradually declined,which promotes the sustainable development of ecological environment.[Ch,4 fig.3 tab.22 ref.].
作者 李万源 田佳 马琴 金学娟 杨泽康 杨鹏辉 LI Wanyuan;TIAN Jia;MA Qin;JIN Xuejuan;YANG Zekang;YANG Penghui(School of Agriculture,Ningxia University,Yinchuan 750021,Ningxia,China)
机构地区 宁夏大学农学院
出处 《浙江农林大学学报》 CAS CSCD 北大核心 2021年第4期730-736,共7页 Journal of Zhejiang A&F University
基金 国家自然科学基金资助项目(31960330)。
关键词 黄土梯田 Google Earth Engine 遥感 机器学习 LandTrendr loess terraces Google Earth Engine(GEE) remote sensing machine learning LandTrendr
  • 相关文献

参考文献14

二级参考文献190

共引文献535

同被引文献49

引证文献3

二级引证文献7

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部