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| 基于SWIR-Red光谱特征空间的农田干旱监测新方法 | |
| 作者姓名: | Feng HX Qin QM Li BY Liu F Jiang HB Dong H Wang JL Liu MC Zhang N |
| 作者单位: | 1. 北京大学遥感与GIS研究所,北京 100871;山东交通学院,山东济南250023 2. 北京大学遥感与GIS研究所,北京,100871 3. 国家海洋环境监测中心,辽宁大连,110623 |
| 基金项目: | 国家高技术研究发展计划(863计划)项目(2008AA121806); 公益性行业(气象)专项(GYHY200806022); 国家自然科学基金项目(40771148)资助 |
| 摘 要: | 干旱是一种频繁发生的自然灾害,遥感监测干旱已成为重要的研究方向。可从农田遥感干旱监测最主要的两种地物类型(植被和土壤)的光谱特性分析入手,选择了对水分变化敏感的红光、短波红外波段来监测干旱状况,以短波红外与红光的差值和短波红外与红光的和构建新的光谱空间特征,提出了干旱监测的新方法——归一化的干旱监测指数NPDI。用野外实测的土壤含水量对NPDI模型进行验证,结果表明:NPDI,MPDI与10cm处的土壤含水量模型都具有较高的相关性,其R2分别为0.583和0.438,NPDI模型的监测效果要优于MPDI。此模型是对PDI,MPDI和SPSI等模型的进一步改进,可实现对不同植被覆盖度的、整个生长季的农田干旱监测,在实际的农田干旱监测中具有较高的应用潜力和推广价值。 |
| 关 键 词: | SWIR-Red光谱特征空间 归一化的干旱监测指数 遥感监测 |
The new method monitoring agricultural drought based on SWIR-Red spectrum feature space |
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| Feng HX,Qin QM,Li BY,Liu F,Jiang HB,Dong H,Wang JL,Liu MC,Zhang N.The new method monitoring agricultural drought based on SWIR-Red spectrum feature space[J].Spectroscopy and Spectral Analysis,2011,31(11):3069-3073. | |
| Authors: | Feng Hai-Xia Qin Qi-Ming Li Bin-Yong Liu Fang Jiang Hong-Bo Dong Heng Wang Jin-Liang Liu Ming-Chao Zhang Ning |
| Institution: | FENG Hai-xia1,3,QIN Qi-ming1,LI Bin-yong2,LIU Fang1,JIANG Hong-bo1,DONG Heng1,WANG Jin-liang1,LIU Ming-chao1,ZHANG Ning1 1.Institute of Remote Sensing and GIS,Peking University,Beijing 100871,China 2.National Marine Environmental Monitoring Center,Dalian 110623,China 3.Shandong Jiaotong University,Ji'nan 250023,China |
| Abstract: | Drought was a chronic, natural disaster, and Remote sensing drought monitoring had become a potential research field. In the present, short-wave infrared and red bands which sensitive to moisture variation were selected to monitor farmland drought conditions by analyzing the spectral characteristics of vegetation and soil. The goal of this paper was to provide a new method of drought monitoring--normalized drought monitoring index (NPDI), based on new constructed spectrum feature space by the difference of SWIR and Red and the sum of SWIR and Red. Field surveyed soil moisture verified NPDI model, and the result showed that NDPI and MPDI model could effectively monitor agricultural drought, and that had high correlation with soil moisture. The R2 was 0.583 and 0.438 with soil water of 10 cm. The monitoring effect of NPDI model was better than the MPDL. This model was further improvement to PDI and MPDI, and it could monitor the drought condition of different vegetation coverage and whole growing season. It has high application potential and popularization value. |
| Keywords: | SWIR-Red spectrum feature space Normalized drought monitoring index(NPDI) Remote drought monitoring |
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