微波和光学技术用于森林监测:黑森林试验

Proceedings of IEEE Topical Symposium on Combined Optical, Microwave, Earth and Atmosphere Sensing Pub Date : 1993-03-22 DOI:10.1109/COMEAS.1993.700181

C. Lavalle, G. Schmuck, A. Sieber, G. Andreoli, B. Hosgood, G. Kattenborn, C. Pohl, S. Ustin

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引用次数: 2

摘要

在1991年夏季，多传感器战役mac -欧洲91在欧洲的几个试验场进行。联合研究中心遥感应用研究所选择德国南部的黑森林地区进行试验。德国林业部提供的密集地面实况制图和资料补充了该场址的遥感数据集。植被层反射电磁波的信息内容通过使用从可见光到微波区域的大型传感器(AVIRIS、TMS、GER 11、AIRSAR)来开发。在本文中，我们介绍了通过计算在同一试验场获得的光学(NDVI,MSI,GEMI, Red edge)和雷达(背散射功率，偏振指数)数据的经典指数获得的初步结果。首先对辐射校准的光学数据进行大气效应校正，对GER I1数据使用经验方法，对AVIRIS数据使用大气去除程序。雷达图像经过校准和地理参考。然后产生了各种指数。文献表明，这些指标对生物量(叶、木)、水分含量、树木生长阶段(结构、损伤)等冠层特征都很敏感。检索到的指数与这些变量的可用地面信息相关联，并对该特定试验点的性能进行了评估。

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Microwave And Optical Techniques For Forest Monitoring: The Black Forest Experiment

During the Summer 1991 the multisensor campaign MAC-Europe 91 took place over several test sites in Europe. The Institute for Remote Sensing Application of the Joint Research Centre selected the Black Forest area in South Germany for the experiment. Intensive ground truth mapping and information provided by the German Forestry department complemented the remote sensed data sets over the site. The information content of the electromagnetic wave reflected by the vegetation layer is exploited by using a large class of sensors (AVIRIS, TMS, GER 11, AIRSAR) operating from the visible to the microwave regions. In this paper we present preliminary results achieved by computing classical indices derived from optical (NDVI,MSI,GEMI, Red edge ) and radar (backscattered power,polarization indices) data acquired on the same test site.The radiometrically calibrated optical data were first corrected for atmospheric effects, using an empirical method for the GER I1 data and the Atmospheric Removal Procedure for the AVIRIS data. The radar images were calibrated and georeferenced. The various indices were then produced. According to literature, these indices are sensitive to a variety of canopy characteristics such as biomass (leafy and woody), water content and tree growth stage (structure, damage). The retrieved indices were correlated with the available ground information on these variables and their performance was assessed for this particular test site.

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来源期刊

Proceedings of IEEE Topical Symposium on Combined Optical, Microwave, Earth and Atmosphere Sensing

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