物理模型与经验模型相结合的多传感器观测数据的定量融合

2012 4th International Conference on Intelligent Human-Machine Systems and Cybernetics Pub Date : 2012-08-26 DOI:10.1109/IHMSC.2012.177

Yang Liu, Ronggao Liu, Xiao Cheng

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引用次数: 0

摘要

卫星多传感器观测数据的融合将改善陆地表面监测。基于物理模型的遥感反演大气和地表参数具有大面积适用性，是目前最常用的遥感反演大气和地表参数的方法，而经验模型的效率更高，约束条件更少。提出了一种结合物理模型和经验模型的基于像素的多传感器观测数据定量融合算法。首先，基于物理模型从一个传感器数据中检索参数，然后利用该参数与另一个传感器的测量值建立基于像素的经验关系。因此，两种检索方法可以结合起来，两个传感器的观测结果也可以融合。该算法将多角度MISR与高时间分辨率MODIS相融合，用于叶面积指数(LAI)的反演。利用长白山野外实测资料对研究结果进行了评价。

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Quantitative Fusion of Multi-sensor Observations with Combination of Physical and Empirical Models

Fusion of multi-sensor observations of satellites would improve land surface monitoring. Physical-based model is the most popular method for retrieval of atmospheric and land surface parameters from remote sensing data for its applicability for large area, while empirical model is more efficient and requires fewer constraints. In this paper, a pixel-based quantitative fusion algorithm of multi-sensor observations with combination of physical and empirical model is presented. Firstly, the parameter was retrieved from one sensor data based on physical model, and then used to establish the pixel-based empirical relationships with measurements of another sensor. Thus, the two retrieval methods could be combined and the observations of two sensors could also be fused. The algorithm was applied to fuse MISR with multi-angular measurements and MODIS with high temporal resolution for retrieval of Leaf Area Index (LAI). The results were evaluated using field measurements in Changbaishan.

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2012 4th International Conference on Intelligent Human-Machine Systems and Cybernetics

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