Efficient Algorithms for Atmospheric Correction of Remotely Sensed Data

Proceedings of the IEEE/ACM SC95 Conference Pub Date : 1995-12-08 DOI:10.1145/224170.224194

Hassan Fallah-Adl, J. JáJá, S. Liang, Y. Kaufman, J. Townshend

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引用次数: 9

Abstract

Remotely sensed imagery has been used for developing and validating various studies regarding land cover dynamics. However, the large amounts of imagery collected by the satellites are largely contaminated by the effects of atmospheric particles. The objective of atmospheric correction is to retrieve the surface reflectance from remotely sensed imagery by removing the atmospheric effects. We introduce a number of computational techniques that lead to a substantial speedup of an atmospheric correction algorithm based on using look-up tables. Excluding I/O time, the previous known implementation processes one pixel at a time and requires about 2.63 seconds per pixel on a SPARC-10 machine, while our implementation is based on processing the whole image and takes about 4-20 microseconds per pixel on the same machine. We also develop a parallel version of our algorithm that is scalable in terms of both computation and I/O. Experimental results obtained show that a Thematic Mapper (TM) image (36 MB per band, 5 bands need to be corrected) can be handled in less than 4.3 minutes on a 32-node CM-5 machine, including I/O time.

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遥感数据大气校正的有效算法

遥感影像已被用于发展和验证关于土地覆盖动态的各种研究。然而，卫星收集的大量图像在很大程度上受到大气颗粒影响的污染。大气校正的目的是通过去除大气影响，从遥感影像中恢复地表反射率。我们介绍了一些计算技术，这些技术可以大大提高基于查找表的大气校正算法的速度。除去I/O时间，以前已知的实现一次处理一个像素，在SPARC-10机器上每像素需要大约2.63秒，而我们的实现基于处理整个图像，在同一台机器上每像素需要大约4-20微秒。我们还开发了我们算法的并行版本，它在计算和I/O方面都是可扩展的。实验结果表明，在32节点的CM-5机器上，包括I/O时间在内，处理一张Thematic Mapper (TM)图像(每波段36 MB，需要校正5个波段)的时间不到4.3分钟。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the IEEE/ACM SC95 Conference

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