Glacier flow monitoring by digital camera and space-borne SAR images

2012 3rd International Conference on Image Processing Theory, Tools and Applications (IPTA) Pub Date : 2012-10-01 DOI:10.1109/IPTA.2012.6469541

F. Vernier, Renaud Fallourd, J. Friedt, Yajing Yan, E. Trouvé, J. Nicolas, L. Moreau

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引用次数: 11

Abstract

Most of the image processing techniques have been first proposed and developed on small size images and progressively applied to larger and larger data sets resulting from new sensors and application requirements. In geosciences, digital cameras and remote sensing images can be used to monitor glaciers and to measure their surface velocity by different techniques. However, the image size and the number of acquisitions to be processed to analyze time series become a critical issue to derive displacement fields by the conventional correlation technique. In this paper, an efficient correlation software is used to compute from optical images the motion of a serac fall and from Synthetic Aperture Radar (SAR) images the motion of Alpine glaciers. The optical images are acquired by a digital camera installed near the Argentière glacier (Chamonix, France) and the SAR images are acquired by the high resolution TerraSAR-X satellite over the Mont-Blanc area. The results illustrate the potential of this software to monitor the glacier flow with camera images acquired every 2 h and with the size of the TerraSAR-X scenes covering 30 × 50 km2.

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利用数码相机和星载SAR图像监测冰川流量

大多数图像处理技术最初是在小尺寸图像上提出和发展的，并逐渐应用于由于新的传感器和应用需求而产生的越来越大的数据集。在地球科学领域，数码相机和遥感图像可用于监测冰川，并通过不同的技术测量冰川的表面速度。然而，传统的相关技术想得到位移场时，图像的大小和需要处理的采集数据的数量是一个关键问题。本文利用一种高效的相关软件，分别从光学图像和合成孔径雷达(SAR)图像计算高山冰川的运动。光学图像由安装在argenti冰川(法国夏蒙尼)附近的数码相机获取，SAR图像由高分辨率TerraSAR-X卫星在勃朗峰地区获取。结果表明，该软件具有监测冰川流动的潜力，每2小时采集一次相机图像，TerraSAR-X场景的大小为30 × 50 km2。

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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2012 3rd International Conference on Image Processing Theory, Tools and Applications (IPTA)

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