Abstract
The study of sand dunes movement is essential to understand and prevent the desertification phenomenon, and collecting data from the field is a labor intensive task, as deserts contain usually a large number of sand dunes. We propose to use computer vision and machine learning algorithms, combined with remote sensing and specifically high resolution satellite images for collecting data about the position and characteristics of moving sand dunes. We focused on the fastest moving sand dunes called barchans, which are threatening the settlements in the region of Laayoune, Morocco. We developed a process with three stages: In the first stage, we used an image processing approach with cascading Haar features for the detection of dunes location. In the second stage, we used a support vector machine for the segmentation of contours, and in the third stage we used an algorithm to measure the allometric features of barchans dunes. We explored the collected data, and found relevant correlations between dunes length, and width, and horns sizes, which could be used as key indicators for dunes growth and progression. This study is therefore of high interest for urban planners and geologists who study sand dunes and require technical methods, based on machine learning and computer vision to allow them to collect large amount of data from satellite images to understand sand dunes progression and counter desertification problems. The use of cascading Haar feature provided a good accuracy, and the use of Support Vector Machines, along with the high resolution satellite images provided a good precision for the segmentation of barchan dunes contours, allowing the collection of morphological features which provide significant information on barchans sand dunes dynamics.
Highlights
As we showed in the previous paragraphs, there were many studies for quantifying sand dunes dynamics, but very few used computer vision and machine learning approaches, and no study in our knowledge went through the entire process from the detection of barchans dunes in satellite image, image segmentation and the automatic measurement and comparison of features with allometry algorithms
The area contains hundreds of sand dunes, and we focused on a sub area where dunes were not colliding much
Our contribution is an end to end process which starts from the raw high resolution satellite image, which we enhanced, using a Haar classfier we found dunes candidates, for each validated candidate, we segmented its contours using Scale-Invariant Feature Transform (SIFT) features and an SVM
Summary
Barchan sand dunes are the fastest moving sand dunes, they pose a problem to human settlements in desert arid and semi-arid regions around the world, as they could cover the farmlands, and cause the degradation of cultivated crops, damage houses, and trigger immigration. The study of sand dunes, and especially the fastest moving ones called barchans is important, and their large scale implies the use of advanced computer science and machine learning methods, in order to provide more relevant quantitative data, which can be used to assist specialists to understand better this phenomenon, and help decision makers to get an meaningful insight, and contribute to find more efficient solutions to limit the impact of barchans dunes progression on human activities.
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