NDLI: Use of classification and segmentation of sidescan sonar images for long term registration

Content Provider	IEEE Xplore Digital Library
Author	Leblond, I. Legris, M. Solaiman, B.
Copyright Year	2005
Description	Author affiliation: ENSIETA, Brest, France (Leblond, I.; Legris, M.; Solaiman, B.)
Abstract	This article handles the possibility of using classification and segmentation of sidescan sonar images for long term registration. In our case, long term registration means to find the displacement between two images which can have been mapped with many weeks or many months between them. The aim of this study is to help AUVs (autonomous underwater vehicles) to navigate, in particular to correct the drift of navigation sensors. This type of positioning raises two sorts of problems, which come from image properties: spatial variability and temporal variability. The first one is caused above all by the sonar geometry and appears for example like a modification of the shape or the position of the shadow according to the point of view. This effect can also be seen in textures, for example on megaripples of sand, which can be more or less visible depending on the point of view of the sonar. The second one is more the consequence of the seafloor physics: between two images, mapped at different times, some elements may have changed. An obvious example is the presence of evanescent "objects" like fishes but this variability can also be seen on sediments, which borders can move due to local bottom dynamics. With the aim to solve these problems and to provide reliable landmarks for matching, we decided to classify and segment the images. The data have first been corrected from TVG (time varying gain) effects and despeckelised in order to process images which are more representative of the seafloor. The basis idea is to use a supervised method of classification. To do that, we consider some parameters which are coming from a decomposition by Gabor filters, in order to segment with linear discriminant analysis and use of the nearest neighbour method. Registration needs accurately localised landmarks: so, this operation is split in several stages, refining step by step the classification, in order to obtain a map which describes the seafloor with the most possible detailed frontiers. Then, we present the obtained results considering five texture classes: rocks, megaripples, sand, mud and shadow. These several areas and their frontiers are the basis landmarks to match the images. However, before using the segmentation, we must check its reliability. So, it appears that the frontiers, though they are realistic, are not accurate enough to make a registration precise to few pixels, especially in rock areas. Similarly, according to the orientation of the ripples, they may be seen as ripples or sand. These observations are due to the directivity of the sonar, which caused these effects on the segmentation. To do registration, we must take into account these problems. So, the results of the segmentation will be used only for a coarse registration, in order to find quickly the area of interest but also to assess the reliability of our registration (matching on ripples areas is a priori less reliable than on rocks areas). The results of registration are shown, proving the good adequacy between reference image and test image. Others methods, more quantitative, will be able to be tested, to refine the results.
Starting Page	322
Ending Page	327
File Size	1165772
Page Count	6
File Format	PDF
ISBN	0780391039
DOI	10.1109/OCEANSE.2005.1511734
Language	English
Publisher	Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Publisher Date	2005-06-20
Publisher Place	France
Access Restriction	Subscribed
Rights Holder	Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subject Keyword	Image segmentation Sonar navigation Sea floor Testing Underwater vehicles Geometry Shape Physics Marine animals Sediments
Content Type	Text
Resource Type	Article

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