Multi-scale Features for Detection and Segmentation of Rocks in Mars Images

Heather Dunlop, David R. Thompson, and David Wettergreen

Conference Paper, Proceedings of (CVPR) Computer Vision and Pattern Recognition, June, 2007

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Abstract

Geologists and planetary scientists will benefit from methods for accurate segmentation of rocks in natural scenes. However, rocks are poorly suited for current visual segmentation techniques - they exhibit diverse morphologies and have no uniform property to distinguish them from background soil. We address this challenge with a novel detection and segmentation method incorporating features from multiple scales. These features include local attributes such as texture, object attributes such as shading and two-dimensional shape, and scene attributes such as the direction of illumination. Our method uses a superpixel segmentation followed by region-merging to search for the most probable groups of superpixels. A learned model of rock appearances identifies whole rocks by scoring candidate superpixel groupings. We evaluate our method's performance on representative images from the Mars Exploration Rover catalog.

BibTeX

@conference{Dunlop-2007-9755,
author = {Heather Dunlop and David R. Thompson and David Wettergreen},
title = {Multi-scale Features for Detection and Segmentation of Rocks in Mars Images},
booktitle = {Proceedings of (CVPR) Computer Vision and Pattern Recognition},
year = {2007},
month = {June},
keywords = {Pattern Recognition, Segmentation, Object Detection, Science Autonomy},
}

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