27 March 2009 Texture analysis using lacunarity and average local variance
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Proceedings Volume 7259, Medical Imaging 2009: Image Processing; 725953 (2009) https://doi.org/10.1117/12.812422
Event: SPIE Medical Imaging, 2009, Lake Buena Vista (Orlando Area), Florida, United States
Abstract
Texture and spatial pattern are important attributes of images and their potential as features in image classification, for example to discriminate between normal and abnormal status in medical images, has long been recognized. In order to be clinically useful, a texture metric should be robust to changes in image acquisition and digitization. We compared four multi-scale texture metrics accessible in the spatial domain (lacunarity, average local variance (ALV), and two novel variations) in terms of ease of interpretation, sensitivity and computational cost. We analyzed a variety of patterns and textures, using simple synthetic images, standard texture images, and three-dimensional point distributions. ALV is invariant to brightness, but depends on image contrast; it detects the size of a pattern element as a large peak in the plot. Lacunarity shows the periodicity within an image. Normalizing lacunarity removes its dependence on image density, but not on image brightness and contrast, so that comparisons should always be made using histogram equalized images. We extended the treatment to grayscale images directly, which is not equivalent to a weighted sum of the normalized lacunarity of the bit-plane images. Different sampling schemes were introduced and compared in terms of resolution and computational tractability. The plots can be used directly as a texture signature, and parametric features can be extracted from monotonic lacunarity plots for classification purposes.
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Dantha C. Manikka-Baduge, Geoff Dougherty, "Texture analysis using lacunarity and average local variance", Proc. SPIE 7259, Medical Imaging 2009: Image Processing, 725953 (27 March 2009); doi: 10.1117/12.812422; https://doi.org/10.1117/12.812422
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