A biologically inspired saliency model for color fundus images

Proceedings. Indian Conference on Computer Vision, Graphics & Image Processing Pub Date : 2016-12-18 DOI:10.1145/3009977.3010041

Samrudhdhi B. Rangrej, J. Sivaswamy

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Abstract

Saliency computation is widely studied in computer vision but not in medical imaging. Existing computational saliency models have been developed for general (natural) images and hence may not be suitable for medical images. This is due to the variety of imaging modalities and the requirement of the models to capture not only normal but also deviations from normal anatomy. We present a biologically inspired model for colour fundus images and illustrate it for the case of diabetic retinopathy. The proposed model uses spatially-varying morphological operations to enhance lesions locally and combines an ensemble of results, of such operations, to generate the saliency map. The model is validated against an average Human Gaze map of 15 experts and found to have 10% higher recall (at 100% precision) than four leading saliency models proposed for natural images. The F-score for match with manual lesion markings by 5 experts was 0.4 (as opposed to 0.532 for gaze map) for our model and very poor for existing models. The model's utility is shown via a novel enhancement method which employs saliency to selectively enhance the abnormal regions and this was found to boost their contrast to noise ratio by ∼ 30%.

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彩色眼底图像的生物学启发的显著性模型

显著性计算在计算机视觉领域得到了广泛的研究，但在医学成像领域却没有得到广泛的研究。现有的计算显著性模型是为一般(自然)图像开发的，因此可能不适用于医学图像。这是由于各种各样的成像方式和模型的要求，不仅要捕获正常的，而且偏离正常解剖。我们提出了一个生物启发模型彩色眼底图像和说明它的情况下，糖尿病视网膜病变。所提出的模型使用空间变化的形态学操作来局部增强病变，并结合这些操作的结果集合来生成显著性图。该模型与15位专家的平均人类凝视图进行了验证，发现与针对自然图像提出的四种主要显著性模型相比，该模型的召回率(100%精度)提高了10%。对于我们的模型，5位专家与手动病变标记匹配的f值为0.4(相对于凝视图的0.532)，对于现有模型来说非常差。该模型的效用通过一种新颖的增强方法来显示，该方法采用显著性来选择性地增强异常区域，并发现这可以将其对比度与噪声比提高约30%。

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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Proceedings. Indian Conference on Computer Vision, Graphics & Image Processing

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