Abstract
Breast cancer is the most diagnosed cancer in Australia with crude incidence rates increasing drastically from 62.8 at ages 35–39 to 271.4 at ages 50–54 (cases per 100,000 women). Various researchers have proposed methods and tools based on Machine Learning and Convolutional Neural Networks for assessing mammographic images, but these methods have produced detection and interpretation errors resulting in false-positive and false-negative cases when used in the real world. We believe that this problem can potentially be resolved by implementing effective image pre-processing techniques to create training data for Deep-CNN. Therefore, the main aim of this research is to propose effective image pre-processing methods to create datasets that can save computational time for the neural network and improve accuracy and classification rates. To do so, this research proposes methods for background removal, pectoral muscle removal, adding noise to the images, and image enhancements. Adding noise without affecting the quality of details in the images makes the input images for the neural network more representative, which may improve the performance of the neural network model when used in the real world. The proposed method for background removal is the “Rolling Ball Algorithm” and “Huang’s Fuzzy Thresholding”, which succeed in removing background from 100% of the images. For pectoral muscle removal “Canny Edge Detection” and “Hough’s Line Transform” are used, which removed muscle from 99.06% of the images. “Invert”, “CTI_RAS” and “ISOCONTOUR” lookup tables (LUTs) were used for image enhancements to outline the ROIs and regions within the ROIs.
Highlights
Breast cancer is the most common type of cancer affecting women worldwide
REMOVAL Background removal has been applied to a total of 322 images from the Mammographic Image Analysis Society’’ (MIAS) dataset
For images with curved muscle boundaries, the remainder after application of these removal methods is addressed by implementation of Look Up Tables (LUTs) to highlight the region of interest (ROI) and regions within the ROIs
Summary
Breast cancer is the most common type of cancer affecting women worldwide. The incidence and mortality rates vary among countries, based on factors such as environment, access to advanced medical care, income levels, etc., [1]. There is a shortage of radiologists in Australia and around the world [5], especially in regional areas and under-developed countries. This can lead to delays in diagnosis and treatment. After removing the background from the original images using the proposed method, the results are generated in terms of histograms. Evaluation of the significance of the results is based on the histogram values of the background removed images. Two datasets are created with histogram results of 31 random background removed images each. An ‘‘Alternative Hypothesis’’ stating the opposite of the null hypothesis is created These hypotheses are used to determine the significance of the results
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