Automated Assistance for Breast Cancer Identification on Mammograms Using Computer Vision Algorithms

: One of the greatest health problems in the world is breast cancer. If these breast cancer abnormalities are identified early, there is a maximum chance of recovery. We can go for this early prediction. It is one of the most effective detection and screening strategies and is widely used. The basic goal of CAD systems is to support physicians in the process of diagnosis. CAD systems, however, are very expensive. Our emphasis is on developing a CAD system that is low-cost and effective. To categorize breast cancer as either benign or malignant, a computer-aided detection approach is suggested. The standard mammogram image corpus, Digital Database used for Screening Mammography, images are used for enhancement, segmented and GLCM, intensity and histogram methods are used to extract features. The work is carried out by effective multilayer perceptron classifier (MLP) and support vector machine (SVM). Compare the performance of the classifiers. The proposed approach achieved 96 % accuracy and 8% improvement in accuracy compared to previous approaches with same dataset [4].


Introduction
Breast cancer detection is a more focused research area now. Early detection of breast cancer is very important to save women life. Breast cancer is the world second disease of women death rate. Breast cancer can affect men also But 100 time common in women. According to American cancer society survey report mentioned in 2017 men also diagnosed 2470 new cases of invasive breast cancer. According to national cancer institute one out of 8 women has a chance of being diagnosed by breast cancer. Women who have blood relatives like sisters brothers they have high risk factor [1][2][3][4][5].
This paper therefore proposes an integrated computer-aided diagnostic device that helps radiologists diagnose and identify digital mammograms for breast cancer. Section II explains about the literature review and existing methods. Section III gives proposed method, section IV explains results and analysis and section V explains conclusion.

Related Work
Assessed affectability of the radiologist in screening for breast cancer. It is only around 70%, so execution will be improved. IN the off chance that the conceivable region was incited to them of the norm's variants. CAD System of breast malignancy they can provide such assistance and are necessary and valuable for that controlling breast development. Mammography provides a philosophy to assist radiologists to identify the majority of mammogram photographs. And to arrange them as rare or ordinary [6]. Likewise, it should differentiate the growth of cells that are small effectively. Multi-day classifiers currently presume a noteworthy therapeutic conclusion role. The Area of Interest (ROI) was viewed as the improved sharp Edge or mammogram picture boundaries. Segmentation is now segmentation, using common statistical-driven morphology based on ROI Approximations. Three key steps were performed in this work. First Method the unnecessary marks and labels in the picture should be removed [9 -13]. Then one, then Segmentation based on strength is performed to remove pectoral muscles. The transformation of Hough after pectoral muscle segmentation is for extracting functions, done on ROI. This is an important way for a trend to be remembered. It is a method of image transformation in which it is possible to obtain a particular image with a specific shape within an image. It also turns an original image into a 2D function. The extraction of features plays an important part in classification. The function extracted from the transform of Hough is used to explain them as being natural or unusual. Multiple strategies like Bricial Neural networks, LDA-Linear analysis of discriminant, methods of closest neighbor were used. SVM classifiers are used in this work to identify the data obtained from the extraction of features [7][8][9][10][11][12][13][14][15].
Mammogram picture ROI is classified into the highest possible. Amount of small squared shape area nonoverlapping of fixed region size for further research to obtain a broad dataset. A traditional one in general, the mammogram classification scheme consists of four Sequential steps: (1) Enhancement of image (2)

Proposed Methodology
In the medical area, improving image quality in computing is the use of computers to explain images [1]. Noise reduction, point rise, and contrast enhancement comprise the forms of image quality improvements. Quality enhancement may be used to restore a bad image or to boost those image characteristics [2]. Mammography is the testing of the breast gland that is used to detect early breast cancer by using X-rays. The goal of digital mammography is to apply digital device techniques to digital mammograms. There is a capacity for automated systems to detect breast cancer. In order to generate high-resolution digital mammograms without losing information from original mammograms, 12 bit resolution detection is typically needed. Due to the low illumination and high noise in the image that can exceed 10-15 percent of the full pixel intensity, mammography analysis is a challenge. The most difficult images to analyze and interpret are mammograms [2]. This proposed method: 1. Getting the images from DDSM. 2 Improved image quality, at this stage the image quality is improved so that it is easy to process mammography images. 3 Image segmentation, the segmentation stage aims to divide the image into segments so that the form is suitable for processing. 4 Extraction of features, this is done to get the features that exist in the image. 5 Classification, after getting information from the image, existing images are classified into two, whether normal or cancerous.

Fig. 4. Fuzzy based Image Enhancement
We are using Gaussian function to find out the membership function. We are using five points minimum equal to ∞, maximum equal to max, mean equal to (min + max)/2, b1 equal to (mean + ∞)/2, b2 equal to (max + ∞)/2. We will get all values. Based on the fuzzy rules we will get enhanced image. The enhanced image is further processed for segmentation. After segmentation we are going to find the 6 features. Those features contrast, standard deviation, mean, kurtosis, variance and smoothness. These features are given to the two classifiers that is SVM and MLP [10][11][12][13][14][15].

Feature Extraction
Algorithm of GLCM (Gray Level Co-Occurrence Matrix) is a two-dimensional matrix representing gray level variations in the image. The GLCMM measurement is a measure of a sort of correlation, energy, contrast, entropy, homogeinity.  In this work we have tested two different databases.

Conclusion and Future Scope
Breast cancer classification is a critical stage for the success of a machine has helped diagnose breast cancer. This decreases the by lowering the excessive biopsy and the false positive rate the cost of hospitals as well.
Various classifiers have been used in Application of biomedical imaging, such as breast cancer diagnosis using mammograms. ANN demonstrates really fine in medical diagnostic systems, performance. In this paper. The standard of the proposed algorithm in terms of performance and adaptability, structure is assessed. On 100 images containing normal and cancer, it was evaluated. The accuracy is increased 88% to 96% that is 8% and negative rate of the metrics is reduced from 11.67 to 5 that is 6.67. The proposed methodology works well.