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Journal of Artificial Intelligence and Metaheuristics
Volume 5 , Issue 1, PP: 16-28 , 2023 | Cite this article as | XML | Html |PDF

Title

Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN

  Mohamed Saber 1 * ,   Nader Behdad 2 ,   Ehsaneh khodadadi 3

1  Electronics and Communications Engineering Department, Faculty of Engineering, Delta University for Science and Technology, Gamasa City 11152, Egypt
    (Mohamed.saber@deltauniv.edu.eg)

2  Electrical and Computer Engineering , The Polytechnic University of the Philippines, Manila, 1016, Philippines
    (ohowpy@gmail.com)

3  Department of Chemistry and Biochemistry, University of Arkansas, Fayetteville, AR 72701, USA.
    (ekhodada@uark.edu)

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Doi   :   https://doi.org/10.54216/JAIM.050102

Received: November 28, 2022 Revised: April 24, 2023 Accepted: July 26, 2023

Abstract :

According to cancer reports from the past few years in India, thirty percent of instances are breast cancer, and furthermore, it is possible that this percentage would increase in the near future. In addition, one woman is given a diagnosis every two minutes, and another woman passes away every nine minutes as a result of her condition. People who are diagnosed with cancer at an earlier stage have a better chance of survival. Micro calcifications are one of the most important symptoms to look out for when trying to diagnose breast cancer in its earlier stages. Several scientific investigations have been carried out in an effort to combat this illness, for which techniques related to machine learning can be utilized to a significant extent. Particle swarm optimization, often known as PSO, is acknowledged as one of several effective and promising methods for identifying breast cancer. This method helps medical professionals administer treatment that is both timely and appropriate. The weighted particle swarm optimization (WPSO) approach is utilized in this work for the purpose of extracting textural information from the segmented mammography picture for the purpose of classifying micro calcifications as normal, benign, or malignant, hence increasing the accuracy. A portion of the cancerous growth is removed from the breast region using optimizing techniques. In this article, Convolutional Neural Networks (CNNs) are presented for the purpose of identifying breast cancer in order to cut down on the amount of manual overhead. The CNN framework is built in order to extract features as effectively as possible. This algorithm was developed to identify areas in mammograms (MG) that are suspicious for cancer and to classify those areas as normal or abnormal as quickly as possible. This model makes use of MG pictures that were gathered from a variety of hospitals in the surrounding area.

Keywords :

Breast cancer; microcalcifications; weighted particle swarm optimization (WPSO); Convolutional Neural Networks (CNNs) mammogram.

References :

[1] Ganggayah, Mogana Darshini, Predicting factors for survival of breast cancer patients using machine learning techniques. BMC medical informatics and decision making, 19(1), 1-17, 2019.

[2] Houssein Essam H et al., Deep and machine learning techniques for medical imaging-based breast cancer: A comprehensive review. Expert Systems with Applications,167, 2021.

[3] Beura S, Majhi B, Dash R, Roy S, Classification of mammogram using two-dimensional discrete orthonormal S-transform for breast cancer detection. Healthc Technol Lett., 2(3), 46-51, 2015.

[4] Hamian M, Darvishan A, Hosseinzadeh M, Lariche MJ, Ghadimi N, Nouri A, A framework to expedite joint energy reserve payment cost minimization using a custom-designed method based on mixed integer genetic algorithm. Engineering Applications in Artificial Intelligence,72, 203-212, 2018.

[5] Leng H, Li X, Zhu J, Tang H, Zhang Z, Ghadimi N, A new wind power prediction method based on ridgelet transforms, hybrid feature selection and closed-loop forecasting. Advances in Engineering Information, 36, 20-30, 2018.

[6] Qi X, Zhang L, Chen Y, Automated diagnosis of breast ultrasonography images using deep neural networks. Medical Image Analysis, 52, 185-198, 2019.

[7] Asri H, Mousannif H, AlMoatassime H, Nodel H, Using machine learning algorithms for breast cancer risk prediction and diagnosis. Procedia Computer Science, 83, 1064-1069, 2016.

[8] Mohamed Saber, A novel design and Implementation of FBMC transceiver for low power applications, Indonesian Journal of Electrical Engineering and Informatics (IJEEI), 8(1), 83-93, 2020.

[9] Aalaei S, Shahraki H, Rowhanimanesh A, Eslami S, Feature selection using genetic algorithm for breast cancer diagnosis: Experiment on three different datasets. Iran Journal of Basic Medical Sciences, 19(5), 476-482, 2016.

[10] M. M. E. Bahy, S. A. Ward, M. Badawi and R. Morsi, "Particle-initiated negative corona in co-axial cylindrical configuration. Annual Report Conference on Electrical Insulation and Dielectric Phenomena, Montreal, QC, Canada, 343-348, 2012.

[11] E. M. Shaalan, S. M. Ghania and S. A. Ward, Analysis of electric field inside HV substations using charge simulation method in three dimensional. Annual Report Conference on Electrical Insulation and Dielectic Phenomena, West Lafayette, IN, USA,1-5, 2010.

[12] Mohamed A. Abouelatta, et al. , Measurement and assessment of corona current density for HVDC bundle conductors by FDM integrated with full multigrid technique. Electric Power Systems Research, 199, 2021.

[13] Muslim M, Hardiyanti S, Sugiharti E, Prasetiyo B, Alimah S, Optimization of C4.5 algorithm-based particle swarm optimization for breast cancer diagnosis. International Conference on Mathematics, Science and Education 2017 (ICMSE2017), 1-7, 2016.

[14] Sahu B, Nandan S, Mohanty Kumar Rout S, A hybrid approach for breast cancer classification and diagnosis. EAI Endorsed Transactions on Scalable Information Systems, 1-8, 2019.

[15] M. Saber, Efficient phase recovery system, Indonesian Journal of Electrical Engineering and Computer Science (lJEECS), 5(1), 123-129, 2017.

[16] Ting FF, Tan YJ, Sim KS, Convolutional neural network improvement for breast cancer classification. Expert Systems and Applications,120, 103-115, 2019.

[17] Arau´jo T, Aresta G, Castro E, Rouco J, Aguiar P, Eloy C, et al., Classification of breast cancer histology images using Convolutional Neural Networks. PLoS ONE, 12(6), 2017.

[18] Eid Marwa M, Fawaz Alassery, Abdelhameed Ibrahim, and Mohamed Saber, Metaheuristic optimization algorithm for signals classification of electroencephalography channels. Computers, Materials & Continua, 71(3), 4627-4641, 2022.

[19] El-kenawy El-Sayed M, Marwa M Eid, Abdelhameed Ibrahim, Anemia estimation for covid-19 patients using a machine learning model. Journal of Computer Science and Information Systems, 17(11), 2021.

[20] Dhungel, N., Carneiro, G., Bradley, A.P., A deep learning approach for the analysis of masses in mammograms with minimal user intervention. Med. Image Anal. 37,114–128, 2017.

[21] Al-antari, Mugahed A., Han, Seung-Moo; Kim, Tae-Seong, Evaluation of deep learning detection and classification towards computer-aided diagnosis of breast lesions in digital X-ray mammograms. Computer Methods and Programs in Biomedicine, 196, 2020.

[22] Fang Yan, Zhao Jing, Hu Lingzhi, Ying Xiaoping, Pan Yanfang, Wang Xiaoping, Image Classification toward Breast Cancer using Deeply-Learned Quality features. Journal of Visual Communication and Image Representation, 64, 2019.

[23] Alharbi AH et al., Diagnosis of Monkeypox Disease Using Transfer Learning and Binary Advanced Dipper Throated Optimization Algorithm. Biomimetics, 8(3),313, 2023.

[24] Hu Zilong, Tang Jinshan, Wang Ziming, Zhang Kai, Zhang Lin, Sun Qingling, Deep learning for image-based cancer detection and diagnosis − A survey. Pattern Recognition,83,134–149, 2018.

 

Cite this Article as :
Style #
MLA Mohamed Saber, Nader Behdad, Ehsaneh khodadadi. "Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN." Journal of Artificial Intelligence and Metaheuristics, Vol. 5, No. 1, 2023 ,PP. 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)
APA Mohamed Saber, Nader Behdad, Ehsaneh khodadadi. (2023). Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN. Journal of Journal of Artificial Intelligence and Metaheuristics, 5 ( 1 ), 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)
Chicago Mohamed Saber, Nader Behdad, Ehsaneh khodadadi. "Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN." Journal of Journal of Artificial Intelligence and Metaheuristics, 5 no. 1 (2023): 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)
Harvard Mohamed Saber, Nader Behdad, Ehsaneh khodadadi. (2023). Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN. Journal of Journal of Artificial Intelligence and Metaheuristics, 5 ( 1 ), 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)
Vancouver Mohamed Saber, Nader Behdad, Ehsaneh khodadadi. Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN. Journal of Journal of Artificial Intelligence and Metaheuristics, (2023); 5 ( 1 ): 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)
IEEE Mohamed Saber, Nader Behdad, Ehsaneh khodadadi, Detection of Breast Cancer Based on Feature Extraction Using WPSO in Conjunction with CNN, Journal of Journal of Artificial Intelligence and Metaheuristics, Vol. 5 , No. 1 , (2023) : 16-28 (Doi   :  https://doi.org/10.54216/JAIM.050102)