IJBTT

Detection of PCOS using Machine Learning Algorithms with Grid Search CV Optimization

Detection of PCOS using Machine Learning Algorithms with Grid Search CV Optimization
	© 2023 by IJETT Journal
	Volume-71 Issue-7
	Year of Publication : 2023
	Author : K. Kavitha, Naresh Tangudu, Smita Rani Sahu, G V L Narayana, V. Anusha
	DOI : 10.14445/22315381/IJETT-V71I7P219

How to Cite?

K. Kavitha, Naresh Tangudu, Smita Rani Sahu, G V L Narayana, V. Anusha, "Detection of PCOS using Machine Learning Algorithms with Grid Search CV Optimization," International Journal of Engineering Trends and Technology, vol. 71, no. 7, pp. 201-208, 2023. Crossref, https://doi.org/10.14445/22315381/IJETT-V71I7P219

Abstract
Polycystic ovarian syndrome affects a lot of women who are of reproductive age (PCOS), a prevalent endocrine condition, develops. It has an impact on the female reproductive system, leading to polycystic ovaries, hyperandrogenism, and/or Ano/Oligo ovulation. Menstrual irregularities or high levels of androgen (male hormone) can occur in women with PCOS. The ovaries may create a great deal of small follicle clusters (cysts) and stop regularly producing eggs. Some signs of PCOS are period irregularities, an excess of androgen, polycystic ovaries, an abnormal BMI, imbalanced hormone levels, and decreased insulin sensitivity. In order to address this problem, a PCOS early detection app was developed using machine learning techniques. This study investigated the feasibility of creating an automated model to diagnose PCOS using machine learning techniques such as LightGBM Boost, Gradient Boost, and XGBoost, then using it with optimization methodology. For the best accuracy, grid search CV for hyperparameter tweaking. This conclusion was reached based on their statistical analysis of the data value on the earlier data set observations. The results are evaluated in terms of accuracy, recall, f1_scorings, and precision and are automated for real-life usage as web-based research.

Keywords
Hyperandrogenism, Ano/Oligo ovulation, Polycystic, Follicles, Statistical analysis, Grid search CV.

References

[1] Kinjal Raut, Chaitrali Katkar, and Suhasini A. Itkar, “PCOS Detect using Machine Learning Algorithms,” International Research Journal of Engineering and Technology, vol. 9, no. 1, 2022.
[Google Scholar] [Publisher Link]
[2] Abhishek M. Guptha et al., “Succinct Differentiation of Desperate Boosting Ensemble Learning Methods for Prognostication of Polycystic Ovary Syndrome Diagnosis,” International Conference on Advances in Computing, Communication, and Control, pp. 1-5, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[3] Subrato Bharati et al., “Ensemble Learning for Data-Driven Diagnosis of Polycystic Ovary Syndrome,” Intelligent Systems Design and Applications, vol. 418, pp. 1250–1259, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[4] Shamik Tiwari et al., “SPOSDS: A Smart Polycystic Ovary Syndrome Diagnostic System using Machine Learning,” Expert Systems with Applications, vol. 203, p. 117592, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[5] Wenqi Lv et al., “Deep Learning Algorithm for Automated Detection of Polycystic Ovary Syndrome using Scleral Images,” Frontiers in Endocrinology, vol. 12, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[6] Dana Hdaib et al., “Detection of Polycystic Ovary Syndrome (PCOS) using Machine Learning Algorithms,” 5th International Conference on Engineering Technology and its Applications, IEEE, pp. 532-536, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[7] A.K.M Salman Hosain, Md Humaion Kabir Mehedi, and IrtezaEnan Kabir, “PCONet: A Convolutional Neural Network Architecture to Detect Polycystic Ovary Syndrome (PCOS) from Ovarian Ultrasound Images,” Proceedings of the 8th International Conference on Engineering and Emerging Technologies, Kuala Lumpur, Malaysia, pp. 1-6, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[8] Jagruthi Vaswani et al., “A Systematic Literature Review on the Diagnosis of PCOS using Machine Learning Algorithms,” GIT_Journal of Engineering and Technology, 2022.
[Google Scholar] [Publisher Link]
[9] Manjunathan Alagarsamy et al., “Detection of Polycystic Syndrome in Ovary Using Machine Learning Algorithm,” International Journal of Intelligent Systems and Applications in Engineering, vol. 11, no. 1, pp. 246-253, 2023.
[Google Scholar] [Publisher Link]
[10] Preeti Chauhan et al., “Comparative Analysis of Machine Learning Algorithms for Prediction of PCOS,” IEEE International Conference on Communication information and Computing Technology, Mumbai, India, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[11] Yasmine A. Abu Adla et al., “Automated Detection of Polycystic Ovary Syndrome Using Machine Learning Techniques,” Sixth International Conference on Advances in Biomedical Engineering, pp. 208-212, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[12] M. Sumathi et al., “Study and Detection of PCOS Related Diseases using CNN,” IOP Conference Series: Materials Science and Engineering, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[13] Namrata Tanwani, “Detecting PCOS using Machine Learning,” International Journal of Modern Trends in Engineering and Science, vol. 7, no. 1, 2020.
[Google Scholar] [Publisher Link]
[14] Shakoor Ahmad Bhat, “Detection of Polycystic Ovary Syndrome using Machine Learning Algorithms,” MSc Research Project, MSc. Data Analytics, 2021.
[Google Scholar] [Publisher Link]
[15] Homay Danaei Mehr, and Huseyin Polat, “Diagnosis of Polycystic Ovary Syndrome through Different Machine Learning and Feature Selection Techniques,” Health and Technology, vol. 12, pp. 137-150, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[16] S. Aswath, and S. Valarmathi, "Obstructive Sleep Apnea Severity Prediction Model GUI using Anthropometrics," SSRG International Journal of Electrical and Electronics Engineering, vol. 9, no. 12, pp. 134-144, 2022.
[CrossRef] [Publisher Link]
[17] Shreyas Vedhpatak, Vaidehi Sunil Thakre, “PCOS Detection and Prediction using Machine Learning Algorithms,” Bioscience Biotechnology Research Communications, vol. 13, no. 14, pp. 240-244, 2020.
[CrossRef] [Google Scholar] [Publisher Link]
[18] Malik Mubasher Hassan, and Tabasum Mirza, “Comparative Analysis of Machine Learning Algorithms in Diagnosis of Polycystic Ovarian Syndrome,” International Journal of Computer Applications, vol. 175, no. 17, 2020.
[Google Scholar] [Publisher Link]
[19] Anuradha D. Thakare, and Priyanka R. Lele, “Genetic Clustering for Polycystic Ovary Syndrome Detection in Women of Reproductive Age,” International Journal of Engineering and Advanced Technology, vol. 9, no. 3, pp. 1356-1361, 2020.
[Google Scholar] [Publisher Link]
[20] C. Gopalakrishnan, and M. Iyapparaja, “A Detailed Research on Detection of Polycystic Ovary Syndrome from Ultrasound Images of Ovaries,” International Journal of Recent Technology and Engineering, vol. 8, no. 2S11, 2019.
[Google Scholar] [Publisher Link]
[21] Jay Jojo Cheng, and Shruthi Mahalingaiah, “Data Mining Polycystic Ovary Morphology in Electronic Medical Record Ultrasound Reports,” Fertility Research and Practice, vol. 5, 2019.
[CrossRef] [Google Scholar] [Publisher Link]
[22] Palvi Soni, and Sheveta Vashisht, “Exploration on Polycystic Ovarian Syndrome and Data Mining Techniques,” Proceedings of the International Conference on Communication and Electronics Systems, IEEE, pp. 816-820, 2018.
[CrossRef] [Google Scholar] [Publisher Link]
[23] K.Kavitha, Suneetha Chitttineni, “Efficient Sentimental Analysis using Hybrid Deep Transfer Learning Neural Network,” International Journal of Engineering Trends and Technology, vol. 70, no. 10, pp. 155-165, 2022.
[CrossRef] [Publisher Link]
[24] E. Setiawathi, Adiwijaya, and ABW Tjokorda, “Particle Swarm Optimization on Follicles Segmentation to Support PCOS Detection,” International Conference on Information and Communication Technology, pp. 369-374, 2015.
[CrossRef] [Google Scholar] [Publisher Link]
[25] B Vikas, Y Radhika, and K Vineesha, “Detection of Polycystic Ovarian Syndrome using Convolutional Neural Networks,” International Journal of Current Research and Review, vol. 13, no. 6, 2021.
[Google Scholar] [Publisher Link]