Graphical Model and Clustering-Regression based Methods for Causal Interactions: Breast Cancer Case Study

Suhilah Alkhalifah, Adel Aloraini
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Abstract

The early detection of Breast Cancer, the deadly disease that mostly affects women is extremely complex because it requires various features of the cell type. Therefore, the efficient approach to diagnosing Breast Cancer at the early stage was to apply artificial intelligence where machines are simulated with intelligence and programmed to think and act like a human. This allows machines to passively learn and find a pattern, which can be used later to detect any new changes that may occur. In general, machine learning is quite useful particularly in the medical field, which depends on complex genomic measurements such as microarray technique and would increase the accuracy and precision of results. With this technology, doctors can easily diagnose patients with cancer quickly and apply the proper treatment in a timely manner. Therefore, the goal of this paper is to address and propose a robust Breast Cancer diagnostic system using complex genomic analysis via microarray technology. The system will combine two machine learning methods, K-means cluster, and linear regression.
因果相互作用的图形模型和聚类回归方法:乳腺癌案例研究
癌症是一种主要影响女性的致命疾病,其早期检测极其复杂,因为它需要多种细胞类型的特征。因此,早期诊断癌症的有效方法是应用人工智能,用智能模拟机器,并编程使其像人类一样思考和行动。这使机器能够被动地学习并找到一种模式,以后可以使用这种模式来检测可能发生的任何新变化。总的来说,机器学习非常有用,尤其是在医学领域,它依赖于复杂的基因组测量,如微阵列技术,并将提高结果的准确性和准确性。有了这项技术,医生可以很容易地快速诊断癌症患者,并及时采取适当的治疗措施。因此,本文的目标是通过微阵列技术,利用复杂的基因组分析,解决并提出一个强大的癌症诊断系统。该系统将结合两种机器学习方法,K-means聚类和线性回归。
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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