基于神经网络和雾计算的遗传疾病预测

Mrs. P. Jenifer, Ms. R. Femy Angelin, M. Harini
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引用次数: 0

摘要

辨别一种遗传性疾病的根源可能是科学上的主要挑战。由于已知关联和“消极”关联的要求,机器学习在识别先天无序的潜在连接方面的问题具有挑战性。雾计算对信息进行组织和分析,以提供和收集预期所需的信息,同时减少空闲时间,缩短疾病预测的缓冲时间。利用伪神经组织和雾计算,提出了一种基于人工智能的遗传杂波期望策略。期望是基于遗传感染。首先,安静的健康信息是通过众多数据集积累起来的,并存储在Fog Hubs上。深度学习是人工智能时间的一种形式,被称为假神经系统,用于接受遗传问题。作为人工神经网络的一部分,在前馈神经组织计算中,卷积层之间的连接不会形成一个圆。首先,使用该方法对不知疲倦的繁荣记录进行聚类。最后,利用前馈神经组织对遗传杂波进行建模。对真正的医疗保健信息进行逐点测试和思考,以评估拟议工作的执行情况。测试表明,所提出的工作在区分遗传异常方面具有很高的准确性,并且具有非凡的可靠性和执行力。
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Genetic Disorder Prediction Using ANN with Fog Computing
Distinguishing the source of a hereditary malady may be a principal challenge in science. The issue of machine learning in recognizing potential connections of innate disarrangement is challenging due to the need of known affiliations and the requirement of "negative" affiliations. Fog Computing organizes and analyzes information to supply and collect the information required for expectation, whereas lessening idleness and brief buffer periods for malady forecasts. This paper proposes an proficient AI-based hereditary clutter expectation strategy utilizing counterfeit neural organize with Fog Computing. Expectations are based on hereditary infections. At first, quiet wellbeing information is accumulated through numerous datasets and put away on Fog Hubs. Profound Learning, a shape of AI time called Fake Neural systems, is utilized to accept hereditary issues. As a portion of ANN, the connections between the convolution layers in a feedforward neural organize calculation don't create a circle. To begin with, the methodology is utilized to cluster the tireless prosperity records. At long last, a feedforward neural organize is utilized to figure hereditary clutters. A point by point test and ponder on genuine healthcare information was performed to assess the execution of the proposed works. The test appears that the proposed work viablely predicts infection with a tall degree of exactness in distinguishing hereditary anomalies, as well as extraordinary soundness and execution.
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