基于机器学习和深度特征提取技术的BLDA-CSWDT自身免疫性甲状腺疾病风险预测模型

Nagavali Saka, S. Murali Krishna
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引用次数: 0

摘要

如今,不同的甲状腺疾病正在影响着全世界的人口。因此,为了给患者提供合适的治疗并降低成本,需要进行早期诊断。为了提高预测能力,本文提出了贝叶斯-线性判别分析(B-LDA)和基于布谷鸟搜索的加权决策树(CSWDT)模型,从获得的数据集预测自身免疫性甲状腺风险评估。首先,经过预处理,使用深度MLP模型提取特征,并使用B-LDA模型融合重要特征,克服了降维问题。进一步,使用优化的布谷鸟搜索和加权决策树模型进行分类。此外,进行K-fold交叉验证,对甲状腺疾病的预测准确率达到99.5%。
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BLDA-CSWDT autoimmune thyroid disease risks predictive model using machine learning and deep feature extraction techniques
Nowadays, different thyroid disorders are observed which are affecting the human population worldwide. Hence, to provide suitable treatment and be cost-consuming for the patients, an earlier diagnosis is required. To improve prediction, this paper proposed Bayes-linear discriminant analysis (B-LDA) and cuckoo search based weighted decision tree (CSWDT) models to predict the autoimmune thyroid risk assessment from the obtained dataset. Initially, after pre-processing, the features are extracted using the deep MLP model, and the significant features are fused by using the B-LDA model which overcomes the dimensionality reduction issue. Further, the classification is performed by using the optimised cuckoo search with a weighted decision tree model. In addition, K-fold cross-validation is performed and attains a better accuracy value of 99.5% in thyroid disease prediction.
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CiteScore
1.60
自引率
0.00%
发文量
73
期刊介绍: IJBET addresses cutting-edge research in the multi-disciplinary area of biomedical engineering and technology. Medical science incorporates scientific/technological advances combining to produce more accurate diagnoses, effective treatments with fewer side effects, and improved ability to prevent disease and provide superior-quality healthcare. A key field here is biomedical engineering/technology, offering a synthesis of physical, chemical, mathematical and computational sciences combined with engineering principles to enhance R&D in biology, medicine, behaviour, and health. Topics covered include Artificial organs Automated patient monitoring Advanced therapeutic and surgical devices Application of expert systems and AI to clinical decision making Biomaterials design Biomechanics of injury and wound healing Blood chemistry sensors Computer modelling of physiologic systems Design of optimal clinical laboratories Medical imaging systems Sports medicine.
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