Binary fire hawks optimizer with deep learning driven non-invasive diabetes detection and classification.

IF 1.5 4区 医学 Q2 MEDICINE, GENERAL & INTERNAL
Namakkal Ramasamy Periasamy
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引用次数: 0

Abstract

Non-invasive diabetes detection refers to the utilization and development of technologies and methods that can monitor and diagnose diabetes without requiring invasive procedures, namely invasive glucose monitoring or blood sampling. The objective is to provide a more convenient and less burdensome approach to screening and management of diabetes. It is noteworthy that while non-invasive method offers promising avenues for diabetes detection, they frequently require validation through clinical studies and might have limitation in terms of reliability and accuracy than classical invasive approaches. In recent times, deep learning (DL) and feature selection (FS) are used to monitor and diagnose diabetes accurately without requiring invasive procedures. This technique combines the FS method with the DL algorithm for making accurate predictions and extracting relevant features from non-invasive data. This article introduces a new Binary Fire Hawks Optimizer with Deep Learning-Driven Non-Invasive Diabetes Detection and Classification (BFHODL-NIDDC) technique. The major intention of the BFHODL-NIDDC technique focuses on the involvement of non-invasive procedures for the detection of diabetes. In the BFHODL-NIDDC technique, data preprocessing is initially performed to preprocess the input data. Next, the BFHO algorithm chooses an optimal subset of features and improves the classifier results. For the identification of diabetes, multichannel convolutional bidirectional long short-term memory (MC-BLSTM) model is used. At last, the beetle antenna search (BAS) algorithm is used for the hyperparameter selection of the MC-BLSTM method which in turn enhances the detection performance of the MC-BLSTM model. A series of simulations were conducted on the diabetes dataset to assess the diabetes detection performance of the BFHODL-NIDDC technique. The experimental outcomes illustrated better performance of the BFHODL-NIDDC method over other recent approaches in terms of different metrics (Tab. 4, Fig. 9, Ref. 23). Keywords: diabetes, non-invasive detection, binary fire hawks optimizer, deep learning, hyperparameter tuning.

二元火鹰优化器与深度学习驱动的无创糖尿病检测和分类。
无创糖尿病检测是指利用和开发无需侵入性程序(即侵入性葡萄糖监测或血液采样)即可监测和诊断糖尿病的技术和方法。其目的是提供一种更方便、负担更轻的糖尿病筛查和管理方法。值得注意的是,虽然非侵入性方法为糖尿病检测提供了前景广阔的途径,但它们往往需要通过临床研究进行验证,而且与传统侵入性方法相比,在可靠性和准确性方面可能存在局限性。近来,深度学习(DL)和特征选择(FS)被用于在无需侵入性程序的情况下准确监测和诊断糖尿病。该技术将 FS 方法与 DL 算法相结合,可从非侵入性数据中进行准确预测并提取相关特征。本文介绍了一种新的二元火鹰优化器与深度学习驱动的无创糖尿病检测和分类(BFHODL-NIDDC)技术。BFHODL-NIDDC 技术的主要意图在于利用无创程序检测糖尿病。在 BFHODL-NIDDC 技术中,首先对输入数据进行预处理。接下来,BFHO 算法选择最佳特征子集,改进分类器结果。对于糖尿病的识别,采用了多通道卷积双向长短期记忆(MC-BLSTM)模型。最后,在 MC-BLSTM 方法的超参数选择中使用了甲虫天线搜索(BAS)算法,从而提高了 MC-BLSTM 模型的检测性能。为了评估 BFHODL-NIDDC 技术的糖尿病检测性能,对糖尿病数据集进行了一系列模拟。实验结果表明,就不同指标而言,BFHODL-NIDDC 方法的性能优于其他最新方法(表 4,图 9,参考文献 23)。关键词:糖尿病;无创检测;二元火鹰优化器;深度学习;超参数调整。
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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来源期刊
CiteScore
2.60
自引率
0.00%
发文量
185
审稿时长
3-8 weeks
期刊介绍: The international biomedical journal - Bratislava Medical Journal – Bratislavske lekarske listy (Bratisl Lek Listy/Bratisl Med J) publishes peer-reviewed articles on all aspects of biomedical sciences, including experimental investigations with clear clinical relevance, original clinical studies and review articles.
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