利用时间序列 LSTM 模型预测 1 型糖尿病的云连接数字系统

IF 1 4区工程技术 Q4 INSTRUMENTS & INSTRUMENTATION

Measurement Science Review Pub Date : 2024-04-13 DOI:10.2478/msr-2024-0011

K. Priyadarshini, Alanoud Al Mazroa, Mohammad Alamgeer, V. Subashree

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引用次数: 0

摘要

全世界有数百万人患有糖尿病，这种疾病正在加速蔓延。大量研究表明，如果能及早发现糖尿病，就可以避免可能引发糖尿病的风险因素。深度学习（DL）和机器学习（ML）算法的整合使早期糖尿病预测成为可能，这让医疗保健监测系统受益匪浅。许多早期研究的目标是提高预测模型的准确性。然而，由于可用数据集太小，DL 算法往往无法充分挖掘其潜力。这项研究包括一个非常精确的 DL 模型以及一个新颖的系统，该系统整合了云服务，允许用户直接增强现有数据集，从而提高 DL 技术的准确性。因此，我们选择了带有控制器的长短期记忆（LSTM）模型，用于高效预测 1 型糖尿病。实验验证了所提出的非线性模型预测控制（NMPC）_LSTM 算法方法与其他传统 DL 算法的比较。所提出的控制器方法实现了出色的血糖设定点跟踪，所提出的算法对所获得数据的准确率达到了 98.95%。与基准皮马印度糖尿病数据集（PIDD）相比，该算法的准确率提高了，优于其他现有方法。

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A Cloud-Connected Digital System for Type-1 Diabetes Prediction using Time Series LSTM Model

Millions of people worldwide suffer from diabetes, a medical condition that is spreading at an accelerating pace. Numerous studies show that risk factors that may arise from diabetes can be avoided if the disease is detected early. The health-care monitoring system has benefited greatly from early diabetes prediction made possible by the integration of Deep Learning (DL) and Machine Learning (ML) algorithms. The objective of many early studies was to increase the prediction model accuracy. However, DL algorithms often cannot fully exploit the potential of the available datasets because they are too small. This study includes a very accurate DL model as well as a novel system that integrates cloud services and allows users to directly enhance an existing data set, which can increase the accuracy of DL techniques. Therefore, the Long Short-Term Memory (LSTM) model with controller is chosen for efficient type-1 diabetes prediction. Experimental validation of the proposed Nonlinear Model Predictive Control (NMPC)_LSTM algorithm method is compared with other conventional DL algorithms. The proposed controller method achieves excellent blood glucose set point tracking and the proposed algorithms achieves 98.95% accuracy for the obtained data. It outperforms other existing methods with an increase in percentage accuracy compared to the Benchmark Pima Indian Diabetes Datasets (PIDD).

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来源期刊

Measurement Science Review INSTRUMENTS & INSTRUMENTATION-

CiteScore

2.00

自引率

11.10%

发文量

审稿时长

4.8 months

期刊介绍： - theory of measurement - mathematical processing of measured data - measurement uncertainty minimisation - statistical methods in data evaluation and modelling - measurement as an interdisciplinary activity - measurement science in education - medical imaging methods, image processing - biosignal measurement, processing and analysis - model based biomeasurements - neural networks in biomeasurement - telemeasurement in biomedicine - measurement in nanomedicine - measurement of basic physical quantities - magnetic and electric fields measurements - measurement of geometrical and mechanical quantities - optical measuring methods - electromagnetic compatibility - measurement in material science